Property:HasValue (L)

Property: HasValue (L) [1]

Imported from: core:hasValue (core | Linked Earth Core)

Answers the question: What are the numerical values of the Variable, Uncertainty, and Model outputs?

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A
Africa 004.temperature.Uncertainty +	Analytical error on the basis of duplicate measurements (and corrected for n=2) was ±0,1°C. This error is compounded with the leave-one-out calibration error 0,4°C to give a total 95% error of ±0,4°C. +
Africa 005.upper95.Uncertainty +	Analytical error on the basis of duplicate measurements (and corrected for n=2) was ±0,1°C. This error is compounded with the leave-one-out calibration error 0,4°C to give a total 95% error of ±0,4°C. +
Africa 006.lower95.Uncertainty +	Analytical error on the basis of duplicate measurements (and corrected for n=2) was ±0,1°C. This error is compounded with the leave-one-out calibration error 0,4°C to give a total 95% error of ±0,4°C. +
Ant 012.d18O.Uncertainty +	0.05 per mil (+/-) +
Ant 013.dD.Uncertainty +	0.5 per mil (+/-) +
Ant 025.d18O.Uncertainty +	0.05 per mil (+/-) +
Ant 026.dD.Uncertainty +	0.5 per mil (+/-) +
Ant 037.d18O.Uncertainty +	0.1 +
Ant 050.d18O.Uncertainty +	0.1 +
Arc 007.temperature.Calibration.Uncertainty +	34 +
Arc 036.temperature.Calibration.Uncertainty +	1 +
Arc 037.temperature.Calibration.Uncertainty +	0.75 +
Arc 045.temperature.Calibration.Uncertainty +	0.91 +
Arc 065.d18O.Uncertainty +	N/A +
Arc 073.temperature.Calibration.Uncertainty +	0.8 +
Arc 074.uncertainty temperature.Uncertainty +	RMSEP +
Arc 079.temperature.Calibration.Uncertainty +	1.3 +
Arc 088.thickness.Uncertainty +	N/A +
Arc 089.d18O.Uncertainty +	N/A +
Arc 090.Na.Uncertainty +	N/A +
Arc 091.temperature.Uncertainty +	N/A +
Arc 093.trsgi.Uncertainty +	0.86 +
Arc 094.temperature.Uncertainty +	N/A +
Arc 096.d18O.Uncertainty +	1.24 +
Arc 099.melt.Uncertainty +	N/A +
Arc 101.uncertainty temperature.Uncertainty +	1sd +
Arc 151.d18O.Uncertainty +	N/A +
Asia 230.temperature.Uncertainty +	N/A +
Asia 233.trsgi.Uncertainty +	N/A +
Asia 235.temperature.Uncertainty +	N/A +
Asia 335.temperature.Calibration.Uncertainty +	0.5-0.9 degC +
Asia 335.temperature.Uncertainty +	0.689 (avg) +
Aus 010.trsgi.Uncertainty +	N/A +
Aus 015.trsgi.Uncertainty +	N/A +
Aus 020.trsgi.Uncertainty +	N/A +
Aus 041.temperature.Uncertainty +	N/A +
Aus 062.trsgi.Uncertainty +	N/A +
Aus 067.trsgi.Uncertainty +	N/A +
Aus 071.trsgi.Uncertainty +	N/A +
E
Eur 003.temperature.Calibration.Uncertainty +	1.5 +
Eur 006.temperature.Calibration.Uncertainty +	2.3 +
Eur 007.temperature.Calibration.Uncertainty +	0.88 +
Eur 010.temperature.Calibration.Uncertainty +	Not provided +
Eur 022.temperature.Calibration.Uncertainty +	0.34 +
Eur 024.temperature.Calibration.Uncertainty +	0.7 +
Eur 026.temperature.Calibration.Uncertainty +	3 +
Eur 026.temperature.Uncertainty +	ice break-up: 1 deg C; max. 3 deg C; rye harvest: 0.4-06. deg C +
Eur 027.JulianDay.Uncertainty +	ice break-up: difference is only 1.3 days with a standard deviation of 8.5 days +
I
InstituteofGeoscience.CAU.ICPOES.Uncertainty1 +	0.1 +
L
