Version history for sRxx5jmG6LPanUEN2hLr - LS15AIKA

Version: 1.0.5

  • lastVersion: 1.0.4
  • curator: nicholas
  • timestamp: 2025-04-17 20:04:41.210428 UTC
  • changes:
    • Paleo Column metadata:
      • d2H (LS15AIKA01A1): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • d2H (LS15AIKA01A1): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • d2H (LS15AIKA01A2): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • d2H (LS15AIKA01A2): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • d2H (LS15AIKA01B): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • d2H (LS15AIKA01B): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • year (MAT3be8633483): paleoData_isPrimary: NULL has been replaced by ‘TRUE’
      • year (MAT3be8633483): paleoData_primaryAgeColumn: NULL has been replaced by ‘TRUE’
      • depth (MATa27c44c8f8): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • depth (MATa27c44c8f8): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147a): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147b): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • deleteThisColumn (NPM147147c): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • deleteThisColumn (NPM147147c): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147d): paleoData_primaryAgeColumn: NULL has been replaced by ‘FALSE’

Version: 1.0.4

  • lastVersion: 1.0.3
  • curator: nicholas
  • timestamp: 2025-04-11 16:26:59.585211 UTC
  • changes:
    • Paleo Interpretation metadata:
      • d2H (LS15AIKA01A1): interpretation1_scope: NULL has been replaced by ‘climate’
      • d2H (LS15AIKA01A1): interpretation2_scope: NULL has been replaced by ‘climate’
      • d2H (LS15AIKA01A1): interpretation3_scope: NULL has been replaced by ‘climate’
      • d2H (LS15AIKA01A1): interpretation4_scope: NULL has been replaced by ‘isotope’
      • d2H (LS15AIKA01A1): interpretation5_scope: NULL has been replaced by ‘isotope’
      • d2H (LS15AIKA01A1): interpretation6_scope: NULL has been replaced by ‘isotope’
      • d2H (LS15AIKA01A2): interpretation2_basis: ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of growing season rainfall (relative to total water used by plants) would result in higher deltaD values.’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_direction: ‘positive’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_mathematicalRelation: ‘linear’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_rank: ‘1’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_scope: ‘isotope’ has been replaced by ‘climate’
      • d2H (LS15AIKA01A2): interpretation2_seasonality: ‘Annual’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_seasonalityOriginal: ‘Annual’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_variable: ‘precipitationIsotope’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_variableGroup: ‘P_isotope’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation2_variableGroupDirection: ‘positive’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation3_basis: ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of winter snowmelt (relative to total water used by plants) would result in lower deltaD values.’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation3_direction: ‘negative’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation3_mathematicalRelation: ‘linear’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation3_rank: ‘2’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation3_scope: ‘isotope’ has been replaced by ‘climate’
      • d2H (LS15AIKA01A2): interpretation3_seasonality: ‘Winter’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation3_variable: ‘precipitation’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation3_variableGroup: ‘winter snow melting during growing season’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation4_basis: ‘This amount effect lowers the summer precipitation isotopic com- position, dampens the seasonality of the mean precipitation of isotopic values and lowers the integrated annual precip- itation isotopic composition. Hence, in drier years average ?D values will be D-enriched relative to wetter years, and likewise warmer years will be D-enriched relative to colder years (Fig. 4b). Given the low precipitation amounts in this arid region today, the amount effect is likely to remain sec-ondary to the temperature controls on isotopic composition apparent in the seasonal cycle.’ has been replaced by ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of growing season rainfall (relative to total water used by plants) would result in higher deltaD values.’
      • d2H (LS15AIKA01A2): interpretation4_direction: ‘negative’ has been replaced by ‘positive’
      • d2H (LS15AIKA01A2): interpretation4_rank: ‘3’ has been replaced by ‘1’
      • d2H (LS15AIKA01A2): interpretation4_seasonality: ‘Summer’ has been replaced by ‘Annual’
      • d2H (LS15AIKA01A2): interpretation4_variable: ‘precipitation’ has been replaced by ‘precipitationIsotope’
      • d2H (LS15AIKA01A2): interpretation4_variableGroup: ‘EffectiveMoisture’ has been replaced by ‘P_isotope’
      • d2H (LS15AIKA01A2): interpretation4_variableGroupDirection: ‘negative’ has been replaced by ‘positive’
      • d2H (LS15AIKA01A2): interpretation4_variableGroupOriginal: ‘precipitation amount’ has been replaced by NULL
      • d2H (LS15AIKA01A2): interpretation4_seasonalityOriginal: NULL has been replaced by ‘Annual’
      • d2H (LS15AIKA01A2): interpretation5_basis: NULL has been replaced by ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of winter snowmelt (relative to total water used by plants) would result in lower deltaD values.’
