MAP (WEB47b2a074): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
precipitation (WEB72139e72): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Paleo Interpretation metadata:
DWHI (WEB866da71d): interpretation1_scope: NULL has been replaced by ‘climate’
CandelabraLake.Cwynar.1995
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:32:57 UTC
changes:
Paleo Column metadata:
temperature (PYT17LJ7OZ8): paleoData_datum: ‘abs’ has been replaced by ‘anom’
temperature (WEBbc9e627b): paleoData_datum: ‘abs’ has been replaced by ‘anom’
CarletonLake.Upiter.2014
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:32:57 UTC
changes:
Paleo Column metadata:
uncertainty (Rd5HMdGcLuI): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
reliable (RDUKVXJmoWu): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
uncertainty (RJVxxUZZQ3l): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
temperature (Rkmjxk9vPEY): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
uncertainty (RMypuBjzjuu): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
temperature (RYVUHRVm0es): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
uncertainty (RZ2wAdxpQ65): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
reliable (RzypQIvKPgk): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
Paleo Interpretation metadata:
uncertainty (Rd5HMdGcLuI): interpretation1_scope: NULL has been replaced by ‘climate’
reliable (RDUKVXJmoWu): interpretation1_scope: NULL has been replaced by ‘climate’
uncertainty (RJVxxUZZQ3l): interpretation1_scope: NULL has been replaced by ‘climate’
uncertainty (RMypuBjzjuu): interpretation1_scope: NULL has been replaced by ‘climate’
uncertainty (RZ2wAdxpQ65): interpretation1_scope: NULL has been replaced by ‘climate’
reliable (RzypQIvKPgk): interpretation1_scope: NULL has been replaced by ‘climate’
Castor.Nelson.2011
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:32:58 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Nelson, D. B.”), list(name = “Abbott, M. B.”), list(name = “Steinman, B.”), list(name = “Polissar, P. J.”), list(name = “Stansell, N. D.”), list(name = “Ortiz, J. D.”), list(name = “Rosenmeier, M. F.”), list(name = “Finney, B. P.”), list(name = “Riedel, J.”))’ has been replaced by ‘Nelson, D. B.’
Paleo Column metadata:
d13C (LPDd7e6276fdd): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
d18O (LPDd7e6276fgg): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
d13C (LPDd7e6276fhh): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
Paleo Interpretation metadata:
d13C (LPDd7e6276fdd): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (LPDd7e6276fhh): interpretation1_scope: NULL has been replaced by ‘climate’
Chichancanab.Hodell.1995
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:32:59 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Hodell, David A.”), list(name = “Curtis, Jason H.”), list(name = “Brenner, Mark”))’ has been replaced by ‘Hodell, David A.’
Paleo Interpretation metadata:
TotalAmmoniaBeccarii (GH170ba3a7): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (GH5e456b2d): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (GH747a63d7): interpretation1_scope: NULL has been replaced by ‘climate’
d18O (GH79bd61b5): interpretation1_scope: NULL has been replaced by ‘climate’
d18O (GHb76f6725): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (GHc32c90e8): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (GHd6d32d0a): interpretation1_scope: NULL has been replaced by ‘climate’
d18OTerrestrialGastropods (GHd7e7684e): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
d18O (GHb76f6725): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
ChihuahuenosBog.Anderson.2008
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:32:59 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Anderson, R. Scott”), list(name = “Jass, Renata B.”), list(name = “Toney, Jaime L.”), list(name = “Allen, Craig D.”), list(name = “Cisneros-Dozal, Luz M.”), list(name = “Hess, Marcey”), list(name = “Heikoop, Jeff”), list(name = “Fessenden, Julianna”))’ has been replaced by ‘Anderson, R. Scott’
Paleo Interpretation metadata:
Picea (WEB29314f16): interpretation1_scope: NULL has been replaced by ‘climate’
Artemesia (WEB5e7cc8d6): interpretation1_scope: NULL has been replaced by ‘climate’
PinusTotal (WEB65ba94d8): interpretation1_scope: NULL has been replaced by ‘climate’
Chitina.Muhs.2013
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:00 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Muhs, Daniel R.”), list(name = “Budahn, James R.”), list(name = “McGeehin, John P.”), list(name = “Bettis, E. Arthur”), list(name = “Skipp, Gary”), list(name = “Paces, James B.”), list(name = “Wheeler, Elisabeth A.”))’ has been replaced by ‘Muhs, Daniel R.’
Paleo Interpretation metadata:
DMAR_error (WEBf2978cbd): interpretation1_scope: NULL has been replaced by ‘climate’
ClelandLake.Steinman.2016
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:00 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Steinman, Byron A.”), list(name = “Pompeani, David P.”), list(name = “Abbott, Mark B.”), list(name = “Ortiz, Joseph D.”), list(name = “Stansell, Nathan D.”), list(name = “Finkenbinder, Matthew S.”), list(name = “Mihindukulasooriya, Lorita N.”), list(name = “Hillman, Aubrey L.”))’ has been replaced by ‘Steinman, Byron A.’
Craterlake.Arcusa.2020
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:01 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Arcusa, Stephanie H”), list(name = “McKay, Nicholas P”), list(name = “Routson, Cody C”), list(name = “Munoz, Samuel E”))’ has been replaced by ‘Arcusa, Stephanie H’
Paleo Interpretation metadata:
0.025_quantile_dust_flux (ROLYOvJOUOn): interpretation1_scope: NULL has been replaced by ‘climate’
0.25_quantile_dust_flux (Rte53YvDhA9): interpretation1_scope: NULL has been replaced by ‘climate’
0.75_quantile_dust_flux (RWjDSZIDdGc): interpretation1_scope: NULL has been replaced by ‘climate’
0.975_quantile_dust_flux (RXoXqujCUgY): interpretation1_scope: NULL has been replaced by ‘climate’
dbd (WEB61c6cda7): interpretation1_scope: NULL has been replaced by ‘climate’
mineral (WEBda2d1dd7): interpretation1_scope: NULL has been replaced by ‘climate’
TIC (WEB4d2269bf): interpretation1_scope: NULL has been replaced by ‘climate’
TC (WEB66bddf46): interpretation1_scope: NULL has been replaced by ‘climate’
TOC (WEBab77097a): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (WEBcd5006f8): interpretation1_scope: NULL has been replaced by ‘climate’
CuevaDiablo.Bernal.2011
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:02 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Bernal, Juan Pablo”), list(name = “Lachniet, Matthew”), list(name = “McCulloch, Malcolm”), list(name = “Mortimer, Graham”), list(name = “Morales, Pedro”), list(name = “Cienfuegos, Edith”))’ has been replaced by ‘Bernal, Juan Pablo’
CumbresBog.Johnson.2013
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:02 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Johnson, Bradley G”), list(name = “Jiménez-Moreno, Gonzalo”), list(name = “Eppes, Martha Cary”), list(name = “Diemer, John A”), list(name = “Stone, Jeffery R”))’ has been replaced by ‘Johnson, Bradley G’
Paleo Interpretation metadata:
depthByCore (WEB35e007d8): interpretation1_scope: NULL has been replaced by ‘climate’
DempsterPeatland.Porter.2019
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:02 UTC
changes:
Paleo Interpretation metadata:
deltaT + 1 sigma (WEB0c2a385a): interpretation1_scope: NULL has been replaced by ‘climate’
dD_swcorr (WEB10668658): interpretation1_scope: NULL has been replaced by ‘climate’
d-excess (WEB53aebb8d): interpretation1_scope: NULL has been replaced by ‘climate’
deltaT - 1 sigma (WEB5fb47861): interpretation1_scope: NULL has been replaced by ‘climate’
d2H (WEB73fbe78c): interpretation1_scope: NULL has been replaced by ‘climate’
d-excess_swcorr (WEBa617473b): interpretation1_scope: NULL has been replaced by ‘climate’
d18O_swcorr (WEBa755355a): interpretation1_scope: NULL has been replaced by ‘climate’
d18O (WEBf7bafce3): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
d18O_swcorr (WEBa755355a): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
DJ6-93SF-6.McGann.2008
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:02 UTC
changes:
Paleo Column metadata:
Mg/Ca (WEB52af919a): paleoData_proxyGeneral: NULL has been replaced by ‘Mg/Ca’
d18O (WEB5ced1d4c): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
salinity (WEB9b735c81): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
Paleo Interpretation metadata:
Mg/Ca (WEB52af919a): interpretation1_scope: NULL has been replaced by ‘climate’
d18O (WEB5ced1d4c): interpretation1_scope: NULL has been replaced by ‘climate’
depth_bot (WEB69d5b7c6): interpretation1_scope: NULL has been replaced by ‘climate’
salinity (WEB9b735c81): interpretation1_scope: NULL has been replaced by ‘climate’
depth.top (WEBb725136f): interpretation1_scope: NULL has been replaced by ‘climate’
DSDP480.Barron.2004
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:03 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Barron, John A”), list(name = “Bukry, David”), list(name = “Bischoff, James L”))’ has been replaced by ‘Barron, John A’
Paleo Interpretation metadata:
Al (LPD028a26ef): interpretation1_scope: NULL has been replaced by ‘climate’
Actinocyclus_octonarius (LPD079db6d8): interpretation1_scope: NULL has been replaced by ‘climate’
D_perlaevis (LPD07be0e72): interpretation1_scope: NULL has been replaced by ‘climate’
Stephanopyxis_spp. (LPD1d428358): interpretation1_scope: NULL has been replaced by ‘climate’
Cyclotella_spp. (LPD22b774d2): interpretation1_scope: NULL has been replaced by ‘climate’
% Total C (LPD25b7279a): interpretation1_scope: NULL has been replaced by ‘climate’
Actinoptychus_spp. (LPD2714616c): interpretation1_scope: NULL has been replaced by ‘climate’
Ba (ppm) (LPD4d416388): interpretation1_scope: NULL has been replaced by ‘climate’
D_stapedia (LPD54035ff8): interpretation1_scope: NULL has been replaced by ‘climate’
D_aff_D_aculeata (LPD57eac7f0): interpretation1_scope: NULL has been replaced by ‘climate’
Numbe_counted (LPD57ee54a5): interpretation1_scope: NULL has been replaced by ‘climate’
%Ti (LPD60b72d70): interpretation1_scope: NULL has been replaced by ‘climate’
%P (LPD61f8f3a7): interpretation1_scope: NULL has been replaced by ‘climate’
D_calida (LPD67b4a07c): interpretation1_scope: NULL has been replaced by ‘climate’
O_pulchra_(small) (LPD6b75a5f1): interpretation1_scope: NULL has been replaced by ‘climate’
Fe (LPD73f66f5e): interpretation1_scope: NULL has been replaced by ‘climate’
D_calida_ampliata (LPD79bab6ef): interpretation1_scope: NULL has been replaced by ‘climate’
D_aspinosa (LPD84323569): interpretation1_scope: NULL has been replaced by ‘climate’
TIC (LPDa42f7341): interpretation1_scope: NULL has been replaced by ‘climate’
TOC (LPDaf2ace86): interpretation1_scope: NULL has been replaced by ‘climate’
Si (LPDb1734732): interpretation1_scope: NULL has been replaced by ‘climate’
O_pulchra_(med) (LPDc4d52a33): interpretation1_scope: NULL has been replaced by ‘climate’
CAL (LPDc50b4e08): interpretation1_scope: NULL has been replaced by ‘climate’
CAL (LPDdb35ffcd): interpretation1_scope: NULL has been replaced by ‘climate’
Number_counted (LPDdd024e46): interpretation1_scope: NULL has been replaced by ‘climate’
Dictyocha_acueata (LPDdedcba9a): interpretation1_scope: NULL has been replaced by ‘climate’
%Mg (LPDe6dd0dd1): interpretation1_scope: NULL has been replaced by ‘climate’
O_pulchra_(thick) (LPDee007ba7): interpretation1_scope: NULL has been replaced by ‘climate’
Sr (ppm) (LPDeff87f79): interpretation1_scope: NULL has been replaced by ‘climate’
Coscinodiscus_spp. (LPDf547b905): interpretation1_scope: NULL has been replaced by ‘climate’
%K (LPDf7e74c93): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
D_perlaevis (LPD07be0e72): paleoData_proxyGeneral: NULL has been replaced by ‘diatom’
D_calida (LPD67b4a07c): paleoData_proxyGeneral: NULL has been replaced by ‘diatom’
D_calida_ampliata (LPD79bab6ef): paleoData_proxyGeneral: NULL has been replaced by ‘diatom’
Dune.Finney.2012
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:03 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Finney, Bruce P.”), list(name = “Bigelow, Nancy H.”), list(name = “Barber, Valerie A.”), list(name = “Edwards, Mary E.”))’ has been replaced by ‘Finney, Bruce P.’
