# North American Hydroclimate Synthesis (NAHS) from multi-proxy hydroclimate records over the Common Era
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#               World Data Service for Paleoclimatology, Boulder
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#                      NOAA Paleoclimatology Program
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# Template Version 3.0
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# NOTE: Please cite original publication, online resource and date accessed when using this data.
# If there is no publication information, please cite Investigator, title, online resource and date accessed.
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# Description/Documentation lines begin with #
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# Online_Resource: https://www.ncdc.noaa.gov/paleo/study/24910
#      Description: NOAA Landing Page
# Online_Resource: http://www1.ncdc.noaa.gov/pub/data/paleo/reconstructions/rodysill2018/rodysill2018-100bin.txt
#      Description: NOAA location of the template
# Online_Resource: http://www1.ncdc.noaa.gov/pub/data/paleo/reconstructions/rodysill2018/rodysill2018-RecordsUsed_Metadata.txt
#      Description: NOAA location of the Records Used metadata template
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# Archive: Climate Reconstructions
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# Dataset_DOI:
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# Parameter_Keywords: precipitation
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# Contribution_Date
#    Date: 2018-08-17
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# File_Last_Modified_Date
#    Date: 2018-08-17
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# Title
#    Study_Name: North American Hydroclimate Synthesis (NAHS) from multi-proxy hydroclimate records over the Common Era
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# Investigators
#      Investigators: Rodysill, Jessica R.; Anderson, Lesleigh; Cronin, Thomas M.; Jones, Miriam C.; Thompson, Robert S.; Wahl, David B.; Willard, Debra A.; Addison, Jason A.; Alder, Jay R.; Anderson, Katherine H.; Anderson, Lysanna; Barron, John A.; Bernhardt, Christopher E.; Hostetler, Steven W.; Kehrwald, Natalie M.; Khan, Nicole S.; Richey, Julie N.; Starratt, Scott W.; Strickland, Laura E.; Toomey, Michael R.; Treat, Claire C.; Wingard, G. Lynn
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# Description_Notes_and_Keywords
#        Description: North American multi-proxy hydroclimate records are synthesized with new chronologies. Hydroclimate reconstructions document clear regional trends during the Common Era. Regionally asynchronous spatial variability occurred at centennial timescales. Widespread North American drought coincided with warm N. Hemisphere temperatures. Wet and dry climates occurred during both warm and cool climates.
#         Provided Keywords: precipitation, ground water, lake level, salinity, vegetation, lake salinity
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# Publication
# Authors: Rodysill, Jessica R.; Anderson, Lesleigh; Cronin, Thomas M.; Jones, Miriam C.; Thompson, Robert S.; Wahl, David B.; Willard, Debra A.; Addison, Jason A.; Alder, Jay R.; Anderson, Katherine H.; Anderson, Lysanna; Barron, John A.; Bernhardt, Christopher E.; Hostetler, Steven W.; Kehrwald, Natalie M.; Khan, Nicole S.; Richey, Julie N.; Starratt, Scott W.; Strickland, Laura E.; Toomey, Michael R.; Treat, Claire C.; Wingard, G. Lynn
# Published_Date_or_Year: 2018
# Published_Title: A North American Hydroclimate Synthesis (NAHS) of the Common Era
# Journal_Name: Global and Planetary Change
# Volume: 162
# Edition: 
# Issue: 
# Pages: 175-198
# Report_Number: 
# DOI: 10.1016/j.gloplacha.2017.12.025
# Online_Resource: www.sciencedirect.com/science/article/pii/S0921818117304174
# Full_Citation: 
# Abstract: This study presents a synthesis of century-scale hydroclimate variations in North America for the Common Era (last 2000 years) using new age models of previously published multiple proxy-based paleoclimate data. This North American Hydroclimate Synthesis (NAHS) examines regional hydroclimate patterns and related environmental indicators, including vegetation, lake water elevation, stream flow and runoff, cave drip rates, biological productivity, assemblages of living organisms, and salinity. Centennial-scale hydroclimate anomalies are obtained by iteratively sampling the proxy data on each of thousands of age model realizations and determining the fractions of possible time series indicating that the century-smoothed data was anomalously wet or dry relative to the 100 BCE to 1900 CE mean. Results suggest regionally asynchronous wet and dry periods over multidecadal to centennial timescales and frequent periods of extended regional drought. Most sites indicate drying during previously documented multicentennial periods of warmer Northern Hemisphere temperatures, particularly in the western U.S., central U.S., and Canada. Two widespread droughts were documented by the NAHS: from 50 BCE to 450 CE and from 800 to 1100 CE. Major hydroclimate reorganizations occurred out of sync with Northern Hemisphere temperature variations and widespread wet and dry anomalies occurred during both warm and cool periods. We present a broad assessment of paleoclimate relationships that highlights the potential influences of internal variability and external forcing and supports a prominent role for Pacific and Atlantic Ocean dynamics on century-scale continental hydroclimate.
