Version history for CVhmP9EcHy3Bt2ao7RwX -
BJ80370GGC.Tierney.2012
Version: 1.0.13
- lastVersion: 1.0.12
- curator: nicholas
- timestamp: 2023-08-10 22:43:18 UTC
- changes:
Version: 1.0.12
- lastVersion: 1.0.11
- curator: nicholas
- timestamp: 2023-07-05 00:34:10 UTC
- changes:
- Base metadata:
- Publication metadata:
- pub1_doi: ‘10..1029/2012JD018060’ has been replaced by
‘10.1029/2012JD018060’
Version: 1.0.11
- lastVersion: 1.0.10
- curator: nicholas
- timestamp: 2023-05-31 20:37:55 UTC
- changes:
- Paleo Column metadata:
- d2H (WEB8c80a27c): paleoData_notes: ‘((( ((( “mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15���8 ka trend in the
Sulawesi dDwax data in particular likely reflects a shift from a drier
deglacial period to wetter conditions during the Holocene” (Tierney et
al., 2012); paleoData_variableName updated; paleoData_method has been
standardized; paleoData_proxy updated; paleoData_measurementMaterial has
been standardized ))) “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized /// “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized ))) “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized /// “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized’ has been replaced by ‘“mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15-8 ka trend in the Sulawesi
dDwax data in particular likely reflects a shift from a drier deglacial
period to wetter conditions during the Holocene” (Tierney et al., 2012);
paleoData_method has been standardized; paleoData_measurementMaterial
has been standardized’
Version: 1.0.10
- lastVersion: 1.0.9
- curator: nicholas
- timestamp: 2023-05-30 15:48:05 UTC
- changes:
- Paleo Column metadata:
- d2H (WEB8c80a27c): paleoData_notes: ‘“mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15–8 ka trend in the Sulawesi
dDwax data in particular likely reflects a shift from a drier deglacial
period to wetter conditions during the Holocene” (Tierney et al., 2012);
paleoData_method has been standardized; paleoData_measurementMaterial
has been standardized’ has been replaced by ‘((( ((( “mean annual
changes in precipitation amount and precipitation isotopes over Sulawesi
during the Holocene (excluding 9K due to the simulated impact of ice
volume) are strongly correlated (r = 0.94). Thus, the 15���8 ka trend in
the Sulawesi dDwax data in particular likely reflects a shift from a
drier deglacial period to wetter conditions during the Holocene”
(Tierney et al., 2012); paleoData_variableName updated; paleoData_method
has been standardized; paleoData_proxy updated;
paleoData_measurementMaterial has been standardized ))) “mean annual
changes in precipitation amount and precipitation isotopes over Sulawesi
during the Holocene (excluding 9K due to the simulated impact of ice
volume) are strongly correlated (r = 0.94). Thus, the 15–8 ka trend in
the Sulawesi dDwax data in particular likely reflects a shift from a
drier deglacial period to wetter conditions during the Holocene”
(Tierney et al., 2012); paleoData_method has been standardized;
paleoData_measurementMaterial has been standardized /// “mean annual
changes in precipitation amount and precipitation isotopes over Sulawesi
during the Holocene (excluding 9K due to the simulated impact of ice
volume) are strongly correlated (r = 0.94). Thus, the 15–8 ka trend in
the Sulawesi dDwax data in particular likely reflects a shift from a
drier deglacial period to wetter conditions during the Holocene”
(Tierney et al., 2012); paleoData_method has been standardized;
paleoData_measurementMaterial has been standardized ))) “mean annual
changes in precipitation amount and precipitation isotopes over Sulawesi
during the Holocene (excluding 9K due to the simulated impact of ice
volume) are strongly correlated (r = 0.94). Thus, the 15–8 ka trend in
the Sulawesi dDwax data in particular likely reflects a shift from a
drier deglacial period to wetter conditions during the Holocene”
(Tierney et al., 2012); paleoData_method has been standardized;
paleoData_measurementMaterial has been standardized /// “mean annual
changes in precipitation amount and precipitation isotopes over Sulawesi
during the Holocene (excluding 9K due to the simulated impact of ice
volume) are strongly correlated (r = 0.94). Thus, the 15–8 ka trend in
the Sulawesi dDwax data in particular likely reflects a shift from a
drier deglacial period to wetter conditions during the Holocene”
(Tierney et al., 2012); paleoData_method has been standardized;
paleoData_measurementMaterial has been standardized’
- d2H (WEB8c80a27c): paleoData_QCCertification: ‘CH’ has been replaced
by ‘CH, CR’
- d2H (WEB8c80a27c): paleoData_QCnotes: NULL has been replaced by ‘CR:
13 age radiocarbon ages, 11 Holocene’
Version: 1.0.9
- lastVersion: 1.0.8
- curator: nicholas
- timestamp: 2023-05-25 17:39:17 UTC
- notes: Updated lipdverse database entry with a changed
file.