Paleo Interpretation metadata:
DUNE_A (GH2c543176dp): interpretation1_scope: NULL has been replaced by ‘climate’
Eleanor.Gavin.2011
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:04 UTC
changes:
Paleo Interpretation metadata:
pyrite (WEB12c40e44): interpretation1_scope: NULL has been replaced by ‘climate’
feldspar (WEB65cdfcf0): interpretation1_scope: NULL has been replaced by ‘climate’
quartz (WEB675a9a6a): interpretation1_scope: NULL has been replaced by ‘climate’
LOI (WEBfc223696): interpretation1_scope: NULL has been replaced by ‘climate’
Elsinore.Kirby.2019
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:04 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Kirby, Matthew Edward Christopher”), list(name = “Patterson, William Paul”), list(name = “Lachniet, Matthew”), list(name = “Noblet, James A.”), list(name = “Anderson, Michael A.”), list(name = “Nichols, Kevin”), list(name = “Avila, Judith”))’ has been replaced by ‘Kirby, Matthew Edward Christopher’
Paleo Column metadata:
d13C (WEB4884ca97): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
Paleo Interpretation metadata:
d13C (WEB4884ca97): interpretation1_scope: NULL has been replaced by ‘climate’
Emerald.Shuman.2014
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:05 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Shuman, B. N.”), list(name = “Carter, G. E.”), list(name = “Hougardy, D. D.”), list(name = “Powers, K.”), list(name = “Shinker, J. J.”))’ has been replaced by ‘Shuman, B. N.’
EmeraldLake.JimenezMoreno.2019
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:05 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Jiménez-Moreno, Gonzalo”), list(name = “Anderson, R. Scott”), list(name = “Shuman, Bryan N.”), list(name = “Yackulic, Ethan”))’ has been replaced by ‘Jimenez-Moreno, Gonzalo’
EN32_PC6.Flower.2004
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:05 UTC
changes:
Paleo Interpretation metadata:
d18o_ruber (T2L_EN32_PC6_d18o_ruber): interpretation1_scope: NULL has been replaced by ‘climate’
mgca_ruber (T2L_EN32_PC6_mgca_ruber): interpretation1_scope: NULL has been replaced by ‘climate’
MAP (WEB634c3a91): interpretation1_scope: NULL has been replaced by ‘climate’
DWHI (WEBdaa16cf6): interpretation1_scope: NULL has been replaced by ‘climate’
EW0408_66JC.Praetorius.2015
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:06 UTC
changes:
Paleo Interpretation metadata:
d18o_pachyderma (T2L_EW0408_66JC_d18o_pachyderma): interpretation1_scope: NULL has been replaced by ‘climate’
Uk37 (T2L_EW0408_66JC_uk37): interpretation1_scope: NULL has been replaced by ‘climate’
EW0408_85JC.Praetorius.2015
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:06 UTC
changes:
Paleo Interpretation metadata:
d18o_bulloides (T2L_EW0408_85JC_d18o_bulloides): interpretation1_scope: NULL has been replaced by ‘climate’
d18o_pachyderma (T2L_EW0408_85JC_d18o_pachyderma): interpretation1_scope: NULL has been replaced by ‘climate’
Uk37 (T2L_EW0408_85JC_uk37): interpretation1_scope: NULL has been replaced by ‘climate’
EW0408-87JC.Praetorius.2020
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:06 UTC
changes:
Paleo Interpretation metadata:
temperature_error (WEB2cb2b6c8): interpretation1_scope: NULL has been replaced by ‘climate’
depth_range (WEB3693843e): interpretation1_scope: NULL has been replaced by ‘climate’
Uk37 (WEB94c49328): interpretation1_scope: NULL has been replaced by ‘climate’
UK_error (WEBaa4eb603): interpretation1_scope: NULL has been replaced by ‘climate’
K37 (WEBac83d8b3): interpretation1_scope: NULL has been replaced by ‘climate’
FelkerLake.Galloway.2011
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:07 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Galloway, Jennifer M.”), list(name = “Lenny, Adam M.”), list(name = “Cumming, Brian F.”))’ has been replaced by ‘Galloway, Jennifer M.’
FoyLake.Stone.2008
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:07 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Stone, Jeffery R.”), list(name = “Fritz, Sherilyn C.”))’ has been replaced by ‘Stone, Jeffery R.’
Paleo Interpretation metadata:
x_C (GH073b6db7): interpretation1_scope: NULL has been replaced by ‘climate’
C/N (GH30b5a690): interpretation1_scope: NULL has been replaced by ‘climate’
N (GH3f4e3619): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (GH4473cf07): interpretation1_scope: NULL has been replaced by ‘climate’
euplank (GHab976c5c): interpretation1_scope: NULL has been replaced by ‘climate’
tycho (GHcd89f71d): interpretation1_scope: NULL has been replaced by ‘climate’
x18O (GHecbc6977): interpretation1_scope: NULL has been replaced by ‘climate’
GGC19.Farmer.2011
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:08 UTC
changes:
Paleo Column metadata:
Sea_Ice_months (PYT25EF3AP3): paleoData_notes: NULL has been replaced by ‘Dinocyst assemblages are used to reconstruct past sea‐ice patterns expressed as months of >50% sea‐ice cover per year’
Sea_Ice_months (PYT25EF3AP3): paleoData_proxy: NULL has been replaced by ‘dinocyst’
Sea_Ice_months (PYT25EF3AP3): paleoData_proxyDetail: NULL has been replaced by ‘assemblage MAT’
Sea_Ice_months (PYT25EF3AP3): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Sea_Ice_months (PYT25EF3AP3): paleoData_proxyLumps: NULL has been replaced by ‘other microfossil’
Sea_Ice_months (PYT25EF3AP3): paleoData_proxyLumpsOriginal: NULL has been replaced by ‘dinocyst’
Sea_Ice_months (PYT25EF3AP3): paleoData_QCCertification: NULL has been replaced by ‘SHA’
Sea_Ice_months (PYT25EF3AP3): paleoData_QCnotes: NULL has been replaced by ‘Added proxyGeneral’
salinity (PYTWP0AC2XZ): paleoData_proxy: NULL has been replaced by ‘dinocyst’
salinity (PYTWP0AC2XZ): paleoData_proxyDetail: NULL has been replaced by ‘assemblage MAT’
salinity (PYTWP0AC2XZ): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
salinity (PYTWP0AC2XZ): paleoData_proxyLumps: NULL has been replaced by ‘other microfossil’
salinity (PYTWP0AC2XZ): paleoData_proxyLumpsOriginal: NULL has been replaced by ‘dinocyst’
salinity (PYTWP0AC2XZ): paleoData_QCCertification: NULL has been replaced by ‘SHA’
salinity (PYTWP0AC2XZ): paleoData_QCnotes: NULL has been replaced by ‘Added proxyGeneral’
Sea_Ice_conc (PYTX7JOGE9T): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Paleo Interpretation metadata:
d18O (PYT5MM3IOKT): interpretation1_scope: NULL has been replaced by ‘climate’
productivity (PYTK7V865MD): interpretation1_scope: NULL has been replaced by ‘climate’
d18O (PYTU87CJ8I6): interpretation1_scope: NULL has been replaced by ‘climate’
GGC55_JPC56.Barron.2005
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:08 UTC
changes:
Paleo Column metadata:
Roperia_tesselata (WEB08ee3bd7): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Cyclotella_spp (WEB0fe79d0c): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Actinoptychus_and_Paralia (WEB23aafce1): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
total_xount (WEB297787b9): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Azpeitia_nodulifer (WEB39b40584): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Stephanopyxis (WEB74351686): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Coscinodiscus_large (WEB849ba268): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
A_octonarius (WEBb94e4783): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Coscinodiscus_radiatus (WEBe4faf00d): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Paleo Interpretation metadata:
Roperia_tesselata (WEB08ee3bd7): interpretation1_scope: NULL has been replaced by ‘climate’
Cyclotella_spp (WEB0fe79d0c): interpretation1_scope: NULL has been replaced by ‘climate’
sedRate (WEB11b166d4): interpretation1_scope: NULL has been replaced by ‘climate’
Actinoptychus_and_Paralia (WEB23aafce1): interpretation1_scope: NULL has been replaced by ‘climate’
total_xount (WEB297787b9): interpretation1_scope: NULL has been replaced by ‘climate’
Azpeitia_nodulifer (WEB39b40584): interpretation1_scope: NULL has been replaced by ‘climate’
Stephanopyxis (WEB74351686): interpretation1_scope: NULL has been replaced by ‘climate’
Coscinodiscus_large (WEB849ba268): interpretation1_scope: NULL has been replaced by ‘climate’
A_octonarius (WEBb94e4783): interpretation1_scope: NULL has been replaced by ‘climate’
Cal (WEBba52687b): interpretation1_scope: NULL has been replaced by ‘climate’
Coscinodiscus_radiatus (WEBe4faf00d): interpretation1_scope: NULL has been replaced by ‘climate’
GreatBasin.Salzer.2014
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:08 UTC
changes:
Paleo Interpretation metadata:
JAS+ (LPD40fc76af): interpretation1_scope: NULL has been replaced by ‘climate’
JAS- (LPDb17a5e9e): interpretation1_scope: NULL has been replaced by ‘climate’
Grutas.Winter.2020
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:09 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Winter, Amos”), list(name = “Zanchettin, Davide”), list(name = “Lachniet, Matthew”), list(name = “Vieten, Rolf”), list(name = “Pausata, Francesco S. R.”), list(name = “Ljungqvist, Fredrik Charpentier”), list(name = “Cheng, Hai”), list(name = “Edwards, R. Lawrence”), list(name = “Miller, Thomas”), list(name = “Rubinetti, Sara”), list(name = “Rubino, Angelo”), list(name = “Taricco, Carla”))’ has been replaced by ‘Winter, Amos’
Paleo Interpretation metadata:
d13C_2.5 (WEB17c8b581): interpretation1_scope: NULL has been replaced by ‘climate’
d18Omean (WEB1f922cc6): interpretation1_scope: NULL has been replaced by ‘climate’
d13Ccarb (WEB7c23e19c): interpretation1_scope: NULL has been replaced by ‘climate’
d18O_2.5 (WEB82304259): interpretation1_scope: NULL has been replaced by ‘climate’
d18O_97.5 (WEB82d0c2b5): interpretation1_scope: NULL has been replaced by ‘climate’
d13CMean (WEBca0964f6): interpretation1_scope: NULL has been replaced by ‘climate’
d13C_97.5 (WEBf94dabe2): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
d18Omean (WEB1f922cc6): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
d13Ccarb (WEB7c23e19c): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
d13CMean (WEBca0964f6): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
Hallet.McKay.2009
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:10 UTC
changes:
Paleo Interpretation metadata:
BSi (PYTOM636TOK): interpretation1_scope: NULL has been replaced by ‘climate’
Hanging.Cwynar.1982
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:10 UTC
changes:
Paleo Column metadata:
precipitation (M2L5hwettv0P): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Harding.Finkenbinder.2014
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:10 UTC
changes:
Paleo Interpretation metadata:
DBD (WEB3914cc70): interpretation1_scope: NULL has been replaced by ‘climate’
MAP (WEB210a92f6): interpretation1_scope: NULL has been replaced by ‘climate’
DWHI (WEBd227f65f): interpretation1_scope: NULL has been replaced by ‘climate’
HermitLake.Anderson.2018
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:11 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Anderson, R. Scott”), list(name = “Soltow, Hanna R.”), list(name = “Jimenez-Moreno, Gonzalo”))’ has been replaced by ‘Anderson, R. Scott’
PaleoData values:
age (WEB1208816a): The paleoData_values have changed
HiddenLakeCA.Potito.2006
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:11 UTC
changes:
Paleo Column metadata:
uncertainty (RE8rIgewJAI): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
uncertainty (RnRTXNHq9h2): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
reliable (Rtcy2uT4ykc): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
Paleo Interpretation metadata:
uncertainty (RE8rIgewJAI): interpretation1_scope: NULL has been replaced by ‘climate’
uncertainty (RnRTXNHq9h2): interpretation1_scope: NULL has been replaced by ‘climate’
reliable (Rtcy2uT4ykc): interpretation1_scope: NULL has been replaced by ‘climate’
HiddenLakeCO.Shuman.2009
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:11 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Shuman, Bryan”), list(name = “Henderson, Anna K.”), list(name = “Colman, Steven M.”), list(name = “Stone, Jeffery R.”), list(name = “Fritz, Sherilyn C.”), list(name = “Stevens, Lora R.”), list(name = “Power, Mitchell J.”), list(name = “Whitlock, Cathy”))’ has been replaced by ‘Shuman, Bryan’
HLY0501.deVernal.2013
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:11 UTC
changes:
Paleo Interpretation metadata:
productivity (PYTK6N30E0G): interpretation1_scope: NULL has been replaced by ‘climate’
C (PYTZWC15AHZ): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
salinity (PYTMYS4WX23): paleoData_proxy: NULL has been replaced by ‘dinocyst’
salinity (PYTMYS4WX23): paleoData_proxyDetail: NULL has been replaced by ‘MAT’
salinity (PYTMYS4WX23): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
salinity (PYTMYS4WX23): paleoData_proxyLumps: NULL has been replaced by ‘other microfossil’
salinity (PYTMYS4WX23): paleoData_proxyLumpsOriginal: NULL has been replaced by ‘dinocyst’
salinity (PYTMYS4WX23): paleoData_QCCertification: NULL has been replaced by ‘SHA’
salinity (PYTMYS4WX23): paleoData_QCnotes: NULL has been replaced by ‘Added proxyGeneral’
Sea_Ice_months (PYTONH3O7X5): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
Sea_Ice_conc (PYTSBGW0VN6): paleoData_proxy: NULL has been replaced by ‘dinocyst’
Sea_Ice_conc (PYTSBGW0VN6): paleoData_proxyDetail: NULL has been replaced by ‘MAT’
Sea_Ice_conc (PYTSBGW0VN6): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Sea_Ice_conc (PYTSBGW0VN6): paleoData_proxyLumps: NULL has been replaced by ‘other microfossil’
Sea_Ice_conc (PYTSBGW0VN6): paleoData_proxyLumpsOriginal: NULL has been replaced by ‘dinocyst’
Sea_Ice_conc (PYTSBGW0VN6): paleoData_QCCertification: NULL has been replaced by ‘SHA’
Sea_Ice_conc (PYTSBGW0VN6): paleoData_QCnotes: NULL has been replaced by ‘Added proxyGeneral’
HuntersLake.Anderson.2008
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:12 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Anderson, R. S.”), list(name = “Allen, C. D.”), list(name = “Toney, J. L.”), list(name = “Jass, R. B.”), list(name = “Bair, A. N.”))’ has been replaced by ‘Anderson, R. S.’