      • d2H (LS15AIKA01A2): interpretation5_direction: NULL has been replaced by ‘negative’
      • d2H (LS15AIKA01A2): interpretation5_mathematicalRelation: NULL has been replaced by ‘linear’
      • d2H (LS15AIKA01A2): interpretation5_rank: NULL has been replaced by ‘2’
      • d2H (LS15AIKA01A2): interpretation5_scope: NULL has been replaced by ‘isotope’
      • d2H (LS15AIKA01A2): interpretation5_seasonality: NULL has been replaced by ‘Winter’
      • d2H (LS15AIKA01A2): interpretation5_variable: NULL has been replaced by ‘precipitation’
      • d2H (LS15AIKA01A2): interpretation5_variableGroup: NULL has been replaced by ‘winter snow melting during growing season’
      • d2H (LS15AIKA01A2): interpretation6_basis: NULL has been replaced by ‘This amount effect lowers the summer precipitation isotopic com- position, dampens the seasonality of the mean precipitation of isotopic values and lowers the integrated annual precip- itation isotopic composition. Hence, in drier years average ?D values will be D-enriched relative to wetter years, and likewise warmer years will be D-enriched relative to colder years (Fig. 4b). Given the low precipitation amounts in this arid region today, the amount effect is likely to remain sec-ondary to the temperature controls on isotopic composition apparent in the seasonal cycle.’
      • d2H (LS15AIKA01A2): interpretation6_direction: NULL has been replaced by ‘negative’
      • d2H (LS15AIKA01A2): interpretation6_mathematicalRelation: NULL has been replaced by ‘linear’
      • d2H (LS15AIKA01A2): interpretation6_rank: NULL has been replaced by ‘3’
      • d2H (LS15AIKA01A2): interpretation6_scope: NULL has been replaced by ‘isotope’
      • d2H (LS15AIKA01A2): interpretation6_seasonality: NULL has been replaced by ‘Summer’
      • d2H (LS15AIKA01A2): interpretation6_variable: NULL has been replaced by ‘precipitation’
      • d2H (LS15AIKA01A2): interpretation6_variableGroup: NULL has been replaced by ‘EffectiveMoisture’
      • d2H (LS15AIKA01A2): interpretation6_variableGroupDirection: NULL has been replaced by ‘negative’
      • d2H (LS15AIKA01A2): interpretation6_variableGroupOriginal: NULL has been replaced by ‘precipitation amount’
      • d2H (LS15AIKA01B): interpretation2_basis: ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of growing season rainfall (relative to total water used by plants) would result in higher deltaD values.’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_direction: ‘positive’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_inferredMaterial: ‘soil water’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_mathematicalRelation: ‘linear’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_rank: ‘1’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_scope: ‘isotope’ has been replaced by ‘climate’
      • d2H (LS15AIKA01B): interpretation2_seasonality: ‘Annual’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_seasonalityOriginal: ‘Annual’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_variable: ‘precipitationIsotope’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_variableGroup: ‘P_isotope’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation2_variableGroupDirection: ‘positive’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_basis: ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of winter snowmelt (relative to total water used by plants) would result in lower deltaD values.’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_direction: ‘negative’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_inferredMaterial: ‘soil water’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_mathematicalRelation: ‘linear’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_rank: ‘2’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_scope: ‘isotope’ has been replaced by ‘climate’
      • d2H (LS15AIKA01B): interpretation3_seasonality: ‘Winter’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_variable: ‘precipitation’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation3_variableGroup: ‘winter snow melting during growing season’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation4_basis: ‘This amount effect lowers the summer precipitation isotopic com- position, dampens the seasonality of the mean precipitation of isotopic values and lowers the integrated annual precip- itation isotopic composition. Hence, in drier years average ?D values will be D-enriched relative to wetter years, and likewise warmer years will be D-enriched relative to colder years (Fig. 4b). Given the low precipitation amounts in this arid region today, the amount effect is likely to remain sec-ondary to the temperature controls on isotopic composition apparent in the seasonal cycle.’ has been replaced by ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of growing season rainfall (relative to total water used by plants) would result in higher deltaD values.’
      • d2H (LS15AIKA01B): interpretation4_direction: ‘negative’ has been replaced by ‘positive’
      • d2H (LS15AIKA01B): interpretation4_rank: ‘3’ has been replaced by ‘1’
      • d2H (LS15AIKA01B): interpretation4_seasonality: ‘Summer’ has been replaced by ‘Annual’
      • d2H (LS15AIKA01B): interpretation4_variable: ‘precipitation’ has been replaced by ‘precipitationIsotope’
      • d2H (LS15AIKA01B): interpretation4_variableGroup: ‘EffectiveMoisture’ has been replaced by ‘P_isotope’
      • d2H (LS15AIKA01B): interpretation4_variableGroupDirection: ‘negative’ has been replaced by ‘positive’
      • d2H (LS15AIKA01B): interpretation4_variableGroupOriginal: ‘precipitation amount’ has been replaced by NULL
      • d2H (LS15AIKA01B): interpretation4_seasonalityOriginal: NULL has been replaced by ‘Annual’