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# Funding_Agency
#    Funding_Agency_Name: U.S. Geological Survey Climate and Land Use Change Research and Development Program
#    Grant: 
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# Site_Information
# Site_Name: North America NAHS
# Location: North America
# Country: United States, Canada, Mexico
# Northernmost_Latitude: 74.89164
# Southernmost_Latitude: 17.4
# Easternmost_Longitude: -63.5392
# Westernmost_Longitude: -159.4316
# Elevation: 
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# Data_Collection
#   Collection_Name: NAHS 100yr bin series Rodysill2018
#   First_Year: -100
#   Last_Year: 1900
#   Time_Unit: CE
#   Core_Length: 
#   Notes: More information in publication- Methods Section 3.4
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# Chronology_Information 
# Chronology: 
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# Variables
# Data variables follow that are preceded by "##" in columns one and two.
# Variables list, one per line, shortname-tab-longname components (9 components: what, material, error, units, seasonality, archive, detail, method, C or N for Character or Numeric data)
## 100yr_window_start_CE	age,,,year Common Era,,climate reconstructions,,,N,start year of 100-year bin
## 100yr_window_end_CE	age,,,year Common Era,,climate reconstructions,,,N,end year of 100-year bin
## 1-AguadaXcaamal_d18O	delta 18O,gastropod,,per mil PDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; d18O on gastropod Pyrgophorus coronatus ; Data used for Figures 4-10 ; Methods Section 3.4
## 2-Baie_testate_amoeb_assemblage	moisture index,testate amoebae assemblage,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a testate amoebae assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation ; Data used for Figures 4-10 ; Methods Section 3.4
## 3-BearLake_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 4-BlueLake_varve	varve thickness,sediment,,centimeter,,paleolimnology,,,N,100-yr binned natural log of varve thickness time series mean calculated across all age model iterations exported from Bacon ; varve thickness ; Data used for Figures 4-10 ; Methods Section 3.4
## 5-BuckeyeCreekCave_d18O	delta 18O,calcium carbonate,,per mil VPDB,,speleothems,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 6-CastorLime_Dd18O	delta 18O,,,per mil,,paleolimnology,,,N,100-yr binned difference between Castor Lake aragonite d18O (VPDB) and Lime Lake calcite d18O (VPDB) time series mean calculated across all age model iterations exported from Bacon ; difference between Castor Lake aragonite d18O (VPDB) and Lime Lake calcite d18O (VPDB) ; Data used for Figures 4-10 ; Methods Section 3.4
## 7-ChesapeakeBay_MD03-2661_d18O	delta 18O,benthic foraminifera (Elphidium selseyense),,per mil VPDB,,paleoceanography,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 8-ChesapeakeBay_pollen_assemblage	moisture index,,,dimensionless,,paleoceanography; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 9-ClelandLake_d18O	delta 18O,carbonate,,per mil VPDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 10-ColdwaterLake_salinity	salinity,diatom assemblage,,per mil,,paleolimnology; climate reconstructions,,,N,100-yr binned salinity time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 11-CrystalCave_d18O	delta 18O,stalagmite,,per mil SMOW,,speleothems,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 12-DavisPond_lakelevel	moisture index,lake level,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from lake levels calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from lake level ; Data used for Figures 4-10 ; Methods Section 3.4
## 13-DeepPond_lakelevel	moisture index,lake level,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from lake levels calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from lake level ; Data used for Figures 4-10 ; Methods Section 3.4
## 14-DixieLake_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 15-DuneLake_d13C	delta 13C,sediment,,per mil VPDB,,paleolimnology,,,N,100-yr binned d13C time series mean calculated across all age model iterations exported from Bacon ; d13C sediment organic matter ; Data used for Figures 4-10 ; Methods Section 3.4
## 16-EastLake_grain size	grain size parameter,sediment,,microns,,paleolimnology,,,N,100-yr binned natural log of particle diameter of 98th percentile of grain size distribution time series mean calculated across all age model iterations exported from Bacon ; particle diameter of 98th percentile of grain size distribution ; Data used for Figures 4-10 ; Methods Section 