Paleo Interpretation metadata:
Picea (WEB14480060): interpretation1_scope: NULL has been replaced by ‘climate’
pollenSum (WEBa2eaba92): interpretation1_scope: NULL has been replaced by ‘climate’
PinusTotal (WEBb4425ca9): interpretation1_scope: NULL has been replaced by ‘climate’
Artemisia (WEBf28e669d): interpretation1_scope: NULL has been replaced by ‘climate’
Jellybean.Anderson.2005
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:12 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Anderson, Lesleigh”), list(name = “Abbott, Mark B.”), list(name = “Finney, Bruce P.”), list(name = “Burns, Stephen J.”))’ has been replaced by ‘Anderson, Lesleigh’
Jenny.Larson.2016
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:13 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Larsen, Darren J.”), list(name = “Finkenbinder, Matthew S.”), list(name = “Abbott, Mark B.”), list(name = “Ofstun, Adam R.”))’ has been replaced by ‘Larsen, Darren J.’
Paleo Interpretation metadata:
TOC (WEB0e853c9d): interpretation1_scope: NULL has been replaced by ‘climate’
LOI (WEB25692838): interpretation1_scope: NULL has been replaced by ‘climate’
LOI (WEB456b60bf): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (WEB4b5c6fb4): interpretation1_scope: NULL has been replaced by ‘climate’
dbd (WEB501638f3): interpretation1_scope: NULL has been replaced by ‘climate’
C/N (WEB5f7bbcf1): interpretation1_scope: NULL has been replaced by ‘climate’
BSi (WEB6179cd65): interpretation1_scope: NULL has been replaced by ‘climate’
clastic (WEB705f9850): interpretation1_scope: NULL has been replaced by ‘climate’
BSi (WEB8ba728c4): interpretation1_scope: NULL has been replaced by ‘climate’
TOC_flux (WEBa32e5310): interpretation1_scope: NULL has been replaced by ‘climate’
d15N (WEBda148bc7): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
dbd (WEB501638f3): paleoData_proxy: NULL has been replaced by ‘DBD’
dbd (WEB501638f3): paleoData_proxyGeneral: NULL has been replaced by ‘biophysical’
dbd (WEB501638f3): paleoData_proxyLumps: NULL has been replaced by ‘biophysical’
dbd (WEB501638f3): paleoData_proxyLumpsOriginal: NULL has been replaced by ‘DBD’
Jones.Shapley.2009
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:13 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Shapley, M.D.”), list(name = “Ito, E.”), list(name = “Donovan, J.J.”))’ has been replaced by ‘Shapley, M.D.’
Paleo Column metadata:
d18O (GH81e53153): paleoData_proxyDetail: ‘calcite in bulk sediment’ has been replaced by NULL
Keele.Szeicz.1995
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:13 UTC
changes:
Paleo Column metadata:
temperature (M2L0bknlm1hP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Lhapfah89P): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
precipitation (M2Lqujf1ttdP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Lut2rpqe2P): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
KeystoneIronbog.Fall.1985
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:13 UTC
changes:
Paleo Column metadata:
temperature (M2L54ah2uwsP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2L8o4qa5uuP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
precipitation (M2Lfvmhi20qP): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
temperature (M2Lynyi720vP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
KirmanLake.MacDonald.2016
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:14 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “MacDonald, Glen M.”), list(name = “Moser, Katrina A.”), list(name = “Bloom, Amy M.”), list(name = “Potito, Aaron P.”), list(name = “Porinchu, David F.”), list(name = “Holmquist, James R.”), list(name = “Hughes, Julia”), list(name = “Kremenetski, Konstantine V.”))’ has been replaced by ‘MacDonald, Glen M.’
Paleo Interpretation metadata:
V humeralis (LPD170a77c2): interpretation1_scope: NULL has been replaced by ‘climate’
d15N (LPD192cfe3e): interpretation1_scope: NULL has been replaced by ‘climate’
C/N (LPD20a23a58): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (LPD2cf4acc5): interpretation1_scope: NULL has been replaced by ‘climate’
chacoal_influx (LPD3393aa57): interpretation1_direction: NULL has been replaced by ‘positive’
pinus/atremisia (LPD77876d6d): interpretation1_scope: NULL has been replaced by ‘climate’
LOI (LPD99e0a86f): interpretation1_scope: NULL has been replaced by ‘climate’
P. nitidum (LPDf8a0875d): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
chacoal_influx (LPD3393aa57): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
lakeLevel (LPD41437034): paleoData_notes: ‘diatom inferred lake depth’ has been replaced by NULL
lakeLevel (LPD41437034): paleoData_proxyDetail: ‘assemblage’ has been replaced by ‘diatom inferred lake depth’
salinity (LPD912708fe): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
KiteLake.JimenezMoreno.2012
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:14 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Jiménez-Moreno, Gonzalo”), list(name = “Anderson, R Scott”))’ has been replaced by ‘Jimenez-Moreno, Gonzalo’
Paleo Interpretation metadata:
PinusTotal (WEB6ceff08c): interpretation1_scope: NULL has been replaced by ‘climate’
Picea (WEB745c0f5f): interpretation1_scope: NULL has been replaced by ‘climate’
Artemisia (WEB9396e3d8): interpretation1_scope: NULL has been replaced by ‘climate’
KNR159_JPC26.Antonarakou.2015
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:14 UTC
changes:
Paleo Interpretation metadata:
d18o_ruber_lato (T2L_KNR159_JPC26_d18o_ruber_lato): interpretation1_scope: NULL has been replaced by ‘climate’
d18o_ruber_stricto (T2L_KNR159_JPC26_d18o_ruber_stricto): interpretation1_scope: NULL has been replaced by ‘climate’
mgca_ruber_lato (T2L_KNR159_JPC26_mgca_ruber_lato): interpretation1_scope: NULL has been replaced by ‘climate’
mgca_ruber_stricto (T2L_KNR159_JPC26_mgca_ruber_stricto): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (T2L_KNR159_JPC26_d18o_ruber_lato_SST_from_d18o_ruber_lato): paleoData_proxyDetail: ‘ruber_lato’ has been replaced by NULL
temperature (T2L_KNR159_JPC26_d18o_ruber_stricto_SST_from_d18o_ruber_stricto): paleoData_proxyDetail: ‘ruber_stricto’ has been replaced by NULL
temperature (T2L_KNR159_JPC26_mgca_ruber_lato_SST_from_mgca_ruber_lato): paleoData_proxyDetail: ‘ruber_lato’ has been replaced by NULL
temperature (T2L_KNR159_JPC26_mgca_ruber_stricto_SST_from_mgca_ruber_stricto): paleoData_proxyDetail: ‘ruber_stricto’ has been replaced by NULL
KoksilahRiverDischarge.Brown.2015
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:14 UTC
changes:
Paleo Column metadata:
discharge (WEB03bfeb7c): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
AprQ (WEB1a313074): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
AugQ (WEB52ac47b6): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
MayQ (WEB6d52443c): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
FebQ (WEB85d2987d): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
OctQ (WEB8c8961ab): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
JulyQ (WEB9056751d): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
NovQ (WEBa10068fb): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
JanQ (WEBbacccbe8): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
SeptQ (WEBbef2db20): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
MarchQ (WEBc340f542): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
JuneQ (WEBcac87ab5): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
DecQ (WEBd35047a1): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
discharge (WEBee9de363): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
discharge (WEBfb8e4899): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
Kurupa.Boldt.2015
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:15 UTC
changes:
Paleo Column metadata:
temperature (NAm2kHydro240): paleoData_proxyDetail: ‘RABD660:670’ has been replaced by NULL
Kusawa.Chakraborty.2010
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:15 UTC
changes:
Paleo Column metadata:
BSi (PYT8QV5B55C): paleoData_proxyDetail: ‘bulk sediment’ has been replaced by NULL
LacMeleze.MacDonald.1987
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:15 UTC
changes:
Paleo Column metadata:
precipitation (M2L0p5755rpP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2L5mytb4knP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2L8o5wvg1qP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Lzztaq4rxP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
LagoPuertoArturo.Wahl.2014
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:15 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Wahl, David”), list(name = “Byrne, Roger”), list(name = “Anderson, Lysanna”))’ has been replaced by ‘Wahl, David’
Paleo Interpretation metadata:
sample_thickness (WEBf4f20f5f): interpretation1_scope: NULL has been replaced by ‘climate’
LagunaDeAljojuca.Bhattacharya.2015
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:16 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Bhattacharya, Tripti”), list(name = “Byrne, Roger”), list(name = “Böhnel, Harald”), list(name = “Wogau, Kurt”), list(name = “Kienel, Ulrike”), list(name = “Ingram, B. Lynn”), list(name = “Zimmerman, Susan”))’ has been replaced by ‘Bhattacharya, Tripti’
Paleo Interpretation metadata:
d13C (LPDaac60f8e): interpretation1_scope: NULL has been replaced by ‘climate’
LagunaDeJuanacatlan.Jones.2015
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:16 UTC
changes:
Paleo Interpretation metadata:
CAL (LPD01441887): interpretation1_scope: NULL has been replaced by ‘climate’
CAL (LPDe9872299): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
Ti (LPD91196716): paleoData_notes: ‘Ti_norm’ has been replaced by NULL
Ti (LPD91196716): paleoData_proxyDetail: ‘uchannel XRF’ has been replaced by ‘Ti_norm’
LakeoftheWoods.Palmer.2002
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:16 UTC
changes:
Paleo Column metadata:
temperature (R05eeEJNPBo): paleoData_notes: ‘51 lakes from British Columbia (Palmer et al. 2002)’ has been replaced by NULL
temperature (R05eeEJNPBo): paleoData_proxyDetail: ‘assemblage’ has been replaced by ‘51 lakes from British Columbia (Palmer et al. 2002)’
LakeOfTheWoods.Pribyl.2014
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:17 UTC
changes:
Paleo Column metadata:
lakeLevel (GH20782a02): paleoData_notes: ‘Elevation below modern’ has been replaced by NULL
lakeLevel (GH20782a02): paleoData_proxyDetail: ‘core transect’ has been replaced by ‘Elevation below modern’
LakeStowell.Lemmen.2018
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:17 UTC
changes:
Paleo Column metadata:
temperature (R6miF3Chdmb): paleoData_notes: ‘Fortin et al. 2015 training set (FOR15), Barley et al. 2006’ has been replaced by NULL
temperature (R6miF3Chdmb): paleoData_proxyDetail: ‘assemblage’ has been replaced by ‘Fortin et al. 2015 training set (FOR15), Barley et al. 2006’
temperature (RF91knm2Idi): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
temperature (RREhQ4nwCNf): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
CDR3_MgCa (WEB2b10ce20): interpretation1_scope: NULL has been replaced by ‘climate’
WR11_SrCa (WEB59702d62): interpretation1_scope: NULL has been replaced by ‘climate’
WR11_d18O (WEB6b9d77ce): interpretation1_scope: NULL has been replaced by ‘climate’
CDR3_d18O (WEBc6e6732c): interpretation1_scope: NULL has been replaced by ‘climate’
CDR3_d13C (WEBd1dae05b): interpretation1_scope: NULL has been replaced by ‘climate’
CDR3_SrCa (WEBeb20a1db): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
d13C (WEB5432df9c): paleoData_notes: ‘infiltration: “We therefore interpret Mg/Ca and d13C as reflecting infiltration rates, with higher values corresponding to drier periods.”’ has been replaced by NULL
d13C (WEB5432df9c): paleoData_proxyDetail: ‘calcite’ has been replaced by ‘infiltration: “We therefore interpret Mg/Ca and d13C as reflecting infiltration rates, with higher values corresponding to drier periods.”’