      • d2H (LS15AIKA01B): interpretation5_basis: NULL has been replaced by ‘Higher isotopic values in the summer compared to the winter (Yao et al., 2013; Bowen and Revenaugh, 2003) suggest that monthly values are indeed driven by temperature. If these seasonal controls also determine interannual variations in the isotopic composition of precipitation then temperature is likely to be a major factor explaining the reconstructed hydrogen isotopic variability. A higher percentage of winter snowmelt (relative to total water used by plants) would result in lower deltaD values.’
      • d2H (LS15AIKA01B): interpretation5_direction: NULL has been replaced by ‘negative’
      • d2H (LS15AIKA01B): interpretation5_inferredMaterial: NULL has been replaced by ‘soil water’
      • d2H (LS15AIKA01B): interpretation5_mathematicalRelation: NULL has been replaced by ‘linear’
      • d2H (LS15AIKA01B): interpretation5_rank: NULL has been replaced by ‘2’
      • d2H (LS15AIKA01B): interpretation5_scope: NULL has been replaced by ‘isotope’
      • d2H (LS15AIKA01B): interpretation5_seasonality: NULL has been replaced by ‘Winter’
      • d2H (LS15AIKA01B): interpretation5_variable: NULL has been replaced by ‘precipitation’
      • d2H (LS15AIKA01B): interpretation5_variableGroup: NULL has been replaced by ‘winter snow melting during growing season’
      • d2H (LS15AIKA01B): interpretation6_basis: NULL has been replaced by ‘This amount effect lowers the summer precipitation isotopic com- position, dampens the seasonality of the mean precipitation of isotopic values and lowers the integrated annual precip- itation isotopic composition. Hence, in drier years average ?D values will be D-enriched relative to wetter years, and likewise warmer years will be D-enriched relative to colder years (Fig. 4b). Given the low precipitation amounts in this arid region today, the amount effect is likely to remain sec-ondary to the temperature controls on isotopic composition apparent in the seasonal cycle.’
      • d2H (LS15AIKA01B): interpretation6_direction: NULL has been replaced by ‘negative’
      • d2H (LS15AIKA01B): interpretation6_inferredMaterial: NULL has been replaced by ‘soil water’
      • d2H (LS15AIKA01B): interpretation6_mathematicalRelation: NULL has been replaced by ‘linear’
      • d2H (LS15AIKA01B): interpretation6_rank: NULL has been replaced by ‘3’
      • d2H (LS15AIKA01B): interpretation6_scope: NULL has been replaced by ‘isotope’
      • d2H (LS15AIKA01B): interpretation6_seasonality: NULL has been replaced by ‘Summer’
      • d2H (LS15AIKA01B): interpretation6_variable: NULL has been replaced by ‘precipitation’
      • d2H (LS15AIKA01B): interpretation6_variableGroup: NULL has been replaced by ‘EffectiveMoisture’
      • d2H (LS15AIKA01B): interpretation6_variableGroupDirection: NULL has been replaced by ‘negative’
      • d2H (LS15AIKA01B): interpretation6_variableGroupOriginal: NULL has been replaced by ‘precipitation amount’
      • year (MAT3be8633483): interpretation1_scope: NULL has been replaced by ‘climate’
      • depth (MATa27c44c8f8): interpretation1_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147): interpretation1_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147): interpretation2_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147): interpretation3_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147): interpretation4_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147): interpretation5_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147): interpretation6_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147a): interpretation1_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147a): interpretation2_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147a): interpretation3_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147a): interpretation4_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147a): interpretation5_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147a): interpretation6_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147b): interpretation1_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147b): interpretation2_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147b): interpretation3_scope: NULL has been replaced by ‘climate’
      • uncertainty1s (NPM147147b): interpretation4_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147b): interpretation5_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147b): interpretation6_scope: NULL has been replaced by ‘isotope’
      • deleteThisColumn (NPM147147c): interpretation1_scope: ‘isotope’ has been replaced by ‘climate’
      • deleteThisColumn (NPM147147c): interpretation2_scope: ‘isotope’ has been replaced by ‘climate’
      • deleteThisColumn (NPM147147c): interpretation3_scope: ‘isotope’ has been replaced by ‘climate’
      • deleteThisColumn (NPM147147c): interpretation4_scope: NULL has been replaced by ‘isotope’
      • deleteThisColumn (NPM147147c): interpretation5_scope: NULL has been replaced by ‘isotope’
      • deleteThisColumn (NPM147147c): interpretation6_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147d): interpretation1_scope: ‘isotope’ has been replaced by ‘climate’
      • uncertainty1s (NPM147147d): interpretation2_scope: ‘isotope’ has been replaced by ‘climate’
      • uncertainty1s (NPM147147d): interpretation3_scope: ‘isotope’ has been replaced by ‘climate’
      • uncertainty1s (NPM147147d): interpretation4_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147d): interpretation5_scope: NULL has been replaced by ‘isotope’
      • uncertainty1s (NPM147147d): interpretation6_scope: NULL has been replaced by ‘isotope’