LPD016ef221.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD09e5a770.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD0e0867fe.temperature.Calibration.Uncertainty +	1.5 +
LPD0e0867fe.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk’37-0.044)/0.033, (Müller et al., (1998); global (60S-60N), 0-29ºC, annual at 0 m, n=370, R2=0.958) +
LPD10e9f8f7.temperature.Calibration.Uncertainty +	1.5 +
LPD10e9f8f7.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk?37-0.044)/0.033, (M�ller et al., (1998); global (60S-60N), 0-29�C, annual at 0 m, n=370, R2=0.958) +
LPD13a78f9b.temperature.Calibration.Uncertainty +	1.5 +
LPD13a78f9b.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD16c5b9d8.temperature.Uncertainty +	MUE1998 +
LPD1a0245b7.temperature.Calibration.Uncertainty +	1 +
LPD1a0245b7.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD2a3997a7.temperature.Calibration.Uncertainty +	2.2 +
LPD2a3997a7.temperature.Uncertainty +	KIM2008: SST (¡C)= (0.0125*TEX86)+0.3038, (Kim et al., (2008), error ±2.2¡C) +
LPD30c5b95c.temperature.Calibration.Uncertainty +	1.2 +
LPD30c5b95c.temperature.Uncertainty +	DEK2002: Mg/Ca=0.38exp(0.09[SST-0.61 (core depth km)]), (Dekens et al., (2002); core tops; G ruber) +
LPD34478ed4.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD44e382ee.temperature.Uncertainty +	BAR2005: Mg/Ca=0.794exp(0.10SST), (Barker et al., (2005), in combination with Thornalley et al., (2009); error ±1.3°C) +
LPD4dd77d54.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk’37-0.044)/0.033, (Müller et al., (1998); global (60S-60N), 0-29ºC, annual at 0 m, n=370, R2=0.958) +
LPD572f7cc3.temperature.Calibration.Uncertainty +	NaN +
LPD572f7cc3.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD57d40973.temperature.Uncertainty +	BLA2007: Mg/Ca=0.048exp(0.173SST), (Black et al., (2007); G. bulloides) +
LPD5c89a1b5.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25¼C, n=22; R2=0.994) +
LPD6315f935.temperature.Calibration.Uncertainty +	1.9 +
LPD6315f935.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25¼C, n=22; R2=0.994) +
LPD6dbf8788.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk?37-0.044)/0.033, (M�ller et al., (1998); global (60S-60N), 0-29�C, annual at 0 m, n=370, R2=0.958) +
LPD708fb697.temperature.Uncertainty +	T=5.78 x ln(Mg/Ca) + 17.56 +
LPD716b88d0.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD7c7e19c5.temperature.Calibration.Uncertainty +	1.5 +
LPD7c7e19c5.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD7cf4e05b.temperature.Uncertainty +	Calibration based on local observations +
LPD7e8e8eaa.temperature.Calibration.Uncertainty +	1.2 +
LPD7e8e8eaa.temperature.Uncertainty +	DEK2002: Mg/Ca=0.38exp(0.09[SST-0.61 (core depth km)]), (Dekens et al., (2002); core tops; G ruber) +
LPD806644b2.temperature.Uncertainty +	DEK2002: Mg/Ca=0.38exp(0.09[SST-0.61 (core depth km)]), (Dekens et al., (2002); core tops; G ruber) +
LPD84ab67b9.temperature.Calibration.Uncertainty +	0.6 +
LPD84ab67b9.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk37-0.039)/(0.034), [Prahl et al., 1988; cultures E. huxleyi, 8-25�C, n=22; R2=0.994] +
LPD9b023bc9.temperature.Calibration.Uncertainty +	1.5 +
LPD9b023bc9.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPD9cc3baf6.temperature.Calibration.Uncertainty +	1.2 +
