Search by property

Jump to: navigation, search

This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

Search by property

A list of all pages that have property "QCnotes" with value "Early series sample depth problems". Since there have been only a few results, also nearby values are displayed.

Showing below up to 222 results starting with #1.

View (previous 250 | next 250) (20 | 50 | 100 | 250 | 500)

    

List of results

    • Arc 008.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 049.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 050.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 051.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 052.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 053.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 054.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 055.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 056.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 057.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 058.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 059.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 060.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 061.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 067.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 068.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 069.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 070.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 071.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 074.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 075.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 076.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 077.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 078.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 079.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 080.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 081.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 082.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 083.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 084.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 085.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 087.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 089.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 090.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 091.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 093.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 096.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 098.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 099.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 101.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 102.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 125.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 126.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 127.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 129.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 130.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 134.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 135.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 144.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 150.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 151.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 152.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 153.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 154.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 155.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 156.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 157.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 158.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 163.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 164.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 165.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 166.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 167.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 168.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 169.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 170.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 171.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 172.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 173.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 174.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 175.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 176.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 177.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 178.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 179.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 180.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 181.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 182.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 184.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 185.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 186.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 187.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 188.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 189.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 190.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 202.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 206.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 207.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 208.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 209.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 214.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 215.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 216.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 217.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 218.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 222.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 223.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 224.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 225.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • LPDdc74a376.temperature  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • NAm 436.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • NAm 448.trsgi  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • NAm 460.MXD  + (Elevation estimated from GoogleEarth; rounded to 100 m)
    • Eur 023.sampleID  + (Excluded related to sample information and error estimates)
    • Eur 025.uncertainty temperature  + (Excluded related to sample information and error estimates)
    • NAm 2572.MXD  + (Fails local climate correlation test, but a long timeseries with a decent field correlation…)
    • Arc 043.d18O  + (Fisher et al report episodic scouring of winter snow, some random warm bias in the isotopic signal)
    • Arc 044.d18O  + (Fisher et al report episodic scouring of winter snow, some random warm bias in the isotopic signal)
    • Eur 022.temperature  + (For overlapping period (1760-1854) the doc
      For overlapping period (1760-1854) the documentary data series correlate with instrumental temperatures most strongly in winter (86% explained variance in January) and least in autumn (56% in September). For annual average temperatures 81% of the variance is explained. Elevation estimated from GoogleEarth; rounded to 100 m
      timated from GoogleEarth; rounded to 100 m)
    • O2kLR 007.temperature  + (HVM, BM, 20/4/2016 Arctic1148Spielhagen2011_forams_SIMMAX, at 50 m_summer We used the SIMMAX data due to its higher resolution, and due to the poorer sensitivity of the Mg/Ca data as reported in their paper.)
    • LPDe51d17e8.temperature  + (HVM, BM, 20/4/2016 Atlantic0039Black2007__PL07-73 BC_Mg/Ca)
    • LPDcda1c277.temperature  + (HVM, BM, 20/4/2016 Atlantic0040Lea2003__PL07-39PC_Mg/Ca)
    • O2kLR 017.temperature  + (HVM, BM, 20/4/2016 Atlantic0043aRichey2009__Garrison_PE07-2_Mg/Ca Note that raw 14C ages in Richey et al. (2009) are reported with the 400-year reservoir age subtracted (Pers. Comm. J. Richey 1 April 2015).)
    • LPD57d40973.temperature  + (HVM, BM, 20/4/2016 Atlantic0043bRichey2009__Fisk_PE07-5I_Mg/Ca)
    • O2kLR 030.temperature  + (HVM, BM, 20/4/2016 Atlantic0195aKeigwin2005__OCE326 26GGC_alkenone)
    • LPDbd07f717.temperature  + (HVM, BM, 20/4/2016 Atlantic0219Came2007__ODP-162-984_Mg/Ca)
    • LPDb17a5e9e.temperature  + (HVM, BM, 20/4/2016 Atlantic0220Thornalley2009__RAPiD-12-1K_Mg/Ca_bulloides Used the G. bulloides record from this core as it was reported as 'near-surface'.)
    • O2kLR 047.temperature  + (HVM, BM, 20/4/2016 Atlantic0235Sicre2011__
      HVM, BM, 20/4/2016 Atlantic0235Sicre2011__RAPid 21-3K_alkenone Data are from the same location as the composite in Miettinen et al., (2012; diatoms, August SST, cores RAPiD-21-3K + RAPiD-21-12B ). The alkenone reconstruction from Sicre et al. (2011; RAPiD-21-3K) has higher resolution down core, and covers a wider range of the calendar year. The associated box core RAPiD-21-12B has an intact sediment surface and 210Pb measurements, however we did not apply the age model from RAPiD-21-12B to the RAPiD-21-3K alkenone record. Data younger than the youngest14C age (1730 CE) in RAPiD-21-3K were removed.
      age (1730 CE) in RAPiD-21-3K were removed.)
    • LPDa03ec713.temperature  + (HVM, BM, 20/4/2016 Atlantic0255aSaenger2011__CH07-98-MC22_Mg/Ca(Anand) Atlantic0255bSaenger2011__KNR140_2_59GGC_Mg/Ca(Anand))
    • LPDa2107e77.temperature  + (HVM, BM, 20/4/2016 Atlantic0255bSaenger2011__KNR140_2_59GGC_Mg/Ca(Anand))
    • LPD9cc3baf6.temperature  + (HVM, BM, 20/4/2016 Atlantic0316Weldeab2007__MD03-2707_Mg/Ca)
    • LPD7c7e19c5.temperature  + (HVM, BM, 20/4/2016 Atlantic0326aLund2006_MgCa_MC125_GreatBahamaBank)
    • LPDefb3d2b0.temperature  + (HVM, BM, 20/4/2016 Atlantic0326bLund2006_MgCa_MC118_GreatBahamaBank)
    • O2kLR 066.temperature  + (HVM, BM, 20/4/2016 Atlantic0326cLund2006_MgCa_dry-tortugas_62MC)
    • LPDf7bace53.temperature  + (HVM, BM, 20/4/2016 Atlantic0326dLund2006_MgCa_dry-tortugas_79MC)
    • O2kLR 074.temperature  + (HVM, BM, 20/4/2016 Atlantic0368Keigwin2003__MC-29D_alkenone)
    • LPD572f7cc3.temperature  + (HVM, BM, 20/4/2016 Atlantic0372Richey2007__Pigmy Basin_Mg/Ca)
    • O2kLR 082.temperature  + (HVM, BM, 20/4/2016 Atlantic0403deMenocal20