Version: 1.0.3

  • lastVersion: 1.0.2
  • curator: nicholas
  • timestamp: 2025-04-09 20:48:30.406534 UTC
  • notes: Updated lipdverse database entry with a changed file.
  • changes:
    • Paleo Interpretation metadata:
      • d2H (LS15AIKA01A2): interpretation1_seasonality: ‘mainly growing season, with potential addition effects of snowmelt following wet winters’ has been replaced by ‘Growing Season’
      • d2H (LS15AIKA01A2): interpretation1_variable: ‘Temperature and Precipitation amount’ has been replaced by ‘temperature’
      • d2H (LS15AIKA01A2): interpretation2_seasonality: ‘annual’ has been replaced by ‘Annual’
      • d2H (LS15AIKA01A2): interpretation2_variable: ‘P_isotope’ has been replaced by ‘precipitationIsotope’
      • d2H (LS15AIKA01A2): interpretation3_seasonality: ‘winter’ has been replaced by ‘Winter’
      • d2H (LS15AIKA01A2): interpretation3_variable: ‘winter snow melting during growing season’ has been replaced by ‘precipitation’
      • d2H (LS15AIKA01A2): interpretation4_seasonality: ‘summer (June in modern seasonal cycle)’ has been replaced by ‘Summer’
      • d2H (LS15AIKA01A2): interpretation4_variable: ‘precipitation amount’ has been replaced by ‘precipitation’
      • d2H (LS15AIKA01B): interpretation1_seasonality: ‘mainly growing season, with potential addition effects of snowmelt following wet winters’ has been replaced by ‘Growing Season’
      • d2H (LS15AIKA01B): interpretation1_variable: ‘Temperature and Precipitation amount’ has been replaced by ‘temperature’
      • d2H (LS15AIKA01B): interpretation2_seasonality: ‘annual’ has been replaced by ‘Annual’
      • d2H (LS15AIKA01B): interpretation2_variable: ‘P_isotope’ has been replaced by ‘precipitationIsotope’
      • d2H (LS15AIKA01B): interpretation3_seasonality: ‘winter’ has been replaced by ‘Winter’
      • d2H (LS15AIKA01B): interpretation3_variable: ‘winter snow melting during growing season’ has been replaced by ‘precipitation’
      • d2H (LS15AIKA01B): interpretation4_seasonality: ‘summer (June in modern seasonal cycle)’ has been replaced by ‘Summer’
      • d2H (LS15AIKA01B): interpretation4_variable: ‘precipitation amount’ has been replaced by ‘precipitation’