LPD9cc3baf6.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPDa03ec713.temperature.Calibration.Uncertainty +	4.1 +
LPDa03ec713.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPDa2107e77.temperature.Calibration.Uncertainty +	4.1 +
LPDa2107e77.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPDa77273bb.temperature.Calibration.Uncertainty +	1.5 +
LPDa77273bb.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk’37-0.044)/0.033, (Müller et al., (1998); global (60S-60N), 0-29ºC, annual at 0 m, n=370, R2=0.958) +
LPDa97364db.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPDasan2012.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk’37-0.044)/0.033, (Müller et al., (1998); global (60S-60N), 0-29ºC, annual at 0 m, n=370, R2=0.958) +
LPDb17a5e9e.temperature.Calibration.Uncertainty +	1.3 +
LPDb17a5e9e.temperature.Uncertainty +	BAR2005: Mg/Ca=0.794exp(0.10SST), (Barker et al., (2005), in combination with Thornalley et al., (2009); error ±1.3°C) +
LPDb44bf261.temperature.Uncertainty +	BLA2007: Mg/Ca=0.048exp(0.173SST), (Black et al., (2007); G. bulloides) +
LPDb7ba9166.temperature.Calibration.Uncertainty +	1.5 +
LPDb7ba9166.temperature.Uncertainty +	MUE1998 +
LPDbd07f717.temperature.Calibration.Uncertainty +	1 +
LPDbd07f717.temperature.Uncertainty +	vLA2005: Mg/Ca=0.51exp(0.10T), (von Langen et al., (2005); N. pachyderma) +
LPDc07746c5.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPDc08ab49e.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk37-0.039)/(0.034), [Prahl et al., 1988; cultures E. huxleyi, 8-25�C, n=22; R2=0.994] +
LPDcda1c277.temperature.Calibration.Uncertainty +	1.2 +
LPDcda1c277.temperature.Uncertainty +	DEK2002: Mg/Ca=0.38exp(0.09[SST-0.61 (core depth km)]), (Dekens et al., (2002); core tops; G ruber) +
LPDd95394f2.temperature.Uncertainty +	vLA2005: Mg/Ca=0.51exp(0.10T), (von Langen et al., (2005); N. pachyderma) +
LPDe51d17e8.temperature.Calibration.Uncertainty +	0.35 +
LPDe51d17e8.temperature.Uncertainty +	T=5.78 x ln(Mg/Ca) + 17.56 +
LPDe6c52b99.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPDefb3d2b0.temperature.Calibration.Uncertainty +	1.5 +
LPDefb3d2b0.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LPDf7bace53.temperature.Calibration.Uncertainty +	1.5 +
LPDf7bace53.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
LSCE.ICPOES.Uncertainty1 +	0.4 +
LSCE.MassSpectrometer1.Uncertainty1 +	0.05 +
LSCE.MassSpectrometer2.Uncertainty1 +	0.05 +
M
Malawi05.temperature.Calibration.Uncertainty +	3.7 +
N
NAm 3796.temperature.Calibration.Uncertainty +	time-varying +
NAm 3798.temperature.Calibration.Uncertainty +	0.7 +
NAm 3801.temperature.Calibration.Uncertainty +	0.9 +
NAm 3804.temperature.Calibration.Uncertainty +	0.9 +
NAm 3807.temperature.Calibration.Uncertainty +	0.9 +
NAm 3810.temperature.Calibration.Uncertainty +	0.7 +
NAm 3851.temperature.Calibration.Uncertainty +	0.9 +
NAm 3867.temperature1.Calibration.Uncertainty +	0.5 +
NAm 3868.temperature.Calibration.Uncertainty +	1.1 +
O
O2kLR 007.temperature.Uncertainty +	PFL1996: SIMMAX, Modern Analogue Technique, (Pflaumann et al., (1996)) +
O2kLR 009.temperature.Uncertainty +	PFL1996: SIMMAX, Modern Analogue Technique, (Pflaumann et al., (1996)) +