Mg/Ca (WEB753b9479): paleoData_notes: ‘infiltration: “We therefore interpret Mg/Ca and d13C as reflecting infiltration rates, with higher values corresponding to drier periods.”’ has been replaced by NULL
Mg/Ca (WEB753b9479): paleoData_proxyDetail: ‘calcite’ has been replaced by ‘infiltration: “We therefore interpret Mg/Ca and d13C as reflecting infiltration rates, with higher values corresponding to drier periods.”’
Leviathan.Lachniet.2014
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:18 UTC
changes:
Paleo Column metadata:
d18O (LPD94e74028cc): paleoData_proxyDetail: ‘calcite’ has been replaced by NULL
d13C (LPDa57620f7bb): paleoData_notes: ‘soil moisture amount’ has been replaced by NULL
d13C (LPDa57620f7bb): paleoData_proxyDetail: ‘calcite’ has been replaced by ‘soil moisture amount’
d18O (LPDe1fb72db): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
Lily.Cwynar.1990
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:18 UTC
changes:
Paleo Column metadata:
precipitation (PYTS71USULB): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (PYTZAK3QLN0): paleoData_notes: ‘Temperatures are an average of the best 3 estimates and the anomalies are relative to 1961-1990 baseline period.’ has been replaced by NULL
temperature (PYTZAK3QLN0): paleoData_proxyDetail: ‘assemblage’ has been replaced by ‘Temperatures are an average of the best 3 estimates and the anomalies are relative to 1961-1990 baseline period.’
temperatureComposite (R9f2mFSr7nU): paleoData_notes: ‘Temperatures are an average of the best 3 estimates and the anomalies are relative to 1961-1990 baseline period.’ has been replaced by NULL
temperatureComposite (R9f2mFSr7nU): paleoData_proxyDetail: ‘assemblage’ has been replaced by ‘Temperatures are an average of the best 3 estimates and the anomalies are relative to 1961-1990 baseline period.’
temperature (WEB39251bbc): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
LimeLake.Steinman.2016
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:18 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Steinman, Byron A.”), list(name = “Pompeani, David P.”), list(name = “Abbott, Mark B.”), list(name = “Ortiz, Joseph D.”), list(name = “Stansell, Nathan D.”), list(name = “Finkenbinder, Matthew S.”), list(name = “Mihindukulasooriya, Lorita N.”), list(name = “Hillman, Aubrey L.”))’ has been replaced by ‘Steinman, Byron A.’
Paleo Column metadata:
d13C (LPD17fc7c77): paleoData_notes: ‘lake level’ has been replaced by NULL
d13C (LPD17fc7c77): paleoData_proxyDetail: ‘organic carbon in bulk sediment’ has been replaced by ‘lake level’
d18O (LPDd6c25776): paleoData_notes: ‘P/E lake’ has been replaced by NULL
d18O (LPDd6c25776): paleoData_proxyDetail: ‘calcite in bulk sediment’ has been replaced by ‘P/E lake’
Little.Whitlock.1995
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:18 UTC
changes:
Paleo Column metadata:
temperature (M2L4dq6gc5iP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
precipitation (M2Lcr8uiytaP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Ldfq1l29fP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Le1i1npbzP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
LittleMolas.Toney.2006
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:19 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Toney, Jaime L.”), list(name = “Anderson, R. Scott”))’ has been replaced by ‘Toney, Jaime L.’
Paleo Interpretation metadata:
Pine (WEB24b54a62): interpretation1_scope: NULL has been replaced by ‘climate’
Abies (WEBb016ce27): interpretation1_scope: NULL has been replaced by ‘climate’
Artemisia (WEBb5a60303): interpretation1_scope: NULL has been replaced by ‘climate’
Picea (WEBba6c48b8): interpretation1_scope: NULL has been replaced by ‘climate’
LittleWindy.Minckley.2012
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:19 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Minckley, T. A.”), list(name = “Shriver, R. K.”), list(name = “Shuman, B”))’ has been replaced by ‘Minckley, T. A.’
Paleo Interpretation metadata:
MaxElevM (GH4c17cb27): interpretation1_scope: NULL has been replaced by ‘climate’
MinElevM (GH5872e927): interpretation1_scope: NULL has been replaced by ‘climate’
Recon0x2EDate (GHeece389e): interpretation1_scope: NULL has been replaced by ‘climate’
pub1_author: ‘list(list(name = “Anderson, R. Scott”), list(name = “Hasbargen, Jim”), list(name = “Koehler, Peter A.”), list(name = “Feiler, Eric J.”))’ has been replaced by ‘Anderson, R. Scott’
Paleo Interpretation metadata:
PinusTotalCount (WEB0374cfda): interpretation1_scope: NULL has been replaced by ‘climate’
PiceaCount (WEB3b8df1f6): interpretation1_scope: NULL has been replaced by ‘climate’
PinusEdulisCount (WEB469f9752): interpretation1_scope: NULL has been replaced by ‘climate’
PinusTotal (WEB644c88b9): interpretation1_scope: NULL has been replaced by ‘climate’
TotalPollen (WEB90d8ff62): interpretation1_scope: NULL has been replaced by ‘climate’
ArtemisiaCount (WEBac7744fd): interpretation1_scope: NULL has been replaced by ‘climate’
Artemisia (WEBc2e3aa1b): interpretation1_scope: NULL has been replaced by ‘climate’
Picea (WEBf07f5262): interpretation1_scope: NULL has been replaced by ‘climate’
LowerBearLake.Kirby.2012
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:20 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Kirby, Matthew E.”), list(name = “Zimmerman, Susan R.H.”), list(name = “Patterson, William P.”), list(name = “Rivera, Jose J.”))’ has been replaced by ‘Kirby, Matthew E.’
Paleo Interpretation metadata:
LOI (GH64dc7173): interpretation1_scope: NULL has been replaced by ‘climate’
MassMagSus (GH826c4eb6): interpretation1_scope: NULL has been replaced by ‘climate’
Macal.Akers.2016
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:21 UTC
changes:
Paleo Interpretation metadata:
sampleID (WEB9c05fc71): interpretation1_scope: NULL has been replaced by ‘climate’
Marcella.Anderson.2007
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:21 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Anderson, Lesleigh”), list(name = “Abbott, Mark B.”), list(name = “Finney, Bruce P.”), list(name = “Burns, Stephen J.”))’ has been replaced by ‘Anderson, Lesleigh’
Paleo Column metadata:
d13C (LPD893fb64e): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
Paleo Interpretation metadata:
d13C (LPD893fb64e): interpretation1_scope: NULL has been replaced by ‘climate’
MD02_2503.Hill.2006
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:21 UTC
changes:
Paleo Interpretation metadata:
d18o_bulloides (T2L_MD02_2503_d18o_bulloides): interpretation1_scope: NULL has been replaced by ‘climate’
MD02_2515.McClymont.2012
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:22 UTC
changes:
Paleo Interpretation metadata:
TEX86 (T2L_MD02_2515_tex86): interpretation1_scope: NULL has been replaced by ‘climate’
Uk37 (T2L_MD02_2515_uk37): interpretation1_scope: NULL has been replaced by ‘climate’
MD02-2499.Lopez.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:22 UTC
changes:
Paleo Column metadata:
productivity (WEB4f67ff38): paleoData_proxyGeneral: NULL has been replaced by ‘diatom’
Paleo Interpretation metadata:
productivity (WEB4f67ff38): interpretation1_scope: NULL has been replaced by ‘climate’
depth_cmbs (WEBdba68b16): interpretation1_scope: NULL has been replaced by ‘climate’
MD02-2515.Bhattacharya.2018
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:22 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Bhattacharya, Tripti”), list(name = “Tierney, Jessica E.”), list(name = “Addison, Jason A.”), list(name = “Murray, James W.”))’ has been replaced by ‘Bhattacharya, Tripti’
Paleo Column metadata:
d13C (WEB0e9b02bc): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
d2H (WEB91a5aefc): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
Paleo Interpretation metadata:
d13C (WEB0e9b02bc): interpretation1_scope: NULL has been replaced by ‘climate’
JAS_error (WEB7222cb3d): interpretation1_scope: NULL has been replaced by ‘climate’
d2H (WEB91a5aefc): interpretation1_scope: NULL has been replaced by ‘climate’
d2H (WEB9ef643f8): interpretation1_scope: NULL has been replaced by ‘climate’
MD02-2517.Bhattacharya.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:23 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Bhattacharya, Tripti”), list(name = “Tierney, Jessica E.”), list(name = “Addison, Jason A.”), list(name = “Murray, James W.”))’ has been replaced by ‘Bhattacharya, Tripti’
Paleo Interpretation metadata:
JAS_error (WEB698b0051): interpretation1_scope: NULL has been replaced by ‘climate’
d2H (WEB76705f2e): interpretation1_scope: NULL has been replaced by ‘climate’
d2H (WEB7f11f122): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (WEBc492332b): interpretation1_scope: NULL has been replaced by ‘climate’
MD02-2553.Poore.2009
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:23 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Poore, R.Z.”), list(name = “Pavich, M.J.”), list(name = “Grissino-Mayer, H.D.”))’ has been replaced by ‘Poore, R.Z.’
MeliLake.Anderson.2001
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:23 UTC
changes:
Paleo Column metadata:
d18O (WEBe0e75109): paleoData_notes: ‘P/E lake’ has been replaced by NULL
d18O (WEBe0e75109): paleoData_proxyDetail: ‘sediment cellulose’ has been replaced by ‘P/E lake’
MicaLake.Schiff.2009
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:23 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Schiff, Caleb J.”), list(name = “Kaufman, Darrell S.”), list(name = “Wolfe, Alexander P.”), list(name = “Dodd, Justin”), list(name = “Sharp, Zachary”))’ has been replaced by ‘Schiff, Caleb J.’
Geographic metadata:
geo_latitude: ‘60.95’ has been replaced by ‘60.687’
geo_longitude: ‘-148.15’ has been replaced by ‘-148.1422’
Paleo Column metadata:
d18O (GHbe8e3d17): paleoData_proxyDetail: ‘diatom’ has been replaced by NULL
MiddenCluster1.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:24 UTC
changes:
Paleo Interpretation metadata:
latitude sample (WEB132596a41): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEB38d3d661): interpretation1_scope: NULL has been replaced by ‘climate’
longitude sample (WEBd98cf2501): interpretation1_scope: NULL has been replaced by ‘climate’
elevation sample (WEBe2583d1f1): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
waterBalance (WEB25ae3120): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
precipitation (WEB613ee041): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (WEBa31332021): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster2.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:24 UTC
changes:
Paleo Interpretation metadata:
latitude sample (WEB17b6eb432): interpretation1_scope: NULL has been replaced by ‘climate’
elevation sample (WEB294348af2): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEB2c700ee3): interpretation1_scope: NULL has been replaced by ‘climate’
longitude sample (WEBfa1a1dfc2): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332022): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster3.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:24 UTC
changes:
Paleo Interpretation metadata:
plotName (WEB4c450070): interpretation1_scope: NULL has been replaced by ‘climate’
latitude sample (WEBee365cf33): interpretation1_scope: NULL has been replaced by ‘climate’
elevation sample (WEBf03210593): interpretation1_scope: NULL has been replaced by ‘climate’
longitude sample (WEBf717905c3): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332023): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster4.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:24 UTC
changes:
Paleo Interpretation metadata:
longitude sample (WEB04980cd44): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEB458bbeb1): interpretation1_scope: NULL has been replaced by ‘climate’
latitude sample (WEBbd43db314): interpretation1_scope: NULL has been replaced by ‘climate’
elevation sample (WEBe514d1124): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332024): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster5.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:24 UTC
changes:
Paleo Interpretation metadata:
elevation sample (WEB68bd240f5): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEBafef64e8): interpretation1_scope: NULL has been replaced by ‘climate’
longitude sample (WEBb4d01ad65): interpretation1_scope: NULL has been replaced by ‘climate’
latitude sample (WEBeda5d1445): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332025): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster6.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:25 UTC
changes:
Paleo Interpretation metadata:
elevation sample (WEB1471566f6): interpretation1_scope: NULL has been replaced by ‘climate’
longitude sample (WEB55c8fe9b6): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEB762f01a7): interpretation1_scope: NULL has been replaced by ‘climate’
latitude sample (WEBdbc993946): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332026): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster7.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:25 UTC
changes:
Paleo Interpretation metadata:
longitude sample (WEB185f2ee67): interpretation1_scope: NULL has been replaced by ‘climate’
latitude sample (WEB7aee36bc7): interpretation1_scope: NULL has been replaced by ‘climate’
elevation sample (WEB9ddc33ed7): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEBc354de0e): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332027): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster8.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:25 UTC
changes:
Paleo Interpretation metadata:
elevation sample (WEB48ec3b148): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEB92189f37): interpretation1_scope: NULL has been replaced by ‘climate’
latitude sample (WEBbbb69cf38): interpretation1_scope: NULL has been replaced by ‘climate’
longitude sample (WEBdb5bec388): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332028): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MiddenCluster9.Harbert.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:25 UTC
changes:
Paleo Interpretation metadata:
latitude sample (WEB0292cb449): interpretation1_scope: NULL has been replaced by ‘climate’
longitude sample (WEB12f682829): interpretation1_scope: NULL has been replaced by ‘climate’
plotName (WEB9d6800b8): interpretation1_scope: NULL has been replaced by ‘climate’
elevation sample (WEBe85bf21d9): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (WEBa31332029): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MinnetonkaCave.Lundeen.2013
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:26 UTC
changes:
Paleo Column metadata:
d18O (GH250fcb25): paleoData_proxyDetail: ‘calcite’ has been replaced by NULL
d13C (GHc8e0777d): paleoData_notes: ‘“The rela- tionship indicates that wet conditions correspond with higher d13C values and dry conditions correspond with lower d13C values.”’ has been replaced by NULL
d13C (GHc8e0777d): paleoData_proxyDetail: ‘calciumcarbonate’ has been replaced by ‘“The rela- tionship indicates that wet conditions correspond with higher d13C values and dry conditions correspond with lower d13C values.”’
