Version history for fqowv5NXQUWGpLdAxbtF - NgamringTso.Conroy. 2017

Version: 1.0.20

  • lastVersion: 1.0.19
  • curator: nicholas
  • timestamp: 2023-08-10 23:08:42 UTC
  • changes:
    • Base metadata:
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_seasonality: ‘((( ((( SummerOnly ))) summerOnly /// null ))) Summer /// Summer’ has been replaced by ‘Summer’
    • Paleo Column metadata:
      • precipitation (WEB820982f9): paleoData_proxy: ‘((( PCA ))) deleteMe /// multiproxy’ has been replaced by ‘multiproxy’

Version: 1.0.19

  • lastVersion: 1.0.18
  • curator: nicholas
  • timestamp: 2023-07-05 00:52:23 UTC
  • changes:
    • Publication metadata:
      • pub1_doi: ‘10..1016/j.epsl.2016.10.044’ has been replaced by ‘10.1016/j.epsl.2016.10.044’
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_seasonality: ‘Summer’ has been replaced by ‘((( ((( SummerOnly ))) summerOnly /// null ))) Summer /// Summer’
    • Paleo Column metadata:
      • precipitation (WEB820982f9): paleoData_proxy: ‘multiproxy’ has been replaced by ‘((( PCA ))) deleteMe /// multiproxy’

Version: 1.0.18

  • lastVersion: 1.0.17
  • curator: nicholas
  • timestamp: 2023-05-31 20:39:49 UTC
  • changes:
    • Paleo Column metadata:
      • PC1 (WEB720c22d6): paleoData_notes: ‘((( ((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_proxy updated; paleoData_proxyGeneral has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’ has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’
      • precipitation (WEB820982f9): paleoData_notes: ‘((( ((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_summaryStatistic has been standardized; paleoData_proxy updated ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’ has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’

Version: 1.0.17

  • lastVersion: 1.0.16
  • curator: nicholas
  • timestamp: 2023-05-30 15:50:02 UTC
  • changes:
    • Paleo Column metadata:
      • PC1 (WEB720c22d6): paleoData_notes: ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’ has been replaced by ‘((( ((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_proxy updated; paleoData_proxyGeneral has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’
      • precipitation (WEB820982f9): paleoData_notes: ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’ has been replaced by ‘((( ((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_summaryStatistic has been standardized; paleoData_proxy updated ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’
      • precipitation (WEB820982f9): paleoData_QCnotes: NULL has been replaced by ‘elevation obtained from google earth (CR)’

Version: 1.0.16

  • lastVersion: 1.0.15
  • curator: nicholas
  • timestamp: 2023-05-25 17:52:48 UTC
  • notes: Updated lipdverse database entry with a changed file.
  • changes:
    • Geographic metadata:
      • geo_elevation: NULL has been replaced by ‘4303’

Version: 1.0.15

  • lastVersion: 1.0.14
  • curator: nicholas
  • timestamp: 2023-05-12 22:06:09 UTC
  • changes:
    • Paleo Column metadata:
      • PC1 (WEB720c22d6): paleoData_notes: ‘((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_proxy updated; paleoData_proxyGeneral has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’ has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’
      • precipitation (WEB820982f9): paleoData_notes: ‘((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_summaryStatistic has been standardized; paleoData_proxy updated ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’ has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’

Version: 1.0.14

  • lastVersion: 1.0.13
  • curator: nicholas
  • timestamp: 2023-05-09 22:41:57 UTC
  • changes:
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_seasonality: ‘((( ((( null ))) ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null /// ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null ))) Summer /// Summer’ has been replaced by ‘Summer’
      • precipitation (WEB820982f9): interpretation1_seasonality: ‘((( ((( null ))) ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 /// ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 ))) Summer /// Jun-Sep’ has been replaced by ‘Jun-Sep’

Version: 1.0.13

  • lastVersion: 1.0.12
  • curator: nicholas
  • timestamp: 2023-03-29 19:58:53 UTC
  • changes:
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_seasonality: ‘Summer’ has been replaced by ‘((( ((( null ))) ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null /// ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null ))) Summer /// Summer’
      • precipitation (WEB820982f9): interpretation1_seasonality: ‘Jun-Sep’ has been replaced by ‘((( ((( null ))) ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 /// ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 ))) Summer /// Jun-Sep’