O2kLR 017.temperature.Uncertainty +	BLA2007: Mg/Ca=0.048exp(0.173SST), (Black et al., (2007); G. bulloides) +
O2kLR 019.temperature.Uncertainty +	BLA2007: Mg/Ca=0.048exp(0.173SST), (Black et al., (2007); G. bulloides) +
O2kLR 030.temperature.Calibration.Uncertainty +	0.7 +
O2kLR 030.temperature.Uncertainty +	PRA&WAK1987: T(cultures) = (UK37+0.11)/0.04, (Prahl & Wakeham, (1987); cultures E. huxleyi, 8-25ºC, n=5; R2=0.989) +
O2kLR 032.temperature.Uncertainty +	PRA&WAK1987: T(cultures) = (UK37+0.11)/0.04, (Prahl & Wakeham, (1987); cultures E. huxleyi, 8-25ºC, n=5; R2=0.989) +
O2kLR 045.temperature.Calibration.Uncertainty +	0.6 +
O2kLR 045.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 046.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 047.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 048.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 066.temperature.Calibration.Uncertainty +	1.5 +
O2kLR 066.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
O2kLR 068.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
O2kLR 074.temperature.Calibration.Uncertainty +	0.6 +
O2kLR 074.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), [Prahl et al., 1988; cultures E. huxleyi, 8-25ºC, n=22; R2=0.994] +
O2kLR 076.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), [Prahl et al., 1988; cultures E. huxleyi, 8-25ºC, n=22; R2=0.994] +
O2kLR 082.temperature.Uncertainty +	Warm and cold season SST estimates were calculated from the census count data using the F139 transfer function derived from faunal analysis of 191 Atlantic core tops (15, 16). Standard errors of estimate for the F139- derived warm and cold season SSTs are 1.6° and 1.3°C, respectively. +
O2kLR 084.temperature.Uncertainty +	Warm and cold season SST estimates were calculated from the census count data using the F139 transfer function derived from faunal analysis of 191 Atlantic core tops (15, 16). Standard errors of estimate for the F139- derived warm and cold season SSTs are 1.6° and 1.3°C, respectively. +
O2kLR 101.temperature.Calibration.Uncertainty +	1.3 +
O2kLR 101.temperature.Uncertainty +	CLE2008: Mg/Ca=0.78(±0.04)exp (0.051(±0.003)T), (Cléroux et al., (2008); error ±1.3°C) but it is actually Mg/Ca=0.76(±0.04)exp (0.070(±0.003)T) accroding to Cleroux et al., 2012 +
O2kLR 105.temperature.Calibration.Uncertainty +	1.2 +
O2kLR 105.temperature.Uncertainty +	PRA&WAK1987: T(cultures) = (UK37+0.11)/0.04, (Prahl & Wakeham, (1987); cultures E. huxleyi, 8-25ºC, n=5; R2=0.989) +
O2kLR 107.temperature.Uncertainty +	PRA&WAK1987: T(cultures) = (UK37+0.11)/0.04, (Prahl & Wakeham, (1987); cultures E. huxleyi, 8-25ºC, n=5; R2=0.989) +
O2kLR 112.temperature.Calibration.Uncertainty +	1.5 +
O2kLR 112.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk’37-0.044)/0.033, [Müller et al., 1998; global (60S-60N), 0-29ºC, annual at 0 m, n=370, R2=0.958] +
O2kLR 113.temperature.Uncertainty +	MUE1998: T(sediments) = (Uk’37-0.044)/0.033, [Müller et al., 1998; global (60S-60N), 0-29ºC, annual at 0 m, n=370, R2=0.958] +
O2kLR 114.temperature.Uncertainty +	SON1997: T(sediments) = (Uk'37-0.316)/(0.023) +
O2kLR 116.temperature.Uncertainty +	SON1997: T(sediments) = (Uk'37-0.316)/(0.023) +