3.4
## 17-ELALake239_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 18-ELALake442_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 19-ElkLake_%Al	aluminum,sediment,,percent,,paleolimnology,,,N,100-yr binned natural log of aluminum abundance time series mean calculated across all age model iterations exported from Bacon ; aluminum abundance ; Data used for Figures 4-10 ; Methods Section 3.4
## 20-FoyLake_d18O	delta 18O,carbonate,,per mil VPDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 21-FoyLake_benthic_diatom_abundance	total benthic diatoms,diatom,,percent,,paleolimnology,,,N,100-yr binned natural log of benthic diatom abundance time series mean calculated across all age model iterations exported from Bacon ; benthic diatom abundance ; Data used for Figures 4-10 ; Methods Section 3.4
## 22-GallLake_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 23-GreatHeath_SVR	Sphagnum to vascular plant ratio,peat n-alkanes,,dimensionless,,pollen,,,N,100-yr binned ratio of Sphagnum to vascular plants time series mean calculated across all age model iterations exported from Bacon ; ratio of Sphagnum to vascular plants ; Data used for Figures 4-10 ; Methods Section 3.4
## 24-GreatSaltLake_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 25-HiddenLake_lake level	moisture index,,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from lake levels calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from lake level ; Data used for Figures 4-10 ; Methods Section 3.4
## 26-HobartLake_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 27-HorsetrailFen_macrofossil_assemblage	moisture index,,,dimensionless,,paleolimnology; plant macrofossils; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a plant macrofossil assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from plant macrofossil assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 28-IrwinSmithBog_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 29-JenningsCave_d13C	delta 13C,fulvic acid,,per mil VPDB,,speleothems,,,N,100-yr binned d13C time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 30-JuxtlahuacaCave_d18O	delta 18O,stalagmite,,per mil PDB,,speleothems,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 31-KecheLake_d18O	delta 18O,carbonate,,per mil PDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 32-KirmanLake_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 32-KirmanLake_salinity	salinity,diatom assemblage,,milligram per liter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred salinitie time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred salinity ; Data used for Figures 4-10 ; Methods Section 3.4
## 33-KiteLake_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 34-LacLeCaron_plant macrofossil_assemblage	moisture index,,,dimensionless,,paleolimnology; plant macrofossils; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a plant macrofossil assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from plant macrofossil assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 35-LagunadeAljojuca_%Al2O3	aluminum oxide,sediment,,percent,,paleolimnology,,,N,100-yr binned aluminum oxide abundance by mass time series mean calculated across all age model iterations exported from Bacon ; aluminum oxide abundance by mass ; Data used for Figures 4-10 ; Methods Section 3.4
## 35-LagunadeAljojuca_d18O	delta 18O,carbonate,,per mil VPDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 36-LagunadeJuanacatlan_Ti	titanium,sediment,,unitless,,paleolimnology,,,N,100-yr binned natural log of titanium abundance normalized to incoherent peak area time series mean calculated across all age model iterations exported from Bacon ; titanium abundance normalized to incoherent peak area ; Data used for Figures 4-10 ; Methods Section 3.4
## 37-LakeChichancanab_density	bulk density,sediment,,gram per cubic centimeter,,paleolimnology,,,N,100-yr binned natural log of bulk density time series mean calculated across all age model iterations exported from Bacon ; bulk density ; Data used for Figures 4-10 ; Methods Section 3.4
## 38-LakeElsinore_%sand	sand abundance,sediment,,percent,,paleolimnology,,,N,100-yr binned natural log of sand abundance time series mean calculated across all age model iterations exported from Bacon ; sand abundance ; Data used for Figures 4-10 ; Methods Section 3.4
## 39-LakeoftheWoods_lakelevel	moisture index,,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from lake levels calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from lake level ; Data used for Figures 4-10 ; Methods Section 3.4
## 