Version: 1.0.12

  • lastVersion: 1.0.11
  • curator: nicholas
  • timestamp: 2023-03-24 22:25:52 UTC
  • changes:
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_seasonality: ‘((( ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null ))) Summer /// ((( null ))) ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null /// ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null’ has been replaced by ‘Summer’
      • precipitation (WEB820982f9): interpretation1_seasonality: ‘((( ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 ))) Summer /// ((( null ))) ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 /// ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9’ has been replaced by ‘Jun-Sep’
      • precipitation (WEB820982f9): interpretation1_seasonalityGeneral: ‘summerOnly’ has been replaced by ‘Summer’
    • Paleo Column metadata:
      • precipitation (WEB820982f9): paleoData_proxy: NULL has been replaced by ‘multiproxy’
      • precipitation (WEB820982f9): paleoData_proxyGeneral: ‘hybrid’ has been replaced by ‘multiproxy’

Version: 1.0.11

  • lastVersion: 1.0.10
  • curator: nicholas
  • timestamp: 2023-02-16 23:26:01 UTC
  • changes:
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_seasonality: ‘((( null ))) ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null /// ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null’ has been replaced by ‘((( ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null ))) Summer /// ((( null ))) ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null /// ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null’
      • precipitation (WEB820982f9): interpretation1_seasonality: ‘((( null ))) ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 /// ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9’ has been replaced by ‘((( ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 ))) Summer /// ((( null ))) ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 /// ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9’

Version: 1.0.10

  • lastVersion: 1.0.9
  • curator: nicholas
  • timestamp: 2023-02-13 23:53:09 UTC
  • changes:
    • Paleo Column metadata:
      • PC1 (WEB720c22d6): paleoData_notes: ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’ has been replaced by ‘((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_proxy updated; paleoData_proxyGeneral has been standardized ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’
      • precipitation (WEB820982f9): paleoData_notes: ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’ has been replaced by ‘((( “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_variableName updated; paleoData_summaryStatistic has been standardized; paleoData_proxy updated ))) “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized /// “We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_seasonality: ‘((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null’ has been replaced by ‘((( null ))) ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null /// ((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null’
      • precipitation (WEB820982f9): interpretation1_seasonality: ‘((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9’ has been replaced by ‘((( null ))) ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9 /// ((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9’

Version: 1.0.9

  • lastVersion: 1.0.8
  • curator: nicholas
  • timestamp: 2023-02-09 16:06:13 UTC
  • notes: Updated lipdverse database entry with a changed file.
  • changes:
    • Paleo Column metadata:
      • uncertaintyHigh90 (WEB3c70c511): paleoData_notes: NULL has been replaced by ‘NA; paleoData_summaryStatistic has been standardized; paleoData_inferredMaterial has been standardized’
      • uncertaintyHigh90 (WEB3c70c511): paleoData_variableName: ‘pcpanomCI95’ has been replaced by ‘uncertaintyHigh90’
      • uncertaintyHigh90 (WEB3c70c511): paleoData_inferredMaterial: NULL has been replaced by ‘precipitation’
      • uncertaintyHigh90 (WEB3c70c511): paleoData_summaryStatistic: NULL has been replaced by ‘quantile 95’
      • PC1 (WEB720c22d6): paleoData_notes: ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”’ has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_proxyGeneral has been standardized’
      • PC1 (WEB720c22d6): paleoData_proxy: ‘Hybrid Grain Size’ has been replaced by ‘multiproxy’
      • PC1 (WEB720c22d6): paleoData_proxyGeneral: NULL has been replaced by ‘multiproxy’
      • PC1 (WEB720c22d6): paleoData_variableName: ‘PC1gs’ has been replaced by ‘PC1’
      • age (WEB7848a4cf): paleoData_datum: NULL has been replaced by ‘1950’
      • age (WEB7848a4cf): paleoData_notes: NULL has been replaced by ‘NA; paleoData_isPrimary has been standardized; paleoData_datum has been standardized’
      • age (WEB7848a4cf): paleoData_units: ‘BP’ has been replaced by ‘yr BP’
      • age (WEB7848a4cf): paleoData_isPrimary: NULL has been replaced by ‘TRUE’
      • precipitation (WEB820982f9): paleoData_notes: ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”’ has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”; paleoData_summaryStatistic has been standardized’
      • precipitation (WEB820982f9): paleoData_proxy: ‘PCA’ has been replaced by NULL
      • precipitation (WEB820982f9): paleoData_variableName: ‘Panom’ has been replaced by ‘precipitation’
      • precipitation (WEB820982f9): paleoData_summaryStatistic: NULL has been replaced by ‘anomaly’
      • uncertaintyLow95 (WEBa21cfda5): paleoData_notes: NULL has been replaced by ‘NA; paleoData_summaryStatistic has been standardized; paleoData_inferredMaterial has been standardized’
      • uncertaintyLow95 (WEBa21cfda5): paleoData_variableName: ‘pcpanomCI5’ has been replaced by ‘uncertaintyLow95’
      • uncertaintyLow95 (WEBa21cfda5): paleoData_inferredMaterial: NULL has been replaced by ‘precipitation’
      • uncertaintyLow95 (WEBa21cfda5): paleoData_summaryStatistic: NULL has been replaced by ‘quantile 5’
    • Paleo Interpretation metadata:
      • PC1 (WEB720c22d6): interpretation1_variable: ‘P’ has been replaced by ‘precipitation’
      • precipitation (WEB820982f9): interpretation1_variable: ‘P’ has been replaced by ‘precipitation’