O2kLR 118.temperature.Calibration.Uncertainty +	1.2 +
O2kLR 118.temperature.Uncertainty +	DEK2002: Mg/Ca=0.38exp(0.09[SST-0.61 (core depth km)]), (Dekens et al., (2002); core tops; G ruber) +
O2kLR 120.temperature.Uncertainty +	DEK2002: Mg/Ca=0.38exp(0.09[SST-0.61 (core depth km)]), (Dekens et al., (2002); core tops; G ruber) +
O2kLR 131.temperature.Calibration.Uncertainty +	1 +
O2kLR 131.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
O2kLR 135.temperature.Calibration.Uncertainty +	1.5 +
O2kLR 135.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
O2kLR 137.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
O2kLR 146.temperature.Calibration.Uncertainty +	1.7 +
O2kLR 146.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 147.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 148.temperature.Calibration.Uncertainty +	1 +
O2kLR 148.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
O2kLR 149.temperature.Uncertainty +	ANA2003: Mg/Ca=0.38exp(0.09SST), multiple species; Mg/Ca =0.449exp(0.09SST), G ruber, (Anand et al., (2003); sediment trap; error ±1.2°C) +
O2kLR 150.temperature.Calibration.Uncertainty +	0.3 +
O2kLR 150.temperature.Uncertainty +	ALI1997: Sr/Ca SST sensitivity = -0.0615 mmol/mol/°C, (Alibert and McCulloch (1997)). Average Sr/Ca sd between replicated coral samples is equivalent to 0.15°C (sd = 4.6 Greek Letter Mumol/mol, total n = 550; internal laboratory standard, sd = 3 Greek Letter Mumol/mol, n = 21). The SrCaSST_anomaly data were converted to a pseudo SST. Sr/Ca were normalised to 1985-1860 by subtracting the mean Sr/Ca value for this interval (verified with lead author Erica Hendy). To estimate absolute SST the mean ERSSTv3b value (26deg C) for 148E, 18S (the nearest grid square to the corals' location) was added to the SrCaSST_anomaly. +
O2kLR 152.temperature.Uncertainty +	ALI1997: Sr/Ca SST sensitivity = -0.0615 mmol/mol/°C, (Alibert and McCulloch (1997)). Average Sr/Ca sd between replicated coral samples is equivalent to 0.15°C (sd = 4.6 Greek Letter Mumol/mol, total n = 550; internal laboratory standard, sd = 3 Greek Letter Mumol/mol, n = 21). +
O2kLR 165.temperature.Uncertainty +	KIM2010: SST=(68.4*TEX86H)+38.6 +
O2kLR 166.temperature.Uncertainty +	KIM2010: SST=(68.4*TEX86H)+38.6 +
O2kLR 175.temperature.Calibration.Uncertainty +	1.9 +
O2kLR 175.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034) +
O2kLR 177.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034) +
O2kLR 183.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25�C, n=22; R2=0.994) +
O2kLR 184.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25�C, n=22; R2=0.994) +
O2kLR 187.temperature.Calibration.Uncertainty +	1.7 +
O2kLR 187.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 189.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25ºC, n=22; R2=0.994) +
O2kLR 195.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25¼C, n=22; R2=0.994) +
O2kLR 197.temperature.Uncertainty +	PRA1988: T(cultures) = (Uk'37-0.039)/(0.034), (Prahl et al., (1988); cultures E. huxleyi, 8-25¼C, n=22; R2=0.994) +
P
PYT0KEXC0XJ.ghostMeasured.Calibration.Uncertainty +	1 +