40-Lebel_testate amoebae_assemblage	moisture index,testate amoebae assemblage,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a testate amoebae assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation ; Data used for Figures 4-10 ; Methods Section 3.4
## 41-LittleRaleighLake_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 42-LowerBearLake_LOI950C	loss on ignition,sediment,,percent,,paleolimnology,,,N,100-yr binned mass lost on ignition at 950C time series mean calculated across all age model iterations exported from Bacon ; mass lost on ignition at 950°C ; Data used for Figures 4-10 ; Methods Section 3.4
## 43-MarcellaJelly_Dd18O	delta 18O,Characean algae (Chara) encrustations,,per mil,,paleolimnology,,,N,100-yr binned difference between Marcella Lake Chara d18O (VPDB) and Jellybean Lake carbonate d18O (VPDB) time series mean calculated across all age model iterations exported from Bacon ; difference between Marcella Lake Chara d18O (VPDB) and Jellybean Lake carbonate d18O (VPDB) ; Data used for Figures 4-10 ; Methods Section 3.4
## 44-MartinLake_lithics	mineral matter,sediment,,percent,,paleolimnology,,,N,100-yr binned natural log of lithic abundance time series mean calculated across all age model iterations exported from Bacon ; lithic abundance ; Data used for Figures 4-10 ; Methods Section 3.4
## 44-MartinLake_d18O	delta 18O,carbonate,,per mil VPDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; d18O ; Data used for Figures 4-10 ; Methods Section 3.4
## 45-MB01_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 46-MeekinLake_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 47-MindenBog_amoebae_tabledepth	water table depth,testate amoebae assemblage,,centimeter,,paleolimnology; climate reconstructions,,,N,100-yr binned testate amoebae-inferred water table depth time series mean calculated across all age model iterations exported from Bacon ; testate amoebae-inferred water table depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 48-MonoLake_lakelevel	moisture index,,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from lake levels calculated across all age model iterations exported from Bacon ; Data used for Figures 4-10 ; Methods Section 3.4
## 49-MoonLake_salinity	salinity,diatom assemblage,,gram per liter,,paleolimnology; climate reconstructions,,,N,100-yr binned natural log of diatom-inferred salinity time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred salinity ; Data used for Figures 4-10 ; Methods Section 3.4
## 50-Morts_testate amoebae_assemblage	moisture index,testate amoebae assemblage,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a testate amoebae assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation ; Data used for Figures 4-10 ; Methods Section 3.4
## 51-NewLongPond_lakelevel	moisture index,lake level,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from lake levels calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from lake level ; Data used for Figures 4-10 ; Methods Section 3.4
## 52-OngokeLake_diatom_waterdepth	lake level,diatom assemblage,,meter,,paleolimnology; climate reconstructions,,,N,100-yr binned diatom-inferred water depth time series mean calculated across all age model iterations exported from Bacon ; diatom-inferred water depth ; Data used for Figures 4-10 ; Methods Section 3.4
## 53-OregonCaves_d13C	delta 13C,stalagmite,,per mil VPDB,,speleothems,,,N,100-yr binned d13C time series mean calculated across all age model iterations exported from Bacon ; d13C ; Data used for Figures 4-10 ; Methods Section 3.4
## 54-ParadiseLake_d18O	delta 18O,carbonate,,per mil VPDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; d18O ; Data used for Figures 4-10 ; Methods Section 3.4
## 55-PathLake_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 56-Plaine_testate amoebae_assemblage	moisture index,testate amoebae assemblage,,dimensionless,,paleolimnology; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a testate amoebae assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation ; Data used for Figures 4-10 ; Methods Section 3.4
## 57-PuntaLaguna_d18O	delta 18O,ostracod,,per mil VPDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; d18O on ostracod (Cytheridella ilosvayi) ; Data used for Figures 4-10 ; Methods Section 3.4
## 58-RiceLake_MgCa	magnesium/calcium,ostracod,,unitless,,paleolimnology,,,N,100-yr binned magnesium to calcium ratio time series mean calculated across all age model iterations exported from Bacon ; magnesium to calcium ratio on ostracod (Candona rawsoni) ; Data used for Figures 4-10 ; Methods Section 3.4
## 