Version history for 7C6gVIxTA4PuriWTLrDK - Voelvlei.Strobel.2021

Version: 1.0.13

• lastVersion: 1.0.12
• curator: nicholas
• timestamp: 2023-08-10 23:21:43 UTC
• changes:
  • Paleo Column metadata:
    • d2H (WEB55f6c675): paleoData_variableName: ‘((( n-Alkane ))) needsToBeChanged /// d2H’ has been replaced by ‘d2H’

Version: 1.0.12

• lastVersion: 1.0.11
• curator: nicholas
• timestamp: 2023-07-05 01:01:03 UTC
• changes:
  • Paleo Column metadata:
    • ((( n-Alkane ))) needsToBeChanged /// d2H (WEB55f6c675): paleoData_variableName: ‘d2H’ has been replaced by ‘((( n-Alkane ))) needsToBeChanged /// d2H’
  • Paleo Interpretation metadata:
    • d13C (WEB7ebd522d): interpretation1_variableDetail: ‘moisture@surface’ has been replaced by ‘@surface’

Version: 1.0.11

• lastVersion: 1.0.10
• curator: nicholas
• timestamp: 2023-05-31 20:40:35 UTC
• changes:
  • Paleo Column metadata:
    • d13C (WEB7ebd522d): paleoData_notes: ‘((( ((( “��13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567���1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_variableName updated; paleoData_units updated; paleoData_proxy updated; paleoData_measurementMaterial has been standardized ))) “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized /// “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized ))) “d13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized /// “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’ has been replaced by ‘“d13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’

Version: 1.0.10

• lastVersion: 1.0.9
• curator: nicholas
• timestamp: 2023-05-30 15:50:48 UTC
• changes:
  • Paleo Column metadata:
    • d13C (WEB7ebd522d): paleoData_notes: ‘“δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’ has been replaced by ‘((( ((( “��13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567���1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_variableName updated; paleoData_units updated; paleoData_proxy updated; paleoData_measurementMaterial has been standardized ))) “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized /// “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized ))) “d13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized /// “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’
    • d13C (WEB7ebd522d): paleoData_QCCertification: ‘CH’ has been replaced by ‘CH, CR’
    • d13C (WEB7ebd522d): paleoData_QCnotes: NULL has been replaced by ’*’

Version: 1.0.9

• lastVersion: 1.0.8
• curator: nicholas
• timestamp: 2023-05-12 22:13:59 UTC
• changes:
  • Paleo Column metadata:
    • d13C (WEB7ebd522d): paleoData_notes: ‘((( “��13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567���1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_variableName updated; paleoData_units updated; paleoData_proxy updated; paleoData_measurementMaterial has been standardized ))) “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized /// “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’ has been replaced by ‘“δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’

Version: 1.0.8

• lastVersion: 1.0.7
• curator: nicholas
• timestamp: 2023-03-24 22:26:41 UTC
• changes:
  • Paleo Column metadata:
    • d2H (WEB55f6c675): paleoData_variableName: ‘needsToBeChanged’ has been replaced by ‘d2H’
    • d13C (WEB7ebd522d): paleoData_proxyGeneral: ‘isotope’ has been replaced by ‘isotopic’
  • Paleo Interpretation metadata:
    • d13C (WEB7ebd522d): interpretation1_variable: ‘P-E’ has been replaced by ‘effectivePrecipitation’

Version: 1.0.7

• lastVersion: 1.0.6
• curator: nicholas
• timestamp: 2023-02-13 23:59:13 UTC
• changes:
  • Paleo Column metadata:
    • d13C (WEB7ebd522d): paleoData_notes: ‘“δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’ has been replaced by ‘((( “��13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567���1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_variableName updated; paleoData_units updated; paleoData_proxy updated; paleoData_measurementMaterial has been standardized ))) “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized /// “δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’