- changes:
- Geographic metadata:
- geo_elevation: NULL has been replaced by ‘-482’
Version: 1.0.8
- lastVersion: 1.0.7
- curator: nicholas
- timestamp: 2023-05-12 21:49:53 UTC
- changes:
- Paleo Column metadata:
- d2H (WEB8c80a27c): paleoData_notes: ‘((( “mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15���8 ka trend in the
Sulawesi dDwax data in particular likely reflects a shift from a drier
deglacial period to wetter conditions during the Holocene” (Tierney et
al., 2012); paleoData_variableName updated; paleoData_method has been
standardized; paleoData_proxy updated; paleoData_measurementMaterial has
been standardized ))) “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized /// “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized’ has been replaced by ‘“mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15–8 ka trend in the Sulawesi
dDwax data in particular likely reflects a shift from a drier deglacial
period to wetter conditions during the Holocene” (Tierney et al., 2012);
paleoData_method has been standardized; paleoData_measurementMaterial
has been standardized’
Version: 1.0.7
- lastVersion: 1.0.6
- curator: nicholas
- timestamp: 2023-03-24 22:23:44 UTC
- changes:
- Paleo Column metadata:
- d2H (WEB8c80a27c): paleoData_proxyGeneral: ‘isotope’ has been
replaced by ‘isotopic’
Version: 1.0.6
- lastVersion: 1.0.5
- curator: nicholas
- timestamp: 2023-02-13 23:38:08 UTC
- changes:
- Paleo Column metadata:
- d2H (WEB8c80a27c): paleoData_notes: ‘“mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15–8 ka trend in the Sulawesi
dDwax data in particular likely reflects a shift from a drier deglacial
period to wetter conditions during the Holocene” (Tierney et al., 2012);
paleoData_method has been standardized; paleoData_measurementMaterial
has been standardized’ has been replaced by ‘((( “mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15���8 ka trend in the
Sulawesi dDwax data in particular likely reflects a shift from a drier
deglacial period to wetter conditions during the Holocene” (Tierney et
al., 2012); paleoData_variableName updated; paleoData_method has been
standardized; paleoData_proxy updated; paleoData_measurementMaterial has
been standardized ))) “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized /// “mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized’
Version: 1.0.5
- lastVersion: 1.0.4
- curator: nicholas
- timestamp: 2023-02-09 15:31:09 UTC
- notes: Updated lipdverse database entry with a changed
file.
- changes:
- Paleo Column metadata:
- depth (WEB11bd208e): paleoData_notes: NULL has been replaced by ‘NA;
paleoData_isPrimary has been standardized’
- depth (WEB11bd208e): paleoData_isPrimary: NULL has been replaced by
‘TRUE’
- d2H (WEB8c80a27c): paleoData_notes: ‘“mean annual changes in
precipitation amount and precipitation isotopes over Sulawesi during the
Holocene (excluding 9K due to the simulated impact of ice volume) are
strongly correlated (r = 0.94). Thus, the 15–8 ka trend in the Sulawesi
dDwax data in particular likely reflects a shift from a drier deglacial
period to wetter conditions during the Holocene” (Tierney et al., 2012)’
has been replaced by ‘“mean annual changes in precipitation amount and
precipitation isotopes over Sulawesi during the Holocene (excluding 9K
due to the simulated impact of ice volume) are strongly correlated (r =
0.94). Thus, the 15–8 ka trend in the Sulawesi dDwax data in particular
likely reflects a shift from a drier deglacial period to wetter