Version: 1.0.2

  • lastVersion: 1.0.1
  • curator: nicholas
  • timestamp: 2025-04-09 19:41:43.647036 UTC
  • notes: Changes made as part of LiPDverse vocabulary standardization process
  • changes:
    • Paleo Interpretation metadata:
      • d2H (LS15AIKA01A2): interpretation1_seasonality: ‘mainly growing season, with potential addition effects of snowmelt following wet winters’ has been replaced by ‘Growing Season’
      • d2H (LS15AIKA01A2): interpretation1_variable: ‘Temperature and Precipitation amount’ has been replaced by ‘temperature’
      • d2H (LS15AIKA01A2): interpretation2_seasonality: ‘annual’ has been replaced by ‘Annual’
      • d2H (LS15AIKA01A2): interpretation2_variable: ‘P_isotope’ has been replaced by ‘precipitationIsotope’
      • d2H (LS15AIKA01A2): interpretation3_seasonality: ‘winter’ has been replaced by ‘Winter’
      • d2H (LS15AIKA01A2): interpretation3_variable: ‘winter snow melting during growing season’ has been replaced by ‘precipitation’
      • d2H (LS15AIKA01A2): interpretation4_seasonality: ‘summer (June in modern seasonal cycle)’ has been replaced by ‘Summer’
      • d2H (LS15AIKA01A2): interpretation4_variable: ‘precipitation amount’ has been replaced by ‘precipitation’
      • d2H (LS15AIKA01B): interpretation1_seasonality: ‘mainly growing season, with potential addition effects of snowmelt following wet winters’ has been replaced by ‘Growing Season’
      • d2H (LS15AIKA01B): interpretation1_variable: ‘Temperature and Precipitation amount’ has been replaced by ‘temperature’
      • d2H (LS15AIKA01B): interpretation2_seasonality: ‘annual’ has been replaced by ‘Annual’
      • d2H (LS15AIKA01B): interpretation2_variable: ‘P_isotope’ has been replaced by ‘precipitationIsotope’
      • d2H (LS15AIKA01B): interpretation3_seasonality: ‘winter’ has been replaced by ‘Winter’
      • d2H (LS15AIKA01B): interpretation3_variable: ‘winter snow melting during growing season’ has been replaced by ‘precipitation’
      • d2H (LS15AIKA01B): interpretation4_seasonality: ‘summer (June in modern seasonal cycle)’ has been replaced by ‘Summer’
      • d2H (LS15AIKA01B): interpretation4_variable: ‘precipitation amount’ has been replaced by ‘precipitation’

Version: 1.0.1

  • lastVersion: 1.0.0
  • curator: nicholas
  • timestamp: 2025-04-08 17:33:00.323376 UTC
  • notes: Changes made as part of LiPDverse vocabulary standardization process
  • changes:
    • Paleo Column metadata:
      • d2H (LS15AIKA01A1): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • d2H (LS15AIKA01A2): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • d2H (LS15AIKA01B): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • year (MAT3be8633483): paleoData_units: ‘AD’ has been replaced by ‘yr AD’
      • year (MAT3be8633483): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • depth (MATa27c44c8f8): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • uncertainty1s (NPM147147): paleoData_measurementMaterial: NULL has been replaced by ‘C24’
      • uncertainty1s (NPM147147): paleoData_variableName: ‘stdev C24’ has been replaced by ‘uncertainty1s’
      • uncertainty1s (NPM147147): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • uncertainty1s (NPM147147): paleoData_summaryStatistic: NULL has been replaced by ‘1 sigma’
      • uncertainty1s (NPM147147a): paleoData_measurementMaterial: NULL has been replaced by ‘C26’
      • uncertainty1s (NPM147147a): paleoData_variableName: ‘stdev C26’ has been replaced by ‘uncertainty1s’
      • uncertainty1s (NPM147147a): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147a): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • uncertainty1s (NPM147147a): paleoData_summaryStatistic: NULL has been replaced by ‘1 sigma’
      • uncertainty1s (NPM147147b): paleoData_measurementMaterial: NULL has been replaced by ‘C28’
      • uncertainty1s (NPM147147b): paleoData_variableName: ‘stdev C28’ has been replaced by ‘uncertainty1s’
      • uncertainty1s (NPM147147b): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147b): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • uncertainty1s (NPM147147b): paleoData_summaryStatistic: NULL has been replaced by ‘1 sigma’
      • deleteThisColumn (NPM147147c): paleoData_variableName: ‘average C26 C28’ has been replaced by ‘deleteThisColumn’
      • deleteThisColumn (NPM147147c): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • deleteThisColumn (NPM147147c): paleoData_summaryStatistic: NULL has been replaced by ‘average’
      • uncertainty1s (NPM147147d): paleoData_variableName: ‘stdev weighted average’ has been replaced by ‘uncertainty1s’
      • uncertainty1s (NPM147147d): paleoData_isPrimary: NULL has been replaced by ‘FALSE’
      • uncertainty1s (NPM147147d): paleoData_longName: NULL has been replaced by ‘stdev C24’
      • uncertainty1s (NPM147147d): paleoData_summaryStatistic: NULL has been replaced by ‘1 sigma’