Version: 1.0.6

• lastVersion: 1.0.5
• curator: nicholas
• timestamp: 2023-02-09 16:22:54 UTC
• notes: Updated lipdverse database entry with a changed file.
• changes:
  • Geographic metadata:
    • geo_elevation: NULL has been replaced by ‘5’
  • Paleo Column metadata:
    • age (WEB00b43cf0): paleoData_notes: NULL has been replaced by ‘NA; paleoData_isPrimary has been standardized; paleoData_datum has been standardized’
    • age (WEB00b43cf0): paleoData_units: ‘BP’ has been replaced by ‘yr BP’
    • age (WEB00b43cf0): paleoData_datum: NULL has been replaced by ‘1950’
    • age (WEB00b43cf0): paleoData_isPrimary: NULL has been replaced by ‘TRUE’
    • depth (WEB2e24ee39): paleoData_notes: NULL has been replaced by ‘NA; paleoData_isPrimary has been standardized’
    • depth (WEB2e24ee39): paleoData_isPrimary: NULL has been replaced by ‘TRUE’
    • needsToBeChanged (WEB44d15ef2): paleoData_variableName: ‘OEP’ has been replaced by ‘needsToBeChanged’
    • needsToBeChanged (WEB55f6c675): paleoData_notes: NULL has been replaced by ‘NA; paleoData_proxyGeneral has been standardized; paleoData_measurementMaterial has been standardized’
    • needsToBeChanged (WEB55f6c675): paleoData_proxy: ‘dDwax’ has been replaced by ‘dD’
    • needsToBeChanged (WEB55f6c675): paleoData_proxyGeneral: NULL has been replaced by ‘isotopic’
    • needsToBeChanged (WEB55f6c675): paleoData_units: ‘[ug/g]’ has been replaced by ‘ug/g’
    • needsToBeChanged (WEB55f6c675): paleoData_variableName: ‘n-Alkane’ has been replaced by ‘needsToBeChanged’
    • needsToBeChanged (WEB55f6c675): paleoData_measurementMaterial: NULL has been replaced by ‘leaf wax’
    • d13C (WEB7ebd522d): paleoData_notes: ‘“δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”’ has been replaced by ‘“δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”; paleoData_measurementMaterial has been standardized’
    • d13C (WEB7ebd522d): paleoData_proxy: ‘d13Cwax’ has been replaced by ‘d13C’
    • d13C (WEB7ebd522d): paleoData_units: ‘‰ PDB’ has been replaced by ‘permil’
    • d13C (WEB7ebd522d): paleoData_variableName: ‘δ13C n-alkanes’ has been replaced by ‘d13C’
    • d13C (WEB7ebd522d): paleoData_measurementMaterial: NULL has been replaced by ‘leaf wax’
    • depth (WEB9d9e749c): paleoData_notes: NULL has been replaced by ‘NA; paleoData_isPrimary has been standardized’
    • depth (WEB9d9e749c): paleoData_isPrimary: NULL has been replaced by ‘TRUE’
    • d13C (WEBd29b063c): paleoData_units: ‘[±]’ has been replaced by ‘needsToBeChanged’
    • d13C (WEBd29b063c): paleoData_variableName: ‘δ13C n-alkanes std dev’ has been replaced by ‘d13C’
    • age (WEBee6666fd): paleoData_notes: NULL has been replaced by ‘NA; paleoData_isPrimary has been standardized; paleoData_datum has been standardized’
    • age (WEBee6666fd): paleoData_units: ‘BP’ has been replaced by ‘yr BP’
    • age (WEBee6666fd): paleoData_datum: NULL has been replaced by ‘1950’
    • age (WEBee6666fd): paleoData_isPrimary: NULL has been replaced by ‘TRUE’
  • Paleo Interpretation metadata:
    • d13C (WEB7ebd522d): interpretation1_seasonality: ‘1,2,3,4,5,6,7,8,9,10,11,12’ has been replaced by ‘Annual’