Version: 1.0.8

  • lastVersion: 1.0.7
  • curator: nicholas
  • timestamp: 2023-01-27 00:05:42 UTC
  • changes:
    • Paleo Interpretation metadata:
      • PC1gs (WEB720c22d6): interpretation1_seasonality: ‘((( SummerOnly ))) summerOnly /// null’ has been replaced by ‘((( Summer ))) ((( SummerOnly ))) summerOnly /// null /// ((( SummerOnly ))) summerOnly /// null’
      • Panom (WEB820982f9): interpretation1_seasonality: ‘6,7,8,9’ has been replaced by ‘((( Summer (6,7,8,9) ))) 6,7,8,9 /// 6,7,8,9’

Version: 1.0.7

  • lastVersion: 1.0.6
  • curator: nicholas
  • timestamp: 2022-09-09 02:12:37 UTC
  • changes:
    • Paleo Interpretation metadata:
      • Panom (WEB820982f9): interpretation1_seasonality: ‘JJAS’ has been replaced by ‘6,7,8,9’
      • Panom (WEB820982f9): interpretation1_variableDetail: ‘@surface’ has been replaced by ‘

Version: 1.0.6

  • lastVersion: 1.0.5
  • curator: nicholas
  • timestamp: 2022-07-28 17:38:31 UTC
  • changes:
    • Geographic metadata:
      • geo_elevation: ‘4303’ has been replaced by NULL

Version: 1.0.5

  • lastVersion: 1.0.4
  • curator: nicholas
  • timestamp: 2022-07-15 23:07:43 UTC
  • changes:
    • Base metadata:
    • Publication metadata:
    • Paleo Interpretation metadata:
      • pcpanomCI95 (WEB3c70c511): interpretation1_scope: NULL has been replaced by ‘climate’
      • Panom (WEB820982f9): interpretation1_seasonalityGeneral: ‘SummerOnly’ has been replaced by ‘summerOnly’
      • pcpanomCI5 (WEBa21cfda5): interpretation1_scope: NULL has been replaced by ‘climate’

Version: 1.0.4

  • lastVersion: 1.0.3
  • curator: nicholas
  • timestamp: 2022-05-18 00:28:42 UTC
  • changes:
    • Paleo Interpretation metadata:
      • pcpanomCI95 (WEB3c70c511): interpretation1_scope: ‘climate’ has been replaced by NULL
      • PC1gs (WEB720c22d6): interpretation1_variableGroup: NULL has been replaced by ‘P’
      • Panom (WEB820982f9): interpretation1_seasonality: ‘6,7,8,9’ has been replaced by ‘JJAS’
      • Panom (WEB820982f9): interpretation1_seasonalityOriginal: NULL has been replaced by ‘6,7,8,9’
      • Panom (WEB820982f9): interpretation1_variableGroup: NULL has been replaced by ‘P’
      • pcpanomCI5 (WEBa21cfda5): interpretation1_scope: ‘climate’ has been replaced by NULL
    • Paleo Column metadata:
      • PC1gs (WEB720c22d6): paleoData_proxyLumps: NULL has been replaced by ‘Hybrid Grain Size’
      • age (WEB7848a4cf): paleoData_units: ‘yr BP’ has been replaced by ‘BP’
      • age (WEB7848a4cf): paleoData_unitsOriginal: NULL has been replaced by ‘yr BP’
      • Panom (WEB820982f9): paleoData_proxyLumps: NULL has been replaced by ‘PCA’