pub1_title: ‘Preliminary results from Laguna Minucúa: a potentially annually resolved record of climate and environmental change for the past ∼5000 years in the Mixteca Alta of Oaxaca, Mexico’ has been replaced by ‘Preliminary results from Laguna Minucua: a potentially annually resolved record of climate and environmental change for the past ∼5000 years in the Mixteca Alta of Oaxaca, Mexico’
Paleo Interpretation metadata:
Core_number (WEB2f2d7048): interpretation1_scope: NULL has been replaced by ‘climate’
Varve_number (WEB3f819fb1): interpretation1_scope: NULL has been replaced by ‘climate’
CodeName (WEB6b94ed5b): interpretation1_scope: NULL has been replaced by ‘climate’
LazerProfiler (WEBc7e5e621): interpretation1_scope: NULL has been replaced by ‘climate’
PaleoData values:
MS (WEBb09ddc98): The paleoData_values have changed
MLake.Ritchie.1977
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:26 UTC
changes:
Paleo Column metadata:
temperature (M2L1es9v20zP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
precipitation (M2L4g91g0giP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Lbyxlfr07P): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2LwpcxxempP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
MooseLake.Clegg.2010
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:27 UTC
changes:
Paleo Column metadata:
uncertainty (R1Vx2im3vDM): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
uncertainty (R57oiZlfhXn): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
temperature (RHLePxbL9rI): paleoData_notes: ‘northwest North American training set (Barley 2006)’ has been replaced by NULL
temperature (RHLePxbL9rI): paleoData_proxyDetail: ‘assemblage’ has been replaced by ‘northwest North American training set (Barley 2006)’
Paleo Interpretation metadata:
uncertainty (R1Vx2im3vDM): interpretation1_scope: NULL has been replaced by ‘climate’
uncertainty (R57oiZlfhXn): interpretation1_scope: NULL has been replaced by ‘climate’
MorrisPond.Morris.2013
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:27 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Morris, Jesse L.”), list(name = “Brunelle, Andrea”), list(name = “DeRose, R. Justin”), list(name = “Seppä, Heikki”), list(name = “Power, Mitchell J.”), list(name = “Carter, Vachel”), list(name = “Bares, Ryan”))’ has been replaced by ‘Morris, Jesse L.’
Paleo Column metadata:
ArtAmb (WEB90956c0c): paleoData_notes: ‘“The Artemisia/ Chenopodiaceae (AC) ratio is commonly used as a qualitative proxy for past annual growing season moisture availability in arid and semi-arid regions because Artemisia requires more growing season moisture than Chenopodiaceae”’ has been replaced by NULL
ArtAmb (WEB90956c0c): paleoData_proxyDetail: ‘ratio’ has been replaced by ‘“The Artemisia/ Chenopodiaceae (AC) ratio is commonly used as a qualitative proxy for past annual growing season moisture availability in arid and semi-arid regions because Artemisia requires more growing season moisture than Chenopodiaceae”’
ArtChenoSar (WEBa30eb517): paleoData_proxyDetail: ‘ratio’ has been replaced by NULL
MV0811-14JC.Du.2018
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:28 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Du, Xiaojing”), list(name = “Hendy, Ingrid”), list(name = “Schimmelmann, Arndt”))’ has been replaced by ‘Du, Xiaojing’
Paleo Interpretation metadata:
uncorrected_depth_top (LPD10c46c7c): interpretation1_scope: NULL has been replaced by ‘climate’
layer_type (LPD275256d3): interpretation1_scope: NULL has been replaced by ‘climate’
uncorrected_depth_bot (LPD8750a07d): interpretation1_scope: NULL has been replaced by ‘climate’
color (LPDc7bda7fe): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
thickness (LPD7939faee): paleoData_notes: ‘flood’ has been replaced by NULL
thickness (LPD7939faee): paleoData_proxyDetail: ‘flood layers’ has been replaced by ‘flood’
MV99_PC14.Marchitto.2010
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:28 UTC
changes:
Paleo Interpretation metadata:
mgca_bulloides (T2L_MV99_PC14_mgca_bulloides): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (T2L_MV99_PC14_mgca_bulloides_SST_from_mgca_bulloides): paleoData_proxyDetail: ‘bulloides’ has been replaced by NULL
MV99-GC31.Barron.2012
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:28 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Barron, John A.”), list(name = “Metcalfe, Sarah E.”), list(name = “Addison, Jason A.”))’ has been replaced by ‘Barron, John A.’
Paleo Interpretation metadata:
ppm Cu (LPD00e608fe): interpretation1_scope: NULL has been replaced by ‘climate’
P (LPD04a5bc00): interpretation1_scope: NULL has been replaced by ‘climate’
CAL (LPD071ba777): interpretation1_scope: NULL has been replaced by ‘climate’
CaCO3-IC (LPD091c71b7): interpretation1_scope: NULL has been replaced by ‘climate’
ppm La (LPD0e839d7e): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Cr (LPD16ae04fb): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Zn (LPD171b0f6f): interpretation1_scope: NULL has been replaced by ‘climate’
% K (LPD17567730): interpretation1_scope: NULL has been replaced by ‘climate’
Azpeitia nodulifer (LPD1ea1bbc9): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Cd (LPD27b03bf3): interpretation1_scope: NULL has been replaced by ‘climate’
Na (LPD29cdd38a): interpretation1_scope: NULL has been replaced by ‘climate’
Paralia sulcata (LPD2ee728c9): interpretation1_scope: NULL has been replaced by ‘climate’
Hemidiscus cuneiformis (LPD33179137): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Co (LPD352577e1): interpretation1_scope: NULL has been replaced by ‘climate’
% Mn (LPD3b5b919b): interpretation1_scope: NULL has been replaced by ‘climate’
Cyclotella spp. (LPD3c17a70a): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Sr (LPD3d870b87): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Pb (LPD476959ce): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Ni (LPD4769fcbd): interpretation1_scope: NULL has been replaced by ‘climate’
ppmBa/%Al (LPD5a9149dc): interpretation1_scope: NULL has been replaced by ‘climate’
Cd MAR (ug/cm2/ky) (LPD5d203752): interpretation1_scope: NULL has been replaced by ‘climate’
% Ca-ex (LPD605de7d8): interpretation1_scope: NULL has been replaced by ‘climate’
Acinocyclus. curvatulus (LPD60dfeb45): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Ba (LPD63793db5): interpretation1_scope: NULL has been replaced by ‘climate’
OC-MAR (g) (LPD68c324f7): interpretation1_scope: NULL has been replaced by ‘climate’
LSR (cm/ky) (LPD726ed772): interpretation1_scope: NULL has been replaced by ‘climate’
ppm As (LPD75d47c64): interpretation1_scope: NULL has been replaced by ‘climate’
% Mg (LPD76d3e724): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Y (LPD7c0b6b9a): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Mo (LPD7dbaea3a): interpretation1_scope: NULL has been replaced by ‘climate’
Az. tabularis (LPD7df02d0a): interpretation1_scope: NULL has been replaced by ‘climate’
CAL (LPD85779bfd): interpretation1_scope: NULL has been replaced by ‘climate’
Bulk MAR (LPD87573da3): interpretation1_scope: NULL has been replaced by ‘climate’
A. octonarius (LPD8794764f): interpretation1_scope: NULL has been replaced by ‘climate’
CAL (LPD90380814): interpretation1_scope: NULL has been replaced by ‘climate’
Mo MAR (ug/cm2/ky) (LPD94588022): interpretation1_scope: NULL has been replaced by ‘climate’
Al (LPD9a0848fc): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Sc (LPDa336cc92): interpretation1_scope: NULL has been replaced by ‘climate’
Actinoptychus spp. (LPDa61506bc): interpretation1_scope: NULL has been replaced by ‘climate’
Roperia tesselata (LPDa7b4083f): interpretation1_scope: NULL has been replaced by ‘climate’
% Ca-detr (LPDa876031c): interpretation1_scope: NULL has been replaced by ‘climate’
OC-MAR (mg) (LPDaa917599): interpretation1_scope: NULL has been replaced by ‘climate’
% OC (LPDaceadfb7): interpretation1_scope: NULL has been replaced by ‘climate’
% TC (LPDb18da1e0): interpretation1_scope: NULL has been replaced by ‘climate’
Mn/Mo (LPDb383a9dd): interpretation1_scope: NULL has been replaced by ‘climate’
Stephanopyxis spp. (LPDb96e7b65): interpretation1_scope: NULL has been replaced by ‘climate’
% Ti (LPDba7e2f30): interpretation1_scope: NULL has been replaced by ‘climate’
Thalassiosira spp. (LPDbc6c866e): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Be (LPDc7a4bbb3): interpretation1_scope: NULL has been replaced by ‘climate’
Chaetoceros spores (LPDcf87a317): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Mn (LPDd0283d75): interpretation1_scope: NULL has been replaced by ‘climate’
Coscinodiscus spp. (LPDd6b6e880): interpretation1_scope: NULL has been replaced by ‘climate’
Fe (LPDde5d433d): interpretation1_scope: NULL has been replaced by ‘climate’
% CaCO3-ex (LPDe484d854): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Cd/% Mn (LPDf33f8463): interpretation1_scope: NULL has been replaced by ‘climate’
ppm V (LPDf538e744): interpretation1_scope: NULL has been replaced by ‘climate’
ppm Zr (LPDf80d99b7): interpretation1_scope: NULL has been replaced by ‘climate’
% IC (LPDfad2ad32): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
BSi (LPD4d80bd37): paleoData_notes: ‘Percent opal and number of diatoms/gram interpreted as inversly related to SST. Infering relative SST from upwelling.’ has been replaced by NULL
BSi (LPD4d80bd37): paleoData_proxyDetail: ‘bulk sediment’ has been replaced by ‘Percent opal and number of diatoms/gram interpreted as inversly related to SST. Infering relative SST from upwelling.’
SumDiatoms (LPDbc86d401): paleoData_proxyGeneral: NULL has been replaced by ‘diatom’
MV99-GC41_PC14.Arellano-Torres.2019
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:29 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Marchitto, T. M.”), list(name = “Muscheler, R.”), list(name = “Ortiz, J. D.”), list(name = “Carriquiry, J. D.”), list(name = “van Geen, A.”))’ has been replaced by ‘Marchitto, T. M.’
NBJ2015iso.Wong.2015
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:29 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Wong, Corinne I.”), list(name = “Banner, Jay L.”), list(name = “Musgrove, MaryLynn”))’ has been replaced by ‘Wong, Corinne I.’
Paleo Column metadata:
Sr (WEB02d26251): paleoData_notes: ‘Sr, digitized from figure 4, panel b, Wong et al., 2015. “we interpret variations in NBJ trace-element concentrations to reflect relative changes in moisture conditions”’ has been replaced by NULL
Sr (WEB02d26251): paleoData_proxyDetail: ‘calcite trace elements’ has been replaced by ‘Sr, digitized from figure 4, panel b, Wong et al., 2015. “we interpret variations in NBJ trace-element concentrations to reflect relative changes in moisture conditions”’
Paleo Interpretation metadata:
number (WEB858f4310): interpretation1_scope: NULL has been replaced by ‘climate’
NevadaPrecip.Hughes.1996
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:29 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Hughes, M. K.”), list(name = “Graumlich, L. J.”))’ has been replaced by ‘Hughes, M. K.’