PYT10B6Y9V4.ghostMeasured.Calibration.Uncertainty +	1.5 +
PYT12QVFS7Q.n. dutertrei d18o.Uncertainty1 +	0.06 +
PYT1998ADGV.uk37.Uncertainty1 +	0.015 +
PYT22RKLEGF.ghostMeasured.Calibration.Uncertainty +	1 +
PYT2SGXNF4F.ghostMeasured.Calibration.Uncertainty +	0.9 +
PYT3L6BW4OB.d18og.Uncertainty1 +	0.06 +
PYT56FXLTUB.g. bulloides d18o.Uncertainty1 +	0.08 +
PYT6AW96C94.ghostMeasured.Calibration.Uncertainty +	34 +
PYT6K1XJRVM.mg/ca-g.rub-w.Uncertainty1 +	0.2 +
PYT73UN1SLP.d18og.rub-w.Uncertainty1 +	0.14 +
PYT76E5TNZE.ghostMeasured.Calibration.Uncertainty +	1.5 +
PYT80EV07EP.ghostMeasured.Calibration.Uncertainty +	1.2 +
PYT8WER669G.sst.Uncertainty1 +	0.7 +
PYT9ZQY27J1.ghostMeasured.Calibration.Uncertainty +	0.88 +
PYTAJX0TLLO.n. dutertrei d13c.Uncertainty1 +	0.03 +
PYTBH59XDH0.d18og.rub.Uncertainty1 +	0.11 +
PYTD1SMFYJP.ghostMeasured.Calibration.Uncertainty +	1 +
PYTDLHZTMUC.u. peregrina d13c.Uncertainty1 +	0.03 +
PYTDTZ5QPCK.ghostMeasured.Calibration.Uncertainty +	0.6 +
PYTEM6NA7PQ.g. ruber d18o.Uncertainty1 +	0.035 +
PYTF5GXE39R.d18oc.mund.Uncertainty1 +	0.14 +
PYTFSXYJF6G.mg/ca.Uncertainty1 +	5 +
PYTFSXYJF6G.mg/ca.Uncertainty2 +	0.08 +
PYTGQBFK15X.ghostMeasured.Calibration.Uncertainty +	1.7 +
PYTH3UK1UX7.ghostMeasured.Calibration.Uncertainty +	1.3 +
PYTHO7UXES4.mg/ca-g.rub.Uncertainty1 +	0.171 +
PYTIXVJNKHA.ghostMeasured.Calibration.Uncertainty +	0.7 +
PYTJH1XIT33.ghostMeasured.Calibration.Uncertainty +	1.2 +
PYTJLH964TI.g. ruber w d18o.Uncertainty1 +	0.06 +
PYTKD15BWU0.ghostMeasured.Calibration.Uncertainty +	1.2 +
PYTKNSBHC06.sst.Calibration.Uncertainty1 +	1.0 +
PYTKNSBHC06.sst.Uncertainty1 +	1 +
PYTL017TPSU.g. ruber w d13c.Uncertainty1 +	0.03 +
PYTLH2BAXSE.ghostMeasured.Calibration.Uncertainty +	0.91 +
PYTLMADKXWD.ghostMeasured.Calibration.Uncertainty +	1 +
PYTN6S89XLT.ghostMeasured.Calibration.Uncertainty +	0.6 +
PYTN8GRCHGY.sst.Uncertainty1 +	0.2 +
PYTNB5LVVL4.ghostMeasured.Calibration.Uncertainty +	0.9 +
PYTNLEGV265.ghostMeasured.Calibration.Uncertainty +	0.7 +
PYTNSM86JHC.ghostMeasured.Calibration.Uncertainty +	0.34 +
PYTOH600XJ7.d18oc.mund.Uncertainty1 +	0.14 +
PYTPLLTM5CB.ghostMeasured.Calibration.Uncertainty +	0.75 +
PYTQ735DYW9.ghostMeasured.Calibration.Uncertainty +	Not provided +
PYTQF21HJNC.subt.Uncertainty1 +	2.8 +
PYTRJ3OFZP2.ghostMeasured.Calibration.Uncertainty +	1.5 +
PYTSB1CKEYV.ghostMeasured.Calibration.Uncertainty +	0.7 +
PYTSPUYILZW.u. peregrina d18o.Uncertainty1 +	0.06 +
PYTT10XQRQB.mg/ca.Uncertainty1 +	0.11 +
PYTUEEH8Q2L.ghostMeasured.Calibration.Uncertainty +	2.3 +
PYTV0ZXFVEH.ghostMeasured.Calibration.Uncertainty +	1.5 +
PYTVH8NB95K.ghostMeasured.Calibration.Uncertainty +	1.2 +
PYTVUTGRE9G.mg/ca.Uncertainty1 +	4 +
PYTVWXU47PR.ghostMeasured.Calibration.Uncertainty +	1.5 +
PYTW0D8MOY6.d18og.rub.Uncertainty1 +	0.06 +
PYTWCPO4MJI.ukprime37.Uncertainty1 +	0.003 +
PYTWUMOXKFD.ghostMeasured.Calibration.Uncertainty +	1.7 +
PYTX2NT5YFB.ghostMeasured.Calibration.Uncertainty +	1.3 +
S
SAm 024.temperature.Calibration.Uncertainty +	RMSE +
SAm 0241.temperature1.Calibration.Uncertainty +	RMSE +
SAm 0242.temperature2.Calibration.Uncertainty +	RMSE +
SAm 0243.temperature3.Calibration.Uncertainty +	RMSE +

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