Version: 1.0.3

  • lastVersion: 1.0.2
  • curator: nicholas
  • timestamp: 2021-11-19 21:09:36 UTC
  • changes:
    • Paleo Interpretation metadata:
      • PC1gs (WEB720c22d6): interpretation1_seasonality: ‘Summer’ has been replaced by ‘((( SummerOnly ))) summerOnly /// null’
      • PC1gs (WEB720c22d6): interpretation1_seasonalityGeneral: ‘((( SummerOnly ))) summerOnly /// null’ has been replaced by NULL
      • Panom (WEB820982f9): interpretation1_seasonality: ‘Summer (6,7,8,9)’ has been replaced by ‘6,7,8,9’
      • Panom (WEB820982f9): interpretation1_seasonalityGeneral: ‘((( SummerOnly ))) summerOnly /// null’ has been replaced by ‘SummerOnly’

Version: 1.0.2

  • lastVersion: 1.0.1
  • curator: nicholas
  • timestamp: 2021-11-17 02:09:05 UTC
  • changes:
    • Base metadata:
      • archiveType: ‘Lake Sediment’ has been replaced by ‘LakeSediment’
    • Geographic metadata:
      • geo_gcmdLocation: NULL has been replaced by ‘Asia>Eastern Asia>China’
    • Paleo Column metadata:
      • PC1gs (WEB720c22d6): paleoData_notes: NULL has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”’
      • PC1gs (WEB720c22d6): paleoData_QCnotes: NULL has been replaced by ‘defer to calibrated ts’
      • Panom (WEB820982f9): paleoData_proxy: ‘Hybrid’ has been replaced by ‘PCA’
      • Panom (WEB820982f9): paleoData_variableName: ‘Pannom’ has been replaced by ‘Panom’
      • Panom (WEB820982f9): paleoData_datum: NULL has been replaced by ‘anom’
      • Panom (WEB820982f9): paleoData_notes: NULL has been replaced by ‘“We find that PC1 of the grain size record is significantly correlated with regional summer (JJAS) precipitation, which provides over three-quarters of the annual precipitation to this region (Fig. 6). Prior to correlation with instrumental precipitation, we interpolated the 20th century portion of the PC1 time series to annual resolution and applied a 5-year low pass filter to accommodate the interannual resolution of the age model during the 20th century. We then applied a 5-year low pass filter to the instrumental JJAS precipitation time series. PC1 of the grain size dataset and precipitation covary”’
      • Panom (WEB820982f9): paleoData_proxyDetail: NULL has been replaced by ‘PC1’
      • Panom (WEB820982f9): paleoData_proxyGeneral: NULL has been replaced by ‘hybrid’
    • Paleo Interpretation metadata:
      • PC1gs (WEB720c22d6): interpretation1_seasonalityGeneral: NULL has been replaced by ‘((( SummerOnly ))) summerOnly /// null’
      • Panom (WEB820982f9): interpretation1_seasonalityGeneral: NULL has been replaced by ‘((( SummerOnly ))) summerOnly /// null’

Version: 1.0.1

  • lastVersion: 1.0.0
  • curator: nicholas
  • timestamp: 2021-10-05 21:41:51 UTC
  • changes:
    • Publication metadata:
      • pub1_author: ‘list(list(name = “Conroy, Jessica L”), list(name = “Hudson, Adam M.”), list(name = “Overpeck, Jonathan T.”), list(name = “Liu, Kam-Biu”), list(name = “Wang, Lou”), list(name = “Cole, Julia”))’ has been replaced by ‘Conroy, Jessica L’
    • Paleo Interpretation metadata:
      • pcpanomCI95 (WEB3c70c511): interpretation1_scope: NULL has been replaced by ‘climate’
      • pcpanomCI5 (WEBa21cfda5): interpretation1_scope: NULL has been replaced by ‘climate’

Version: 1.0.0

  • curator: nick
  • timestamp: 2021-06-08 03:08:56 UTC
  • notes: Added to lipdverse database.