Paleo Column metadata:
precipitation (WEB75eec6a6): paleoData_proxyDetail: ‘tree ring width’ has been replaced by NULL
NH-8P.Bhattacharya.2018
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:30 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Bhattacharya, Tripti”), list(name = “Tierney, Jessica E.”), list(name = “Addison, Jason A.”), list(name = “Murray, James W.”))’ has been replaced by ‘Bhattacharya, Tripti’
Paleo Interpretation metadata:
d13C (WEBd58f99c9): interpretation1_scope: NULL has been replaced by ‘climate’
d2H (WEBdf95c735): interpretation1_scope: NULL has been replaced by ‘climate’
JASerror (WEBe7b23475): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
precipitation (WEBdf73c287): paleoData_notes: ‘JASPrecipPercent’ has been replaced by NULL
precipitation (WEBdf73c287): paleoData_proxyDetail: ‘leaf wax’ has been replaced by ‘JASPrecipPercent’
NorthCraterLake.Palmer.2002
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:30 UTC
changes:
Paleo Column metadata:
temperature (WEB571a8fc4): paleoData_notes: ‘51 lakes from British Columbia (Palmer et al. 2002)’ has been replaced by NULL
temperature (WEB571a8fc4): paleoData_proxyDetail: ‘assemblage’ has been replaced by ‘51 lakes from British Columbia (Palmer et al. 2002)’
ODP_167_1019C.Barron.2003
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:30 UTC
changes:
Paleo Interpretation metadata:
Uk37 (T2L_ODP_167_1019C_uk37): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
temperature (T2L_ODP_167_1019C_uk37_SST_from_uk37): paleoData_proxyDetail: ‘UK37’ has been replaced by NULL
ODP1019.Barron.2003
Version: 1.0.3
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:31 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Barron, John A.”), list(name = “Heusser, Linda”), list(name = “Herbert, Timothy”), list(name = “Lyle, Mitch”))’ has been replaced by ‘Barron, John A.’
Paleo Interpretation metadata:
Abies (LPD01dc5bd1): interpretation1_scope: NULL has been replaced by ‘climate’
Tsuga_heterophylla (LPD02286c93): interpretation1_scope: NULL has been replaced by ‘climate’
BSi (LPD067f4aa0): interpretation1_scope: NULL has been replaced by ‘climate’
bulkMAR (LPD0c17c7c5): interpretation1_scope: NULL has been replaced by ‘climate’
range (LPD0f17c78b): interpretation1_scope: NULL has been replaced by ‘climate’
Artemisia (LPD109d7dc3): interpretation1_scope: NULL has been replaced by ‘climate’
Pinus (LPD12ecdd3a): interpretation1_scope: NULL has been replaced by ‘climate’
Cyperaceae (LPD1494335e): interpretation1_scope: NULL has been replaced by ‘climate’
Thalassiothrix_longissima (LPD14f73bf8): interpretation1_scope: NULL has been replaced by ‘climate’
Chenopodiacaeae (LPD17ea0f7c): interpretation1_scope: NULL has been replaced by ‘climate’
section (LPD19d067a1): interpretation1_scope: NULL has been replaced by ‘climate’
bot (LPD19e6c846): interpretation1_scope: NULL has been replaced by ‘climate’
T_pacifica (LPD1c33bb36): interpretation1_scope: NULL has been replaced by ‘climate’
Quercus (LPD217226f5): interpretation1_scope: NULL has been replaced by ‘climate’
Picea (LPD24076f43): interpretation1_scope: NULL has been replaced by ‘climate’
Neodenticula_seminae (LPD28879136): interpretation1_scope: NULL has been replaced by ‘climate’
Pseudoeunotia_doliolus (LPD2ba48b7e): interpretation1_scope: NULL has been replaced by ‘climate’
Stephanopyxis (LPD2cb1fa44): interpretation1_scope: NULL has been replaced by ‘climate’
Nitzschia_interruptestriata (LPD32b471f6): interpretation1_scope: NULL has been replaced by ‘climate’
total_non_Chaetoceros_counted (LPD34eb8707): interpretation1_scope: NULL has been replaced by ‘climate’
Actinocyclus_curvatulus (LPD370773ec): interpretation1_scope: NULL has been replaced by ‘climate’
Minidiscus? (LPD37969087): interpretation1_scope: NULL has been replaced by ‘climate’
Freshwater_planktic (LPD39ed5039): interpretation1_scope: NULL has been replaced by ‘climate’
Actinoptychus (LPD43d0c767): interpretation1_scope: NULL has been replaced by ‘climate’
Chaetoceros_spores (LPD462b5aa8): interpretation1_scope: NULL has been replaced by ‘climate’
Thalassiosira_excentrica (LPD4c5795fb): interpretation1_scope: NULL has been replaced by ‘climate’
Compositae (LPD510d1821): interpretation1_scope: NULL has been replaced by ‘climate’
RRA (LPD5398e791): interpretation1_scope: NULL has been replaced by ‘climate’
Roperia_tesselata (LPD55b2f42b): interpretation1_scope: NULL has been replaced by ‘climate’
Paralia_sucata (LPD5855d89a): interpretation1_scope: NULL has been replaced by ‘climate’
Pseudtsuga (LPD5cdc92e7): interpretation1_scope: NULL has been replaced by ‘climate’
Gramineae (LPD604d883e): interpretation1_scope: NULL has been replaced by ‘climate’
Hemidiscus_cuneiformis (LPD61f28797): interpretation1_scope: NULL has been replaced by ‘climate’
CordMAR (LPD684c898d): interpretation1_scope: NULL has been replaced by ‘climate’
Rhizosolenia (LPD6b107d7f): interpretation1_scope: NULL has been replaced by ‘climate’
Corg (LPD70f81095): interpretation1_scope: NULL has been replaced by ‘climate’
Bot (LPD732be32c): interpretation1_scope: NULL has been replaced by ‘climate’
Reworked (LPD7469db23): interpretation1_scope: NULL has been replaced by ‘climate’
core_section (LPD77776d72): interpretation1_scope: NULL has been replaced by ‘climate’
T_spp (LPD78feb153): interpretation1_scope: NULL has been replaced by ‘climate’
core_section (LPD79cfdfa2): interpretation1_scope: NULL has been replaced by ‘climate’
Diatoms_per_traverse (LPD7cef00f6): interpretation1_scope: NULL has been replaced by ‘climate’
T_oestrupii (LPD96331c23): interpretation1_scope: NULL has been replaced by ‘climate’
Coscinodiscus_radiatus (LPD9a6c42df): interpretation1_scope: NULL has been replaced by ‘climate’
N_sicula (LPD9f7051c6): interpretation1_scope: NULL has been replaced by ‘climate’
Delphineis (LPDa0de1ee4): interpretation1_scope: NULL has been replaced by ‘climate’
Azpeitia_nodulifer (LPDa501a787): interpretation1_scope: NULL has been replaced by ‘climate’
EstDryBD (LPDaae87ae5): interpretation1_scope: NULL has been replaced by ‘climate’
interval (LPDb1416af4): interpretation1_scope: NULL has been replaced by ‘climate’
top (LPDb60107b1): interpretation1_scope: NULL has been replaced by ‘climate’
CaCO3 (LPDb7b957ca): interpretation1_scope: NULL has been replaced by ‘climate’
sumUK37 (LPDc096667d): interpretation1_scope: NULL has been replaced by ‘climate’
CoreSect1H (LPDc8474697): interpretation1_scope: NULL has been replaced by ‘climate’
A_tabularis (LPDcc181dde): interpretation1_scope: NULL has been replaced by ‘climate’
Total_grains_counted (LPDce562d30): interpretation1_scope: NULL has been replaced by ‘climate’
core (LPDdbd85317): interpretation1_scope: NULL has been replaced by ‘climate’
TCT (LPDe2245135): interpretation1_scope: NULL has been replaced by ‘climate’
Top (LPDe5b354a2): interpretation1_scope: NULL has been replaced by ‘climate’
sedRate (LPDec4fb49b): interpretation1_scope: NULL has been replaced by ‘climate’
Benthic (LPDee740581): interpretation1_scope: NULL has been replaced by ‘climate’
T_mertensianna (LPDee96f9d3): interpretation1_scope: NULL has been replaced by ‘climate’
WetBD (LPDfa474b81): interpretation1_scope: NULL has been replaced by ‘climate’
Other_planktic (LPDfe85945c): interpretation1_scope: NULL has been replaced by ‘climate’
pollen_grains/gram (LPDffc3249f): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
upwelling (LPD87397223): paleoData_notes: ‘Thalassionema_nitzschioides’ has been replaced by NULL
upwelling (LPD87397223): paleoData_proxyDetail: ‘single species’ has been replaced by ‘Thalassionema_nitzschioides’
Alnus (LPDac11991f): paleoData_notes: ‘“Increasingly warm and dry continental conditions are suggested for the early part of the middle Holocene by a steady decline in alder pollen and modest increase in oak; but starting at ca. 5.2 ka, coastal redwood (Sequoia sempervirens) and alder begin a steady rise, arguing for increasing effective moisture and the development of the north coast temperate rain forest.”’ has been replaced by NULL
Alnus (LPDac11991f): paleoData_proxyDetail: ‘single species’ has been replaced by ‘“Increasingly warm and dry continental conditions are suggested for the early part of the middle Holocene by a steady decline in alder pollen and modest increase in oak; but starting at ca. 5.2 ka, coastal redwood (Sequoia sempervirens) and alder begin a steady rise, arguing for increasing effective moisture and the development of the north coast temperate rain forest.”’
upwelling (LPDc8d8f169): paleoData_notes: ‘CaCO3MAR’ has been replaced by NULL
upwelling (LPDc8d8f169): paleoData_proxyDetail: ‘bulk sediment’ has been replaced by ‘CaCO3MAR’
Sequoia (LPDe7442731): paleoData_notes: ‘Coastal fog and effective moisture “Increasingly warm and dry continental conditions are suggested for the early part of the middle Holocene by a steady decline in alder pollen and modest increase in oak; but starting at ca. 5.2 ka, coastal redwood (Sequoia sempervirens) and alder begin a steady rise, arguing for increasing effective moisture and the development of the north coast temperate rain forest.”’ has been replaced by NULL
Sequoia (LPDe7442731): paleoData_proxyDetail: ‘single species’ has been replaced by ‘Coastal fog and effective moisture “Increasingly warm and dry continental conditions are suggested for the early part of the middle Holocene by a steady decline in alder pollen and modest increase in oak; but starting at ca. 5.2 ka, coastal redwood (Sequoia sempervirens) and alder begin a steady rise, arguing for increasing effective moisture and the development of the north coast temperate rain forest.”’
ODP1019.Lopez.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:31 UTC
changes:
Paleo Column metadata:
temperature (WEB2f4b42df): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
Paleo Interpretation metadata:
productivity (WEBe637f7eb): interpretation1_scope: NULL has been replaced by ‘climate’
OregonCaves.Ersek.2012
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:32 UTC
changes:
Paleo Column metadata:
d13C (GHb0707701): paleoData_notes: ‘“An increase in precipitation may cause lower speleothem d13C directly through its effects on cave hydrology and indirectly through its influence on surface biomass”’ has been replaced by NULL
d13C (GHb0707701): paleoData_proxyDetail: ‘calcite’ has been replaced by ‘“An increase in precipitation may cause lower speleothem d13C directly through its effects on cave hydrology and indirectly through its influence on surface biomass”’
d18O (GHe7662255): paleoData_notes: ‘“hydrologic system at OCNM responds rapidly to these seasonal changes in precipitation. Observations at the cave show that after summer desiccation, dripwater is initiated within a month of the onset of the winter rainy season, and ends in the early summer after runoff of snowmelt.” (Ersek et al., 2012)’ has been replaced by NULL
d18O (GHe7662255): paleoData_proxyDetail: ‘calcite’ has been replaced by ‘“hydrologic system at OCNM responds rapidly to these seasonal changes in precipitation. Observations at the cave show that after summer desiccation, dripwater is initiated within a month of the onset of the winter rainy season, and ends in the early summer after runoff of snowmelt.” (Ersek et al., 2012)’
OroLake.Michels.2007
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:32 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “MICHELS, ASTRID”), list(name = “LAIRD, KATHLEEN R.”), list(name = “WILSON, SUSAN E.”), list(name = “THOMSON, DAVID”), list(name = “LEAVITT, PETER R.”), list(name = “OGLESBY, ROBERT J.”), list(name = “CUMMING, BRIAN F.”))’ has been replaced by ‘MICHELS, ASTRID’
Paleo Column metadata:
logSalinity (GH0c323a35): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
d13C (GHc872eada): interpretation1_scope: NULL has been replaced by ‘climate’
TOC (GHfd14c67f): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
d18O (GHff49b8d3): paleoData_notes: ‘P/E lake’ has been replaced by NULL
d18O (GHff49b8d3): paleoData_proxyDetail: ‘calcite in bulk sediment’ has been replaced by ‘P/E lake’
P1B3.deVernal.2005
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:32 UTC
changes:
Paleo Column metadata:
Sea_Ice_conc (PYT10OCNY5I): paleoData_proxy: NULL has been replaced by ‘dinocyst’
Sea_Ice_conc (PYT10OCNY5I): paleoData_proxyDetail: NULL has been replaced by ‘MAT’
Sea_Ice_conc (PYT10OCNY5I): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
Sea_Ice_conc (PYT10OCNY5I): paleoData_proxyLumps: NULL has been replaced by ‘other microfossil’
Sea_Ice_conc (PYT10OCNY5I): paleoData_proxyLumpsOriginal: NULL has been replaced by ‘dinocyst’
Sea_Ice_conc (PYT10OCNY5I): paleoData_QCCertification: NULL has been replaced by ‘SHA’
Sea_Ice_conc (PYT10OCNY5I): paleoData_QCnotes: NULL has been replaced by ‘Added proxyGeneral’
temperature (PYT40VBXBG5): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
Sea_Ice_months (PYTQHN7NGKA): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperatureComposite (PYTTTRD8PMK): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
salinity (PYTX9QI4K5F): paleoData_proxy: NULL has been replaced by ‘dinocyst’
salinity (PYTX9QI4K5F): paleoData_proxyDetail: NULL has been replaced by ‘MAT’
salinity (PYTX9QI4K5F): paleoData_proxyGeneral: NULL has been replaced by ‘other microfossil’
salinity (PYTX9QI4K5F): paleoData_proxyLumps: NULL has been replaced by ‘other microfossil’
salinity (PYTX9QI4K5F): paleoData_proxyLumpsOriginal: NULL has been replaced by ‘dinocyst’
salinity (PYTX9QI4K5F): paleoData_QCCertification: NULL has been replaced by ‘SHA’
salinity (PYTX9QI4K5F): paleoData_QCnotes: NULL has been replaced by ‘Added proxyGeneral’
Paleo Interpretation metadata:
P1 (PYT9Z862WZU): interpretation1_scope: NULL has been replaced by ‘climate’
productivity (PYTD0VJK2I9): interpretation1_scope: NULL has been replaced by ‘climate’
ParadiseLake.Steinman.2016
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:33 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Steinman, Byron A.”), list(name = “Pompeani, David P.”), list(name = “Abbott, Mark B.”), list(name = “Ortiz, Joseph D.”), list(name = “Stansell, Nathan D.”), list(name = “Finkenbinder, Matthew S.”), list(name = “Mihindukulasooriya, Lorita N.”), list(name = “Hillman, Aubrey L.”))’ has been replaced by ‘Steinman, Byron A.’