Version: 1.0.5

• lastVersion: 1.0.4
• curator: nicholas
• timestamp: 2022-07-28 17:43:30 UTC
• changes:
  • Base metadata:
    • originalDataUrl: ‘https://doi.pangaea.de/10.1594/PANGAEA.935616’ has been replaced by ‘https://doi.org/10.1594/PANGAEA.935616’
  • Publication metadata:
    • pub1_doi: ‘10..5194/cp-17-1567-2021’ has been replaced by ‘10.5194/cp-17-1567-2021’
  • Geographic metadata:
    • geo_elevation: ‘5’ has been replaced by NULL

Version: 1.0.4

• lastVersion: 1.0.3
• curator: nicholas
• timestamp: 2022-07-15 23:12:17 UTC
• changes:
  • Publication metadata:
    • pub1_doi: ‘https://doi.org/10.5194/cp-17-1567-2021’ has been replaced by ‘10..5194/cp-17-1567-2021’
  • Geographic metadata:
    • geo_elevation: NULL has been replaced by ‘5’
  • Paleo Interpretation metadata:
    • OEP (WEB44d15ef2): interpretation1_scope: NULL has been replaced by ‘climate’
    • n-Alkane (WEB55f6c675): interpretation1_scope: NULL has been replaced by ‘climate’
    • δ13C n-alkanes std dev (WEBd29b063c): interpretation1_scope: NULL has been replaced by ‘climate’
    • ACL (WEBd57d7086): interpretation1_scope: NULL has been replaced by ‘climate’

Version: 1.0.3

• lastVersion: 1.0.2
• curator: nicholas
• timestamp: 2022-05-18 00:30:31 UTC
• changes:
  • Paleo Column metadata:
    • age (WEB00b43cf0): paleoData_units: ‘cal yr BP’ has been replaced by ‘BP’
    • age (WEB00b43cf0): paleoData_unitsOriginal: NULL has been replaced by ‘cal yr BP’
    • depth (WEB2e24ee39): paleoData_archiveType: ‘Lake Sediment’ has been replaced by ‘LakeSediment’
    • depth (WEB2e24ee39): paleoData_archiveTypeOriginal: NULL has been replaced by ‘Lake Sediment’
    • OEP (WEB44d15ef2): paleoData_archiveType: ‘Lake Sediment’ has been replaced by ‘LakeSediment’
    • OEP (WEB44d15ef2): paleoData_archiveTypeOriginal: NULL has been replaced by ‘Lake Sediment’
    • n-Alkane (WEB55f6c675): paleoData_archiveType: ‘Lake Sediment’ has been replaced by ‘LakeSediment’
    • n-Alkane (WEB55f6c675): paleoData_archiveTypeOriginal: NULL has been replaced by ‘Lake Sediment’
    • n-Alkane (WEB55f6c675): paleoData_proxyLumps: NULL has been replaced by ‘dDwax’
    • δ13C n-alkanes (WEB7ebd522d): paleoData_proxyLumps: NULL has been replaced by ‘d13Cwax’
    • ACL (WEBd57d7086): paleoData_archiveType: ‘Lake Sediment’ has been replaced by ‘LakeSediment’
    • ACL (WEBd57d7086): paleoData_archiveTypeOriginal: NULL has been replaced by ‘Lake Sediment’
    • age (WEBee6666fd): paleoData_archiveType: ‘Lake Sediment’ has been replaced by ‘LakeSediment’
    • age (WEBee6666fd): paleoData_units: ‘cal yr BP’ has been replaced by ‘BP’
    • age (WEBee6666fd): paleoData_archiveTypeOriginal: NULL has been replaced by ‘Lake Sediment’
    • age (WEBee6666fd): paleoData_unitsOriginal: NULL has been replaced by ‘cal yr BP’
  • Paleo Interpretation metadata:
    • OEP (WEB44d15ef2): interpretation1_scope: ‘climate’ has been replaced by NULL
    • n-Alkane (WEB55f6c675): interpretation1_scope: ‘climate’ has been replaced by NULL
    • δ13C n-alkanes (WEB7ebd522d): interpretation1_variableGroup: NULL has been replaced by ‘P-E’
    • δ13C n-alkanes std dev (WEBd29b063c): interpretation1_scope: ‘climate’ has been replaced by NULL
    • ACL (WEBd57d7086): interpretation1_scope: ‘climate’ has been replaced by NULL