59-RoeIsland_d13C_salinity	moisture index,delta 13C,,dimensionless,,paleoceanography; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from d13C-based salinity estimates calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation; from d13C-based salinity ; Data used for Figures 4-10 ; Methods Section 3.4
## 60-SchellingsBogSB70_%pseudotsuga	Pseudotsuga menziesii,pollen,,percent,,pollen,,,N,100-yr binned natural log of Pseudotsuga menziesii abundance time series mean calculated across all age model iterations exported from Bacon ; Pseudotsuga menziesii abundance ; Data used for Figures 4-10 ; Methods Section 3.4
## 60-SchellingsBogSB70_%quercus	Quercus chrysolepis,pollen,,percent,,pollen,,,N,100-yr binned natural  log of Quercus chrysolepis abundance time series mean calculated across all age model iterations exported from Bacon ; Quercus chrysolepis abundance ; Data used for Figures 4-10 ; Methods Section 3.4
## 61-Site4_pollen_assemblage	moisture index,,,dimensionless,,paleolimnology; pollen; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a pollen assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from pollen assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 62-SouthBay_d13C-d18O_salinity	moisture index,delta 13C; delta 18O,,dimensionless,,paleoceanography; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from d13C- and d18O-based salinity estimates calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from d13C- and d18O-based salinity ; Data used for Figures 4-10 ; Methods Section 3.4
## 63-SteelLake_d18O	delta 18O,carbonate,,per mil VPDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; d18O ; Data used for Figures 4-10 ; Methods Section 3.4
## 64-Sugluk_macrofossil_assemblage	moisture index,,,dimensionless,,paleolimnology; plant macrofossils; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a plant macrofossil assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from plant macrofossil assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 65-UpperPinto_macrofossil_assemblage	moisture index,,,dimensionless,,paleolimnology; plant macrofossils; climate reconstructions,,,N,100-yr binned mean of the assemblage-based hydroclimate interpretation time series from a plant macrofossil assemblage calculated across all age model iterations exported from Bacon ; -1=dry: 0=neutral: 1=wet; assemblage-based hydroclimate interpretation from plant macrofossil assemblage ; Data used for Figures 4-10 ; Methods Section 3.4
## 66-WalkerLake_d18O	delta 18O,carbonate,,per mil PDB,,paleolimnology,,,N,100-yr binned d18O time series mean calculated across all age model iterations exported from Bacon ; d18O ; Data used for Figures 4-10 ; Methods Section 3.4
## 67-WolverineLake_MineralMAR	accumulation rate,sediment,,gram per square centimeter per year,,paleolimnology,,,N,100-yr binned natural log of mineral mass accumulation rate (recalculated after applying new Bacon age model) time series mean calculated across all age model iterations exported from Bacon ; mineral mass accumulation rate (recalculated after applying new Bacon age model) ; Data used for Figures 4-10 ; Methods Section 3.4
## 68-YellowBison_Dd18O	delta 18O,carbonate,,per mil,,paleolimnology,,,N,100-yr binned difference between Yellow Lake carbonate d18O (VPDB) and Bison Lake carbonate d18O (VPDB) time series mean calculated across all age model iterations exported from Bacon ; difference between Yellow Lake carbonate d18O (VPDB) and Bison Lake carbonate d18O (VPDB) ; Data used for Figures 4-10 ; Methods Section 3.4
## 69-ZacaLake_%coarse	grain size class,sediment,,percent,,paleolimnology,,,N,100-yr binned natural log of abundance of coarse particles with grain diameters between 125 microns and 2000 microns time series mean calculated across all age model iterations exported from Bacon ; abundance of coarse particles with grain diameters between 125 microns and 2000 microns ; Data used for Figures 4-10 ; Methods Section 3.4
#------------------------