conditions during the Holocene” (Tierney et al., 2012); paleoData_method
has been standardized; paleoData_measurementMaterial has been
standardized’
- d2H (WEB8c80a27c): paleoData_proxy: ‘dDwax’ has been replaced by
‘dD’
- d2H (WEB8c80a27c): paleoData_variableName: ‘dDwax_corr’ has been
replaced by ‘d2H’
- d2H (WEB8c80a27c): paleoData_measurementMaterial: NULL has been
replaced by ‘leaf wax’
- d2H (WEB8c80a27c): paleoData_method: NULL has been replaced by
‘corrected’
- d2H (WEBaa38416a): paleoData_notes: NULL has been replaced by ‘NA;
paleoData_measurementMaterial has been standardized’
- d2H (WEBaa38416a): paleoData_variableName: ‘dDwax’ has been replaced
by ‘d2H’
- d2H (WEBaa38416a): paleoData_measurementMaterial: NULL has been
replaced by ‘leafwax’
- age (WEBad6352f1): paleoData_notes: NULL has been replaced by ‘NA;
paleoData_isPrimary has been standardized; paleoData_datum has been
standardized’
- age (WEBad6352f1): paleoData_units: ‘yrs bp’ has been replaced by
‘yr BP’
- age (WEBad6352f1): paleoData_datum: NULL has been replaced by
‘1950’
- age (WEBad6352f1): paleoData_isPrimary: NULL has been replaced by
‘TRUE’
- Paleo Interpretation metadata:
- d2H (WEB8c80a27c): interpretation1_seasonality:
‘1,2,3,4,5,6,7,8,9,10,11,12’ has been replaced by ‘Annual’
- d2H (WEB8c80a27c): interpretation1_variable: ‘P’ has been replaced
by ‘precipitation’
Version: 1.0.4
- lastVersion: 1.0.3
- curator: nicholas
- timestamp: 2022-07-28 17:27:59 UTC
- changes:
- Geographic metadata:
- geo_elevation: ‘-482’ has been replaced by NULL
Version: 1.0.3
- lastVersion: 1.0.2
- curator: nicholas
- timestamp: 2022-07-15 22:58:14 UTC
- changes:
- Publication metadata:
- pub1_author: ‘list(list(name = “Tierney, J. E.”), list(name = “Oppo,
D. W.”), list(name = “LeGrande, A. N.”), list(name = “Huang, Y.”),
list(name = “Rosenthal, Y.”), list(name = “Linsley, B. K.”))’ has been
replaced by ‘Tierney, J. E.’
- pub1_doi: ‘https://doi.org/10.1029/2012JD018060’ has been replaced
by ‘10..1029/2012JD018060’
Version: 1.0.2
- lastVersion: 1.0.1
- curator: nicholas
- timestamp: 2021-10-05 21:38:25 UTC
- changes:
- Geographic metadata:
- geo_gcmdLocation: NULL has been replaced by ‘Pacific
Ocean>Western Pacific Ocean>South China And Eastern Archipelagic
Seas’
Version: 1.0.1
- lastVersion: 1.0.0
- curator: nick
- timestamp: 2021-04-13 02:30:58 UTC
- changes:
- Publication metadata:
- pub1_author: ‘list(list(name = “Tierney, J. E.”), list(name = “Oppo,
D. W.”), list(name = “LeGrande, A. N.”), list(name = “Huang, Y.”),
list(name = “Rosenthal, Y.”), list(name = “Linsley, B. K.”))’ has been
replaced by ‘Tierney, J. E.’
- Paleo Column metadata:
- dDwax_corr (WEB8c80a27c): paleoData_proxy: ‘dD’ has been replaced by
‘dDwax’
- dDwax_corr (WEB8c80a27c): paleoData_proxyDetail: NULL has been
replaced by ‘C30 fatty acid’
- dDwax_corr (WEB8c80a27c): paleoData_proxyGeneral: NULL has been
replaced by ‘isotope’
- dDwax_corr (WEB8c80a27c): paleoData_QCCertification: NULL has been
replaced by ‘CH’
- Paleo Interpretation metadata:
- dDwax_corr (WEB8c80a27c): interpretation1_seasonality: ‘Annual’ has
been replaced by ‘1,2,3,4,5,6,7,8,9,10,11,12’
- dDwax_corr (WEB8c80a27c): interpretation1_seasonalityGeneral: NULL
has been replaced by ‘Annual’
- dDwax (WEBaa38416a): interpretation1_scope: NULL has been replaced
by ‘climate’
- Paleo Calibration metadata:
- dDwax_corr (WEB8c80a27c): calibration_method: NULL has been replaced
by ‘ice volume corrected’
Version: 1.0.0
- curator: nick
- timestamp: 2021-03-16 01:55:00 UTC
- notes: Added to lipdverse database.