Paleo Column metadata:
d18O (LPD179d915e): paleoData_notes: ‘P/E lake’ has been replaced by NULL
d18O (LPD179d915e): paleoData_proxyDetail: ‘calcite in bulk sediment’ has been replaced by ‘P/E lake’
d13C (LPDb99b434c): paleoData_notes: ‘lake level’ has been replaced by NULL
d13C (LPDb99b434c): paleoData_proxyDetail: ‘organic carbon in bulk sediment’ has been replaced by ‘lake level’
ParkPond1.Lynch.1998
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:33 UTC
changes:
Paleo Column metadata:
temperature (M2L63wmizbwP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2L8gmvex23P): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
precipitation (M2Ld1pgjspxP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Lubfra1b3P): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
PinkPanther.Asmerom.2007
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:33 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Asmerom, Yemane”), list(name = “Polyak, Victor”), list(name = “Burns, Stephen”), list(name = “Rassmussen, Jessica”))’ has been replaced by ‘Asmerom, Yemane’
Paleo Column metadata:
d18O (GHb921673d): paleoData_notes: ‘((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene /// ((( ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene”’ has been replaced by ‘((( ((( ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) null /// ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene /// ((( ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) Amount effect “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// ((( “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” ))) “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene” /// “δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene”’
d18O (GHb921673d): paleoData_proxyDetail: ‘calcite’ has been replaced by ‘“δ18O variations correspond to variations in amount of precipitation. Overall, early Holocene, for which δ18O values are highest, was driest segment of Holocene”’
Pixie.Brown.2002
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:34 UTC
changes:
Paleo Column metadata:
temperature (M2L2g5c3hl4P): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
temperature (M2Leha3eu5bP): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
precipitation (M2Lomwars9dP): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
temperature (M2Lqezod5l2P): paleoData_proxyDetail: ‘assemblage’ has been replaced by NULL
calibrated (LPD275116bd): interpretation1_scope: NULL has been replaced by ‘climate’
TOTC (LPD39ad8da2): interpretation1_scope: NULL has been replaced by ‘climate’
d13C (LPD44e237a4): interpretation1_scope: NULL has been replaced by ‘climate’
compositeDepth (LPD4e4c542f): interpretation1_scope: NULL has been replaced by ‘climate’
TIC (LPD6627a9fb): interpretation1_scope: NULL has been replaced by ‘climate’
TOC (LPD6a73b6e9): interpretation1_scope: NULL has been replaced by ‘climate’
core (LPDb722b04f): interpretation1_scope: NULL has been replaced by ‘climate’
Quartz.Wooller.2012
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:35 UTC
changes:
Paleo Interpretation metadata:
error (PYT024T3TGP): interpretation1_scope: NULL has been replaced by ‘climate’
RainbowLake.Shuman.2016
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:35 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Shuman, Bryan N.”), list(name = " Marsicek, Jeremiah"))’ has been replaced by ‘Shuman, Bryan N.’
Paleo Interpretation metadata:
MinElevM (GH097cade2): interpretation1_scope: NULL has been replaced by ‘climate’
MaxElevM (GH64295f8b): interpretation1_scope: NULL has been replaced by ‘climate’
Ranger.Brubaker.1983
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:36 UTC
changes:
Paleo Column metadata:
temperature (PYT909ZJ7SN): paleoData_inCompilation: NULL has been replaced by ‘Temp12k’
precipitation (PYTCYF0YQTU): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
temperature (PYTW8HHSCX2): paleoData_inCompilation: NULL has been replaced by ‘Temp12k’
RantinLake.Pompeani.2012
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:37 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Pompeani, D. P.”), list(name = “Steinman, B. A.”), list(name = “Abbott, M. B.”))’ has been replaced by ‘Pompeani, D. P.’
Paleo Interpretation metadata:
TOC (WEB16c2ee2c): interpretation1_scope: NULL has been replaced by ‘climate’
bottomDepth (WEB4f39ea90): interpretation1_scope: NULL has been replaced by ‘climate’
DBD (WEB8064e9b1): interpretation1_scope: NULL has been replaced by ‘climate’
topDepth (WEBf961f0f9): interpretation1_scope: NULL has been replaced by ‘climate’
DWHI (WEB4b2314d4): interpretation1_scope: NULL has been replaced by ‘climate’
SanJuanRiverDischarge.Brown.2015
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:38 UTC
changes:
Paleo Column metadata:
JUL (WEB19830653): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
MAR (WEB218898e5): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
DEC (WEB29838933): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Jan (WEB2e0851cd): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
OCT (WEB3990f6f9): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
NOV (WEB5c38be79): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
SEP (WEB897fcde6): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
MAY (WEB9e64da1f): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Feb (WEBad833140): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
AUG (WEBc8115edd): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
APR (WEBead47512): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
JUN (WEBfd11dca7): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
SilverLake.Kirby.2015
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:39 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Kirby, Matthew E.”), list(name = “Knell, Edward J.”), list(name = “Anderson, William T.”), list(name = “Lachniet, Matthew S.”), list(name = “Palermo, Jennifer”), list(name = “Eeg, Holly”), list(name = “Lucero, Ricardo”), list(name = “Murrieta, Rosa”), list(name = “Arevalo, Andrea”), list(name = “Silveira, Emily”), list(name = “Hiner, Christine A.”))’ has been replaced by ‘Kirby, Matthew E.’
Paleo Interpretation metadata:
silt (WEB15faf22f): interpretation1_scope: NULL has been replaced by ‘climate’
SouthernCalifornia.Ohlwein.2012
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:39 UTC
changes:
Paleo Interpretation metadata:
p-SD (LPD387da3e10): interpretation1_scope: NULL has been replaced by ‘climate’
p+SD (LPD387da3e11): interpretation1_scope: NULL has been replaced by ‘climate’
CoreSite (LPD387da3e12): interpretation1_scope: NULL has been replaced by ‘climate’
T-SD (LPD387da3e9): interpretation1_scope: NULL has been replaced by ‘climate’
core (LPD981a64bd): interpretation1_scope: NULL has been replaced by ‘climate’
T-SD (LPD9e9f437d): interpretation1_scope: NULL has been replaced by ‘climate’
T+SD (LPDa6507caf): interpretation1_scope: NULL has been replaced by ‘climate’
T+SD (LPDbf7cf9491): interpretation1_scope: NULL has been replaced by ‘climate’
P-SD (LPDbf7cf951c): interpretation1_scope: NULL has been replaced by ‘climate’
P+SD (LPDbf7cf952c): interpretation1_scope: NULL has been replaced by ‘climate’
T-SD (LPDd88d222a): interpretation1_scope: NULL has been replaced by ‘climate’
T+SD (LPDf970effe): interpretation1_scope: NULL has been replaced by ‘climate’
p-SD (LPDf970effe2): interpretation1_scope: NULL has been replaced by ‘climate’
p+SD (LPDf970effe3): interpretation1_scope: NULL has been replaced by ‘climate’
CoreSite (LPDf970effe4): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
Panom (LPD387da3e90): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Tanom (LPD537be86c): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Tanom (LPDb59e4b87): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Panom (LPDf970effe1): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
Station803.Bringue.2012
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:40 UTC
changes:
Paleo Interpretation metadata:
IMON1953_i (WEB03f35735): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV_i (WEB06675ffd): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV (WEB07ec7d58): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV_s (WEB0cb86668): interpretation1_scope: NULL has been replaced by ‘climate’
TETE/3 (WEB0e8c4176): interpretation1_scope: NULL has been replaced by ‘climate’
THIV/3 (WEB118d2170): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV_i (WEB11eee4ca): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG (WEB18d3e2dc): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953_s (WEB1fa55bc1): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV (WEB219bb723): interpretation1_scope: NULL has been replaced by ‘climate’
TETE/3 (WEB29bdb01b): interpretation1_scope: NULL has been replaced by ‘climate’
TETE_i (WEB2e5e2e3b): interpretation1_scope: NULL has been replaced by ‘climate’
SETE_i (WEB2e782f9f): interpretation1_scope: NULL has been replaced by ‘climate’
TETE/3 (WEB3351f7c4): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG/3 (WEB3912b99a): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953 (WEB397a390f): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV (WEB40593100): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953 (WEB4cfaa231): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV_s (WEB530c34d4): interpretation1_scope: NULL has been replaced by ‘climate’
depth-range (WEB53e68761): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV/3 (WEB53f348f1): interpretation1_scope: NULL has been replaced by ‘climate’
THIV_i (WEB5489a6ec): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV/3 (WEB55a8955e): interpretation1_scope: NULL has been replaced by ‘climate’
THIV (WEB5972b76c): interpretation1_scope: NULL has been replaced by ‘climate’
THIV_s (WEB605a3f9e): interpretation1_scope: NULL has been replaced by ‘climate’
TETE (WEB6179b3f9): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG/3 (WEB6259e3cf): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV_i (WEB630281bf): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV (WEB668c53ad): interpretation1_scope: NULL has been replaced by ‘climate’
THIV (WEB677f5039): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG/3 (WEB67f1ec10): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG_s (WEB6b06825b): interpretation1_scope: NULL has been replaced by ‘climate’
depth-range (WEB6cb0885b): interpretation1_scope: NULL has been replaced by ‘climate’
SETE_i (WEB6d36256c): interpretation1_scope: NULL has been replaced by ‘climate’
TETE_s (WEB6e01a776): interpretation1_scope: NULL has been replaced by ‘climate’
SETE/3 (WEB6e0c6b5d): interpretation1_scope: NULL has been replaced by ‘climate’
TETE (WEB72c68913): interpretation1_scope: NULL has been replaced by ‘climate’
SETE_s (WEB733a1585): interpretation1_scope: NULL has been replaced by ‘climate’
THIV/3 (WEB79168f92): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV_i (WEB7981e0bb): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG (WEB7a58a27d): interpretation1_scope: NULL has been replaced by ‘climate’
SETE_i (WEB81987935): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV_i (WEB8a9c366c): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV_s (WEB8b54567d): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953_i (WEB8d658c89): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV_s (WEB93255a9c): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV_i (WEB93876c18): interpretation1_scope: NULL has been replaced by ‘climate’
SETE (WEB946f8057): interpretation1_scope: NULL has been replaced by ‘climate’
THIV_s (WEB979f32af): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV_s (WEB9b9fe4ce): interpretation1_scope: NULL has been replaced by ‘climate’
TETE_i (WEB9bf1ebb7): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953_i (WEBa187f463): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV_s (WEBa216e079): interpretation1_scope: NULL has been replaced by ‘climate’
depth-range (WEBa5ca5bf6): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953/3 (WEBa7652ecd): interpretation1_scope: NULL has been replaced by ‘climate’
SETE/3 (WEBb06c31dd): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV (WEBb0f9a263): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV (WEBb19d797a): interpretation1_scope: NULL has been replaced by ‘climate’
TETE_s (WEBb24c1947): interpretation1_scope: NULL has been replaced by ‘climate’
THIV (WEBb2b90adc): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV (WEBb45782c6): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953/3 (WEBb59bbe54): interpretation1_scope: NULL has been replaced by ‘climate’