# Data:
# Data lines follow (have no #)
# Data line format - tab-delimited text, variable short name as header
# Missing_Values: NA
100yr_window_start_CE	100yr_window_end_CE	1-AguadaXcaamal_d18O	2-Baie_testate_amoeb_assemblage	3-BearLake_pollen_assemblage	4-BlueLake_varve	5-BuckeyeCreekCave_d18O	6-CastorLime_?d18O	7-ChesapeakeBay_MD03-2661_d18O	8-ChesapeakeBay_pollen_assemblage	9-ClelandLake_d18O	10-ColdwaterLake_salinity	11-CrystalCave_d18O	12-DavisPond_lakelevel	13-DeepPond_lakelevel	14-DixieLake_diatom_waterdepth	15-DuneLake_d13C	16-EastLake_grain size	17-ELALake239_diatom_waterdepth	18-ELALake442_diatom_waterdepth	19-ElkLake_%Al	20-FoyLake_d18O	21-FoyLake_benthic_diatom_abundance	22-GallLake_diatom_waterdepth	23-GreatHeath_SVR	24-GreatSaltLake_pollen_assemblage	25-HiddenLake_lake level	26-HobartLake_pollen_assemblage	27-HorsetrailFen_macrofossil_assemblage	28-IrwinSmithBog_pollen_assemblage	29-JenningsCave_d13C	30-JuxtlahuacaCave_d18O	31-KecheLake_d18O	32-KirmanLake_diatom_waterdepth	32-KirmanLake_salinity	33-KiteLake_pollen_assemblage	34-LacLeCaron_plant macrofossil_assemblage	35-LagunadeAljojuca_%Al2O3	35-LagunadeAljojuca_d18O	36-LagunadeJuanacatlan_Ti	37-LakeChichancanab_density	38-LakeElsinore_%sand	39-LakeoftheWoods_lakelevel	40-Lebel_testate amoebae_assemblage	41-LittleRaleighLake_diatom_waterdepth	42-LowerBearLake_LOI950C	43-MarcellaJelly_?d18O	44-MartinLake_lithics	44-MartinLake_d18O	45-MB01_pollen_assemblage	46-MeekinLake_diatom_waterdepth	47-MindenBog_amoebae_tabledepth	48-MonoLake_lakelevel	49-MoonLake_salinity	50-Morts_testate amoebae_assemblage	51-NewLongPond_lakelevel	52-OngokeLake_diatom_waterdepth	53-OregonCaves_d13C	54-ParadiseLake_d18O	55-PathLake_pollen_assemblage	56-Plaine_testate amoebae_assemblage	57-PuntaLaguna_d18O	58-RiceLake_MgCa	59-RoeIsland_d13C_salinity	60-SchellingsBogSB70_%pseudotsuga	60-SchellingsBogSB70_%quercus	61-Site4_pollen_assemblage	62-SouthBay_d13C-d18O_salinity	63-SteelLake_d18O	64-Sugluk_macrofossil_assemblage	65-UpperPinto_macrofossil_assemblage	66-WalkerLake_d18O	67-WolverineLake_MineralMAR	68-YellowBison_?d18O	69-ZacaLake_%coarse	
-100	0	-0.92311	-0.64287	0.857511	-1.82987	-6.04944	0.442996	-0.78959	-0.98772	-5.365018742	1.765605381	22.87087	-1	-0.62203	10.36697	-26.2427	2.985763	12.57549	9.944471	-0.86455	-5.05053	0.399543	9.719839	0.232718	0.007913	-1	1	-1	0.826924	-24.9474	-7.5898	-16.1873	103.3217	8.076644	0	0.885868	-11.9478	7.091258	0.010941	0.0546	0.784301	-0.20571	-0.2718	15.57165	33.37432	8.004532	3.119191	-11.289	1	7.870091	25.79171	-1	2.583847	-0.82669	-0.94718	5.809631	-4.90869	-17.4963	-0.30649	-1	-0.78496	0.021796	0	-1.97283	-3.2589	-0.00694	-0.71804	-9.74902	1	0.977688	-1.34714	-5.76293	2.839762	0.432199	
0	100	-0.88242	-0.32415	0.546633	-1.95302	-6.08236	0.172751	-0.68898	-0.99995	-5.30533781	1.796927357	23.05538	-1	-0.28673	10.90059	-26.5552	3.084132	12.79502	9.978083	-0.95203	-4.74957	0.688613	9.887316	0.208725	0.189652	-1	1	-1	0.668873	-24.3427	-8.13423	-16.2234	101.2551	7.851843	0	0.292299	-11.5232	7.120232	0.008939	0.050775	0.65487	-0.52836	-0.03622	15.536	31.59292	7.96359	3.047721	-11.6264	0.986482	7.794612	23.59828	-1	2.600434	-0.8792	-0.76781	5.810884	-5.13703	-17.6012	-0.40388	-1	-0.73609	0.021575	0	-1.98031	-3.26249	-6.2E-05	-0.86949	-9.89169	1	0.878853	-1.61177	-5.52494	2.80407	0.64297	
100	200	-0.89084	-0.06219	-0.18397	-1.87417	-6.0696	-0.05025	-0.6537	-0.99931	-5.310730872	2.109231472	23.25411	-1	0.087037	11.64489	-27.0169	3.105539	13.07365	10.14433	-1.26415	-5.2355	0.688206	10.32957	0.24395	0.697032	-1	1	-1	0.544696	-23.1454	-8.26468	-17.6439	95.41175	6.609425	-4E-05	-0.61735	-10.8708	6.372176	0.007049	0.083068	0.560047	-0.80085	-0.00145	15.18801	30.99743	7.930097	3.056591	-11.3156	0.69382	7.574247	18.91665	-0.73258	2.580689	-0.97402	-0.46261	5.820281	-5.36939	-17.4885	-0.15322	-1	-0.63372	0.021828	-0.00898	-2.26616	-3.20742	0	-0.9326	-9.72031	1	0.539991	-1.98502	-5.27508	2.732891	0.336488	
200	300	-0.82709	-0.00201	-0.77574	-1.66572	-6.0444	-0.34413	-0.72756	-0.92049	-5.26757299	2.374129057	23.29475	-1	0.461236	11.66348	-27.2392	3.111013	13.01207	10.34349	-1.18278	-4.73932	0.684587	10.7524	0.312889	0.346479	-1	1	-0.86677	0.385601	-23.6066	-8.09432	-17.3264	94.47282	4.770736	-0.00014	-0.97106	-10.182	5.680504	0.006795	0.094261	0.544651	-0.95121	0	14.96832	23.19638	7.89549	3.136647	-10.6822	-0.58471	7.568038	16.00559	-0.54426	2.574053	-0.99922	-0.20394	5.878584	-5.44891	-17.4681	0.171481	-1	-0.48201	0.022981	-0.2012	-2.70099	-3.1056	0	-0.80138	-9.64902	1	0.058947	-2.27338	-5.13796	2.634219	0.456653	
300	400	-0.65848	0	-0.97483	-1.80961	-5.99028	-0.53276	-0.71771	-0.34617	-5.220443241	1.902740915	23.21605	-1	0.887203	12.41626	-26.8949	3.086273	12.48683	10.34589	-0.74742	-4.32044	0.580674	11.04629	0.329116	-0.63249	-1	1	0.196117	0.252336	-23.9471	-8.02413	-17.415	98.1896	4.326315	-0.00088	-1	-9.59171	4.451902	0.005968	0.078147	0.586686	-0.99331	0	14.83374	20.02863	7.88303	3.257469	-10.2633	-0.91766	7.599391	14.79857	-0.35593	2.639537	-0.99388	0.039311	6.471699	-5.15883	-17.6387	0.358715	-1	-0.26816	0.02382	-0.70967	-3.06819	-2.99813	0	-0.21596	-9.99234	1	-0.66504	-2.59665	-5.14039	2.572738	0.458385	