Version: 1.0.2

• lastVersion: 1.0.1
• curator: nicholas
• timestamp: 2021-11-19 21:11:13 UTC
• changes:
  • Base metadata:
    • originalDataUrl: NULL has been replaced by ‘https://doi.pangaea.de/10.1594/PANGAEA.935616’
  • Geographic metadata:
    • geo_gcmdLocation: NULL has been replaced by ‘Africa>Southern Africa>South Africa’
  • Paleo Column metadata:
    • δ13C n-alkanes (WEB7ebd522d): paleoData_notes: NULL has been replaced by ‘“δ13Cn-alkaneis a suitable proxy to infer past changes inthe vegetation composition (e.g. Diefendorf and Freimuth,2017) as well as variations in plant water use efficiency andthus drought stress (Diefendorf and Freimuth, 2017; Strucket al., 2020). Therefore, using the climatic information fromboth leaf wax isotopes enables climate reconstructions basedClim. Past, 17, 1567–1586, 2021https://doi.org/10.5194/cp-17-1567-2021”’
    • δ13C n-alkanes (WEB7ebd522d): paleoData_proxyDetail: NULL has been replaced by ‘C31 n-alkane’
    • δ13C n-alkanes (WEB7ebd522d): paleoData_proxyGeneral: NULL has been replaced by ‘isotope’
    • δ13C n-alkanes (WEB7ebd522d): paleoData_QCCertification: NULL has been replaced by ‘CH’
  • Paleo Interpretation metadata:
    • δ13C n-alkanes (WEB7ebd522d): interpretation1_seasonalityGeneral: NULL has been replaced by ‘Annual’

Version: 1.0.1

• lastVersion: 1.0.0
• curator: nicholas
• timestamp: 2021-11-17 02:10:50 UTC
• changes:
  • Publication metadata:
    • pub1_author: ‘list(list(name = “Strobel, Paul”), list(name = “Bliedtner, Marcel”), list(name = “Carr, Andrew S.”), list(name = “Frenzel, Peter”), list(name = “Klaes, Björn”), list(name = “Salazar, Gary”), list(name = “Struck, Julian”), list(name = “Szidat, Sönke”), list(name = “Zech, Roland”), list(name = “Haberzettl, Torsten”))’ has been replaced by ‘Strobel, Paul’
    • pub1_title: ‘Holocene sea level and environmental change at the southern Cape – an 8.5 kyr multi-proxy paleoclimate record from Lake Voëlvlei, South Africa’ has been replaced by ‘Holocene sea level and environmental change at the southern Cape – an 8.5 kyr multi-proxy paleoclimate record from Lake Voelvlei, South Africa’
  • Paleo Interpretation metadata:
    • OEP (WEB44d15ef2): interpretation1_scope: NULL has been replaced by ‘climate’
    • n-Alkane (WEB55f6c675): interpretation1_scope: NULL has been replaced by ‘climate’
    • δ13C n-alkanes std dev (WEBd29b063c): interpretation1_scope: NULL has been replaced by ‘climate’
    • ACL (WEBd57d7086): interpretation1_scope: NULL has been replaced by ‘climate’
  • Paleo Column metadata:
    • n-Alkane (WEB55f6c675): paleoData_units: ‘[µg/g]’ has been replaced by ‘[ug/g]’

Version: 1.0.0

• curator: nicholas
• timestamp: 2021-11-17 00:15:18 UTC
• notes: Added to lipdverse database.