SETE_s (WEBbc0c6c65): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG_i (WEBbedc283c): interpretation1_scope: NULL has been replaced by ‘climate’
THIV_i (WEBbffe27a8): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV_s (WEBc032af98): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG_s (WEBc6ba74c8): interpretation1_scope: NULL has been replaced by ‘climate’
SETE_s (WEBc87e721e): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV_s (WEBc9b2e67d): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV/3 (WEBcf3dfd5f): interpretation1_scope: NULL has been replaced by ‘climate’
THIV_i (WEBd15eeee2): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV_i (WEBd60b353b): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953/3 (WEBd8acfbdb): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV_s (WEBdc9424f3): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV/3 (WEBdfe80620): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953_s (WEBe0dc24f9): interpretation1_scope: NULL has been replaced by ‘climate’
SETE (WEBe192e50f): interpretation1_scope: NULL has been replaced by ‘climate’
IMON1953_s (WEBe2ea913c): interpretation1_scope: NULL has been replaced by ‘climate’
SETE/3 (WEBe2fd65d8): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV/3 (WEBe5d7fe4b): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG_i (WEBe639c566): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV/3 (WEBe7c3d5a0): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV (WEBe8525a2b): interpretation1_scope: NULL has been replaced by ‘climate’
TFEV_i (WEBe86c3850): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV/3 (WEBe95c56a7): interpretation1_scope: NULL has been replaced by ‘climate’
THIV/3 (WEBeb176066): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV_i (WEBedc87e21): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG_i (WEBef149c50): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG_s (WEBf013315a): interpretation1_scope: NULL has been replaced by ‘climate’
THIV_s (WEBf34cf890): interpretation1_scope: NULL has been replaced by ‘climate’
SFEV (WEBf35ccd49): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV/3 (WEBf735a0d6): interpretation1_scope: NULL has been replaced by ‘climate’
TETE_s (WEBf924906e): interpretation1_scope: NULL has been replaced by ‘climate’
SHIV/3 (WEBf956da65): interpretation1_scope: NULL has been replaced by ‘climate’
TETE (WEBfc497fa0): interpretation1_scope: NULL has been replaced by ‘climate’
SAUG (WEBfcbba369): interpretation1_scope: NULL has been replaced by ‘climate’
SETE (WEBfd4751af): interpretation1_scope: NULL has been replaced by ‘climate’
TETE_i (WEBfd4ee3a0): interpretation1_scope: NULL has been replaced by ‘climate’
StellaLake.Reinemann.2009
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:40 UTC
changes:
Paleo Column metadata:
uncertainty (R7Q32zxCPG7): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
uncertainty (Re7LISgWczt): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
OriginalSampleID (RkpzD1QCyMT): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
reliable (Rw5OLw4VVkv): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
Paleo Interpretation metadata:
uncertainty (R7Q32zxCPG7): interpretation1_scope: NULL has been replaced by ‘climate’
uncertainty (Re7LISgWczt): interpretation1_scope: NULL has been replaced by ‘climate’
OriginalSampleID (RkpzD1QCyMT): interpretation1_scope: NULL has been replaced by ‘climate’
reliable (Rw5OLw4VVkv): interpretation1_scope: NULL has been replaced by ‘climate’
StewartBog.Jimenez-Moreno.2008
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:40 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Jiménez-Moreno, Gonzalo”), list(name = “Fawcett, Peter J.”), list(name = “Scott Anderson, R.”))’ has been replaced by ‘Jimenez-Moreno, Gonzalo’
Paleo Interpretation metadata:
Picea (WEB375cf99e): interpretation1_scope: NULL has been replaced by ‘climate’
PinusTotal (WEBa455184c): interpretation1_scope: NULL has been replaced by ‘climate’
Artemisia (WEBc8fcf184): interpretation1_scope: NULL has been replaced by ‘climate’
SwanLake.Schmieder.2011
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:41 UTC
changes:
Paleo Interpretation metadata:
CCA1 (LPD10b51e01): interpretation1_scope: NULL has been replaced by ‘climate’
depth.top (LPD2c0e65f5): interpretation1_scope: NULL has been replaced by ‘climate’
Z_score (LPD6493a31e): interpretation1_scope: NULL has been replaced by ‘climate’
Z_score (LPD6493a31e-dup): interpretation1_scope: NULL has been replaced by ‘climate’
mineral_flux (LPDf41c0fcf): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
thickness (LPD1498ea89): paleoData_proxyGeneral: NULL has been replaced by ‘biophysical’
Takahula.Clegg.2010
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:41 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Clegg, Benjamin F.”), list(name = “Hu, Feng Sheng”))’ has been replaced by ‘Clegg, Benjamin F.’
Paleo Interpretation metadata:
thickness (GH8907ca8d): interpretation1_scope: NULL has been replaced by ‘climate’
depth.top (GHb49727f7): interpretation1_scope: NULL has been replaced by ‘climate’
TiagoLake.Jimenez-Moreno.2011
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:41 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Jimenez-Moreno, G.”), list(name = “Anderson, R. S.”), list(name = “Atudorei, V.”), list(name = “Toney, J. L.”))’ has been replaced by ‘Jimenez-Moreno, G.’
Paleo Interpretation metadata:
Artemisia (WEB6aae7b6e): interpretation1_scope: NULL has been replaced by ‘climate’
Picea (WEB95b7b7e0): interpretation1_scope: NULL has been replaced by ‘climate’
PinusTotal (WEBd5b207c7): interpretation1_scope: NULL has been replaced by ‘climate’
TN062-0550.Barron.2018
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:42 UTC
changes:
PaleoData table:
Column ‘WEB2c0a5cfc’, with variable name ‘ageMin’, was added to the dataset
Column ‘WEB4b288cbe’, with variable name ‘N/C’, was added to the dataset
Column ‘WEB59339a97’, with variable name ‘BSi_regime’, was added to the dataset
Column ‘WEB5a310398’, with variable name ‘upwelling’, was added to the dataset
Column ‘WEB6b0bf0a3’, with variable name ‘TOC’, was added to the dataset
Column ‘WEB93c7111b’, with variable name ‘ageMax’, was added to the dataset
Column ‘WEBa2774a3c’, with variable name ‘age’, was added to the dataset
Column ‘WEBb8028d35’, with variable name ‘upwelling’, was added to the dataset
Column ‘WEBc7455778’, with variable name ‘TN’, was added to the dataset
Column ‘WEBe2c3dd18’, with variable name ‘depth’, was added to the dataset
Column ‘WEBe48f6bdd’, with variable name ‘upwelling’, was added to the dataset
Publication metadata:
pub1_title: ’High-resolution climate of the past _7300 years of coastal northernmost California: Results from diatoms, silicoflagellates, and pollen’ has been replaced by ‘High-resolution climate of the past 7300 years of coastal northernmost California: Results from diatoms, silicoflagellates, and pollen’
pub2_pubDataUrl: ‘Manually Entered’ has been replaced by NULL
pub2_author: NULL has been replaced by ‘Addison, Jason A.; Barron, John A.; Finney, Bruce; Kusler, Jennifer; Bukry, David; Heusser, Linda; Alexander, Clark R.’
pub2_doi: NULL has been replaced by ‘10.1016/j.quaint.2017.02.021’
pub2_journal: NULL has been replaced by ‘Quaternary International’
pub2_pages: NULL has been replaced by ‘96-108’
pub2_title: NULL has been replaced by ‘A Holocene record of ocean productivity and upwelling from the northern California continental slope’
pub2_type: NULL has been replaced by ‘Journal’
pub2_volume: NULL has been replaced by ‘469’
pub2_year: NULL has been replaced by ‘2018’
Paleo Interpretation metadata:
Fragilariopsis (WEB05d286cd): interpretation1_scope: NULL has been replaced by ‘climate’
Calibrated (WEB173a177b): interpretation1_scope: NULL has been replaced by ‘climate’
Calibrated (WEB1edd6bbb): interpretation1_scope: NULL has been replaced by ‘climate’
Calibrated (WEB5f263302): interpretation1_scope: NULL has been replaced by ‘climate’
depthRange (WEB7439db68): interpretation1_scope: NULL has been replaced by ‘climate’
Sequoia (WEBa93dede4): interpretation1_variable: ‘P-E’ has been replaced by ‘upwelling’
Sequoia (WEBa93dede4): interpretation1_variableGroup: ‘P-E’ has been replaced by ‘upwelling’
depthRange (WEBafc93b60): interpretation1_scope: NULL has been replaced by ‘climate’
depthRange (WEBe8c80314): interpretation1_scope: NULL has been replaced by ‘climate’
Paleo Column metadata:
Calibrated (WEB173a177b): paleoData_units: NULL has been replaced by ‘unitless’
Calibrated (WEB1edd6bbb): paleoData_units: NULL has been replaced by ‘unitless’
Dc_stapedia_aspinosa (WEB5e293c85): paleoData_proxyGeneral: NULL has been replaced by ‘diatom’
Calibrated (WEB5f263302): paleoData_units: NULL has been replaced by ‘unitless’
PaleoData values:
depthRange (WEB7439db68): The paleoData_values have changed
UpperBigCreek.Shuman.2015
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:42 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Shuman, Bryan N.”), list(name = “Pribyl, Paul”), list(name = “Buettner, Jacob”))’ has been replaced by ‘Shuman, Bryan N.’
UpperFly.Bunbury.2009
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:42 UTC
changes:
Paleo Column metadata:
temperature (PYTP4VYPRWB): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
temperature (PYTRXOT29B2): paleoData_proxyGeneral: NULL has been replaced by ‘pollen’
UpperPintoFen.Yu.2003
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:43 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Yu, Zicheng”), list(name = “Campbell, Ian D.”), list(name = “Campbell, Celina”), list(name = “Vitt, Dale H.”), list(name = “Bond, Gerard C.”), list(name = “Apps, Michael J.”))’ has been replaced by ‘Yu, Zicheng’
Paleo Interpretation metadata:
accumulation (LPD74e07aef): interpretation1_scope: NULL has been replaced by ‘climate’
W8709-13PC.Lopez.2018
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:43 UTC
changes:
Paleo Interpretation metadata:
productivity (WEB06df80f5): interpretation1_scope: NULL has been replaced by ‘climate’
PaleoData values:
productivity (WEB06df80f5): The paleoData_values have changed
temperature (WEB5be0ab9d): The paleoData_values have changed
WA01.Rainville.2013
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:43 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Rainville, Rebecca A.”), list(name = “Gajewski, Konrad”))’ has been replaced by ‘Rainville, Rebecca A.’
Paleo Interpretation metadata:
AVG_MS_DRS1_2A_3_2B_4 (WEB2cbd975f): interpretation1_scope: NULL has been replaced by ‘climate’
Avg_MS (WEB3fcd17d5): interpretation1_scope: NULL has been replaced by ‘climate’
calibrated (WEB65571594): interpretation1_scope: NULL has been replaced by ‘climate’
carbonate (WEB97cf5f6e): interpretation1_scope: NULL has been replaced by ‘climate’
Windy.Chase.2008
Version: 1.0.2
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:44 UTC
changes:
Paleo Column metadata:
Mean consensus (WEB0ce93809): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
PLS-1 (WEB2425c7ef): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
WAPLS-2 (WEB52052644): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
WACLS_total (WEBaa348d4a): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
PLS-2 (WEBb39c40ea): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
WACLS (WEBc324e591): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
WAINV (WEBc3602d14): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
WAINV_total (WEBc6b2f588): paleoData_proxyGeneral: NULL has been replaced by ‘chironomid’
Paleo Interpretation metadata:
Mean consensus (WEB0ce93809): interpretation1_scope: NULL has been replaced by ‘climate’
sampleID (WEB1ec219dc): interpretation1_scope: NULL has been replaced by ‘climate’
PLS-1 (WEB2425c7ef): interpretation1_scope: NULL has been replaced by ‘climate’
WAPLS-2 (WEB52052644): interpretation1_scope: NULL has been replaced by ‘climate’
WACLS_total (WEBaa348d4a): interpretation1_scope: NULL has been replaced by ‘climate’
PLS-2 (WEBb39c40ea): interpretation1_scope: NULL has been replaced by ‘climate’
WACLS (WEBc324e591): interpretation1_scope: NULL has been replaced by ‘climate’
WAINV (WEBc3602d14): interpretation1_scope: NULL has been replaced by ‘climate’
WAINV_total (WEBc6b2f588): interpretation1_scope: NULL has been replaced by ‘climate’
Wolverine.Mann.2002
Version: 1.0.1
lastVersion: 0.0.0
curator: nick
timestamp: 2021-01-15 19:33:44 UTC
changes:
Publication metadata:
pub1_author: ‘list(list(name = “Mann, D.H”), list(name = “Heiser, P.A”), list(name = “Finney, B.P”))’ has been replaced by ‘Mann, D.H’