400	500	-0.65336	0	-0.99888	-1.73295	-5.96271	-0.27907	-0.77389	-0.01087	-5.260900606	1.649480852	23.25882	-1	1	12.81106	-26.5838	3.036136	14.43409	10.50804	-0.59333	-3.8772	0.431231	11.01557	0.322962	-0.97938	-1	1	0.800444	0.118795	-24.9848	-8.01011	-16.7857	97.25252	5.114782	-0.00879	-0.99856	-9.73179	2.868948	0.006119	0.085221	0.847685	-0.99917	0	14.40105	31.13344	7.930163	3.369883	-10.2831	-0.45114	7.8677	15.58554	-0.16761	2.760186	-0.2303	0.301208	7.489753	-4.52845	-17.5393	0.360329	-1	-0.0753	0.023009	-0.97586	-3.19711	-2.92343	0	0.581851	-10.0863	1	-0.92687	-2.98472	-5.26561	2.56696	0.199905	
500	600	-0.47766	0	-0.99986	-1.90809	-6.00984	0.091956	-0.83867	-4.7E-05	-5.378052597	1.916603652	23.07	-1	1	12.42475	-26.746	3.039573	17.77659	10.9169	-0.97676	-3.48822	0.607005	10.99962	0.347171	-0.99975	-1	1	0.678595	0.039962	-27.4556	-7.94145	-17.6794	94.11035	6.462808	-0.05616	-0.5119	-11.283	2.357231	0.008723	0.103385	0.930077	-1	0	13.94825	36.76749	8.079363	3.435675	-10.5186	0.436553	8.080833	14.51889	0	2.880877	0.870193	0.565953	6.562744	-4.15186	-17.34	0.428608	-1	0.062989	0.020515	-0.93238	-3.11266	-2.92793	-0.00684	0.134509	-10.2561	1	-0.99775	-3.45125	-5.35561	2.550372	0.306133	
600	700	-0.58651	0	-1	-1.98016	-6.06928	-0.20262	-0.79614	0	-5.476918806	2.411383511	22.89984	-1	1	12.33696	-27.0124	2.973902	18.78802	11.0204	-0.94318	-4.14429	0.282301	10.9766	0.32317	-0.99994	-1	1	0.710751	0.007614	-28.0297	-7.91033	-18.6744	92.96023	6.985915	-0.17375	0.865415	-11.4316	1.416116	0.007252	0.133422	1.217437	-0.99767	0	13.68601	27.23507	8.391176	3.426158	-10.7985	0.931458	7.552577	11.67855	0	2.877927	0.999436	0.901432	6.333113	-4.23322	-17.1622	0.611964	-1	0.035996	0.020767	-0.29317	-2.93589	-2.98281	-0.04943	-0.92704	-10.2439	0.99995	-1	-4.13258	-4.94414	2.533639	0.328489	
700	800	-0.8644	0.001128	-0.99646	-2.52252	-6.09508	-0.30516	-0.83303	-0.00017	-5.521523414	3.099804758	22.86697	-1	1	12.41578	-27.4558	3.048571	18.71885	10.96697	-0.71753	-4.69137	0.023138	10.82646	0.315841	-1	-1	1	0.696396	0	-27.185	-7.76385	-18.3634	95.05303	6.327172	-0.39175	0.380036	-8.74405	-0.17944	0.005897	0.246244	1.330203	-0.95885	0	13.65326	23.04762	8.850521	3.360066	-11.0134	0.989618	7.38875	11.66908	0	2.657898	0.984743	0.993894	6.568028	-4.00836	-16.8917	0.633586	-1	-0.0818	0.022771	0.369733	-2.82808	-3.00578	-0.20228	-0.94426	-10.0502	0.946734	-1	-5.33209	-5.34283	2.434236	0.245911	
800	900	-0.92492	0.008929	-0.92599	-2.63517	-6.10177	-0.27213	-0.91044	-0.05268	-5.590016422	3.623305224	22.98506	-0.99997	1	11.55659	-27.5351	3.045961	18.46785	10.86882	-0.59102	-4.67334	0.021281	10.40344	0.385341	-1	-1	1	0.811012	-0.01541	-26.8389	-7.98538	-18.097	98.95032	4.927697	-0.63744	-0.71948	-9.06181	-0.22309	0.004873	0.196083	1.271015	-0.77192	0	13.43264	20.25234	9.282929	3.257496	-10.9763	0.819536	7.311128	15.51057	-0.23333	2.466	0.903909	0.999903	7.141768	-3.42263	-16.6857	0.824619	-0.99592	0.179925	0.023367	0.848653	-2.72193	-2.94283	-0.51606	-0.59419	-9.87389	-0.02801	-1	-6.61861	-5.26062	2.246121	0.376362	
900	1000	-0.97889	0.248971	-0.62963	-2.8221	-6.08836	-0.26778	-1.05003	-0.58675	-5.586790601	2.725707559	23.08371	-0.99985	1	10.68273	-26.9699	2.978826	18.01593	10.61225	-0.65059	-4.04147	0.039531	9.990398	0.392014	-0.99989	-1	1	0.94499	-0.31329	-27.5533	-8.06424	-18.2436	99.65691	4.016861	-0.84326	-0.98561	-8.06076	0.140184	0.005139	0.259447	0.998858	-0.37615	0	12.65357	21.66855	9.408936	3.045538	-10.8536	-0.02266	7.005474	20.90801	-0.70952	2.287803	0.984601	1	6.694524	-3.1179	-16.5433	0.562126	-0.69648	0.256049	0.02037	0.992943	-2.59403	-2.87348	-0.82262	0.275148	-9.91456	-0.90322	-1	-7.50635	-4.25964	2.304961	0.312948	
1000	1100	-1.17549	0.896448	0.166218	-3.0086	-6.09166	-0.28543	-1.05727	-0.8214	-5.310767293	1.865898209	22.86548	-0.997	1	10.35532	-26.7505	3.07734	17.48534	10.86802	-0.81828	-4.42655	0.013326	9.678798	0.515923	-0.9948	-1	1	0.992425	-0.62036	-28.582	-8.07298	-18.2715	104.9436	3.712887	-0.96307	-0.71276	-7.54383	0.158733	0.005821	0.181217	1.037717	-0.00849	0	11.8765	21.59966	9.409647	2.617499	-11.4577	-0.78653	6.900566	23.53898	-0.72942	2.161505	0.999916	1	7.0499	-3.30588	-16.4594	0.372169	0.21508	0.087092	0.02014	0.939809	-2.56627	-2.8724	-0.96634	0.809018	-10.2217	-0.49007	-1	-6.814	-4.05774	2.863896	0.495503	
1100	1200	-1.37377	0.995407	0.902564	-2.93026	-5.97668	-0.27212	-1.01608	-0.15423	-5.053478956	1.950371211	22.81622	-0.98451	1	10.36666	-27.3822	3.034738	17.55816	11.73857	-0.17083	-3.7947	0.046738	9.83284	0.557966	-0.82056	-1	0.996128	0.883398	-0.96424	-29.7486	-8.04861	-18.2584	106.674	3.774682	-0.99574	0.560591	-9.37659	0.831947	0.008007	0.074817	0.807612	0.36652	0	11.62194	10.67635	9.153097	2.053627	-12.5198	-0.97534	7.295371	26.30829	-0.23625	1.648579	1	1	6.892798	-3.65852	-16.438	0.703271	0.901257	-0.62317	0.022438	0.349244	-2.69508	-2.87027	-0.96806	0.365709	-9.86422	0.438606	-1	-6.14394	-4.09077	3.332518	0.592723	
1200	1300	-1.09773	0.999953	0.999338	-2.9228	-5.93606	-0.19496	-1.0882	-0.304	-5.367250531	2.017544675	22.99018	-0.92799	0.999001	10.26715	-27.2395	3.127725	18.90577	11.60302	-0.48723	-4.62592	0.084691	10.16095	0.559726	-0.06589	-1	0.40605	0.143059	-0.67863	-30.5481	-8.04873	-18.2351	101.8442	4.318302	-0.99997	0.999001	-8.73197	0.490082	0.01174	0.059695	1.270909	0.798937	0	12.07543	17.08781	8.972283	1.902924	-13.1834	-0.99942	7.499287	29.28486	-1	1.756696	1	0.998044	6.741145	-3.49189	-16.4089	0.330947	0.99868	-0.34475	0.023147	-0.73688	-3.13862	-2.70225	-0.90423	-0.43967	-9.71884	0.520376	-1	-5.16937	-4.90575	3.092829	0.569976	
1300	1400	-0.67506	1	1	-2.67592	-5.9582	-0.12816	-1.15343	-0.94272	-5.197908812	2.780196209	23.10678	-0.69408	0.733385	10.49887	-26.6099	3.098615	19.49794	10.9039	-0.27003	-4.31375	0.220068	10.37573	0.338597	0.672111	-1	-0.94749	-0.63902	-0.02088	-26.0791	-8.15855	-18.16	95.77157	5.092236	-1	1	-8.32444	0.95801	0.009807	0.057615	1.564185	0.996219	0.005386	12.42861	25.15229	9.138894	2.317827	-12.6733	-1	7.418212	28.22347	-1	2.143279	0.996803	0.967086	6.412514	-3.35271	-16.4079	0.318343	1	-0.22828	0.02064	-0.84713	-3.43965	-2.40697	-0.01863	0.038589	-10.3154	-0.71582	-1	-4.50034	-5.64741	2.933829	0.593024	
1400	1500	0.08543	0.999481	1	-2.78145	-6.03008	-0.03481	-1.14793	-0.49081	-4.95061354	4.371104337	23.22131	-0.43901	0.025939	11.48326	-26.4373	3.133426	18.00665	10.56627	-0.74411	-3.87849	0.115367	10.66148	0.561433	0.944864	-0.98299	-1	-0.42719	0.202426	-23.3689	-8.28971	-18.1234	89.59077	6.006894	-1	1	-10.5941	4.874867	0.008285	0.052267	1.297763	1	0.60783	12.33146	24.12328	9.438434	2.458659	-11.8148	-1	7.483864	26.01655	0.28899	2.298512	0.416299	0.709538	6.019962	-3.38006	-16.3991	0.197695	1	-0.16514	0.02233	0.057677	-3.51416	-2.14156	0.912786	0.79545	-10.4323	-1	-1	-5.43058	-5.94131	3.223043	0.747045	
1500	1600	1.2907	0.917301	0.9993	-2.64524	-6.08706	0.437178	-1.18131	-0.65597	-5.493971554	5.072437881	23.24001	-0.19369	-0.64386	12.23454	-26.5147	3.042875	15.23704	10.76878	-0.59304	-4.05772	0.105997	11.01555	0.57441	0.888158	-0.83537	-0.99912	0.158284	-0.00053	-23.92	-8.09552	-17.9804	83.76357	6.955881	-0.99914	0.999367	-12.2921	5.267964	0.012974	0.047672	1.280843	1	0.998312	12.05382	22.2302	9.726472	2.333411	-10.9448	-1	8.005136	27.68167	-0.28138	2.144714	-0.75909	0.392189	5.678883	-3.4687	-16.3677	-0.00571	1	-0.54833	0.026225	0.480211	-3.38757	-2.16757	0.955028	0.973469	-10.0211	-1	-1	-4.4734	-5.75718	3.489576	0.614297	
1600	1700	1.55144	0.392007	0.940395	-2.90159	-6.109	0.534021	-1.36491	-0.01331	-5.084170444	4.710305996	23.14851	0.048643	-0.74513	11.81387	-27.0785	3.114057	14.76653	10.82003	-0.39923	-4.20956	0.117332	11.19756	0.479893	0.38998	-0.52564	-0.87292	0.652065	-0.49417	-23.3988	-7.8784	-17.7131	79.26593	7.706855	-0.98905	0.881925	-12.3873	6.566536	0.013167	0.039617	1.313663	1	0.992331	11.9066	20.478	9.977042	2.343621	-11.9558	-1	8.856097	30.41368	0.265306	1.8268	-0.54366	0.138687	5.409883	-3.52718	-16.2962	-0.06931	1	-0.52215	0.024138	-0.69698	-3.27576	-2.47252	0.619968	0.954025	-9.93154	-1	-1	-4.58407	-5.31207	3.512934	1.107146	
1700	1800	1.25664	0.070531	0.475579	-2.84887	-6.00696	0.763383	-1.60195	0	-5.194156756	5.514655253	23.03774	0.29617	-0.22784	11.67317	-27.8563	3.104488	15.29502	11.05867	-0.46839	-4.85212	0.07089	11.42867	0.41415	-0.42388	-0.08652	-0.00371	0.891725	-0.84713	-23.2887	-8.07113	-17.7104	76.32357	8.237825	-0.91651	-0.3029	-12.9957	7.527231	0.014918	0.032642	1.596657	1	0.911334	12.09556	18.06436	10.28041	3.94859	-9.86487	-1	9.719704	33.57075	-1	1.776853	0.516595	-0.14264	5.242685	-3.48914	-16.2314	-0.08441	0.947178	-0.70609	0.019829	-0.33099	-3.19435	-2.64153	-0.02335	0.627439	-10.4894	-1	-1	-5.08298	-4.49958	3.546145	0.50982	
1800	1900	1.01917	0.00123	-0.45211	-2.85014	-6.19673	0.382241	-1.47313	0	-5.462963003	4.603443167	22.89124	0.545498	0.220661	11.65196	-28.1911	3.119624	16.13915	11.7964	-0.70957	-4.22274	0.087501	11.76487	0.243845	-0.87995	0.308805	0.849455	0.975476	-0.96986	-25.2768	-7.86666	-18.8425	77.45686	8.121665	-0.5225	0.667809	-13.4571	7.438712	0.01775	0.03119	1.582219	1	0.438351	12.5937	16.7972	10.75511	4.028784	-9.28341	-0.83593	10.44849	32.94053	-1	2.192255	0.948812	-0.44673	5.525332	-3.47697	-16.3277	-0.13061	0.232117	-0.63197	0.020544	0.570397	-3.26431	-2.82076	-0.76471	-0.28447	-10.5759	-1	-1	-3.92209	-3.90896	3.879732	0.459663