      HVM, BM, 20/4/2016 Atlantic0403deMenocal2000__ODP-108-658C_foram-assemb_aveFebAug August and February SST data averaged to give an annual mean SST. The deMenocal et al., (2000) data set was selected instead of Zhao et al., (1995) because it had higher resolution. Trends between the two cores were similar.
      Trends between the two cores were similar.)
    • LPDa77273bb.temperature  + (HVM, BM, 20/4/2016 Atlantic0484Leduc2010_GeoB8331-4+GeoB8331-2_alkenone(Muller)_winter (upwelling) season)
    • LPD84ab67b9.temperature  + (HVM, BM, 20/4/2016 Atlantic0487McGregor2007__GeoB6008-1, GeoB6008-2_ alkenone(Prahl et al., 1988))
    • LPD13a78f9b.temperature  + (HVM, BM, 20/4/2016 Atlantic0488Kuhnert2011__ GeoB9501-5_Mg/Ca(Anand) Combination of data from GeoB 9501–4 and GeoB 9501–5. Data combined based on age sort order.)
    • LPDb7ba9166.temperature  + (HVM, BM, 20/4/2016 Atlantic1183Abrantes2005_D13902_PO287-26-G/1B Combination of Abrantes et al., (2005) data from the three cores recovered from the same drill site. Data sorted based on age.)
    • O2kLR 101.temperature  + (HVM, BM, 20/4/2016 Atlantic1184Cleroux2012_MD99-2203_MgCa)
    • O2kLR 105.temperature  + (HVM, BM, 20/4/2016 Atlantic1565Calvo2002_
      HVM, BM, 20/4/2016 Atlantic1565Calvo2002_ MD95-2011_alkenones(Prahl and Wakeham) The Calvo et al., (2002) data set was selected instead of Dolven et al., (2002) because it had higher resolution. Berner et al., (2011) provides additional dates, though with age reversals, so we retain the age model of Calvo et al., (2002).
      ain the age model of Calvo et al., (2002).)
    • O2kLR 112.temperature  + (HVM, BM, 20/4/2016 Atlantic1578Kim2007_GeoB6007-2 Revised age model for GeoB6007-2 from Morley et al., (2011) was applied to GeoB6007-2 alkenone data from Kim et al., (2007).)
    • O2kLR 114.temperature  + (HVM, BM, 20/4/2016 Indian1574Doose-Rolinski2001_SO90-39KG/SO90-56KA)
    • O2kLR 118.temperature  + (HVM, BM, 20/4/2016 Indian1579Saraswat2013_SK237-GC04)
    • LPD10e9f8f7.temperature  + (HVM, BM, 20/4/2016 Mediterranean1157abMore
      HVM, BM, 20/4/2016 Mediterranean1157abMoreno2012_MINMC-2_MINMC-1_alk(Muller) The higher-resolution alkenone record was selected. The authors also note that the G. bulloides Mg/Ca records spring upwelling SSTs whereas alkenones represent annual average SSTs. Alkenone data were measured in two cores (MINMC06-1 and MINMC06-2) from the same site. These two records were combined with the data sorted based on age.
      ombined with the data sorted based on age.)
    • LPDasan2012.temperature  + (HVM, BM, 20/4/2016 Mediterranean1572bNieto-Moreno2012__TTR17-1_384B)
    • LPD0e0867fe.temperature  + (HVM, BM, 20/4/2016 Mediterranean1572bNieto-Moreno2012__TTR17-1_436B)
    • O2kLR 131.temperature  + (HVM, BM, 20/4/2016 Pacific0118Stott2007_MD98-2176 WDC-paleoclimatology Data Contribution Series # 2007-092 Readme for Stott et al., (2007) notes calibration with Anand et al., (2003).)
    • O2kLR 135.temperature  + (HVM, BM, 20/4/2016 Pacific0173aLinsley2010_13GGC)
    • LPD1a0245b7.temperature  + (HVM, BM, 20/4/2016 Pacific0185Stott2007_MD98-2181 WDC-paleoclimatology Data Contribution Series # 2007-092 Readme for Stott et al., (2007) notes calibration with Anand et al., (2003).)
    • LPD7e8e8eaa.temperature  + (HVM, BM, 20/4/2016 Pacific0291Newton2011_MD98-2160 Data archived as Mg/Ca values only. Data converted to SST using the calibration of Dekens et al., 2002, as per the original publication)
    • O2kLR 146.temperature  + (HVM, BM, 20/4/2016 Pacific0328aHarada2004_MR00-K03-PC01)
    • O2kLR 165.temperature  + (HVM, BM, 20/4/2016 Pacific1573Wu2012_ODP-1202B)
    • LPD30c5b95c.temperature  + (HVM, BM, 20/4/2016 Pacific1577Newton2011_MD98-2177 Data archived as Mg/Ca values only. Data converted to SST using the calibration of Dekens et al., (2002), as per the original publication.)
    • O2kLR 175.temperature  + (HVM, BM, 20/4/2016 Pacific1580Isono2009_KR02-06A MC GC The authors combined the multicore and gravity core data (both cores from same location).)
    • O2kLR 183.temperature  + (HVM, BM, 20/4/2016 Pacific1582Zhao2000_Hen
      HVM, BM, 20/4/2016 Pacific1582Zhao2000_Hendy2012_Schimmelmann2013_SABA87-2, SABA88-1 Zhao et al., (2000) alkenone record with the age model from Hendy et al., (2012) and Schimmelmann et al., (2013). Combination of two cores (SABA87-2 and SABA88-1) recovered from the same drill site. Data sorted based on age.
      same drill site. Data sorted based on age.)
    • O2kLR 187.temperature  + (HVM, BM, 20/4/2016 Southern0045aLamy2002_GeoB3313-1)
    • LPD2a3997a7.temperature  + (HVM, BM, 20/4/2016 Southern0483aShevenell2011_ODP 1098B We used the publically archived data from PANGAEA, dated 2011.)
    • O2kLR 195.temperature  + (HVM, BM, 20/4/2016 Southern0485aMohtadi2007_GeoB7186-3)
    • LPD6315f935.temperature  + (HVM, BM, 20/4/2016 Southern1159aSepulveda2009_CF7-PC33)
    • O2kLR 045.temperature  + (HVM, BM, 20/4/2016; MSS, 07/10/2016; Atlan
      HVM, BM, 20/4/2016; MSS, 07/10/2016; Atlantic0234Sicre2011__MD99-2275_alkenone Sicre et al., (2011) (alkenone) was selected and not Jiang et al., (2005) (diatoms) for core MD22-9975. Sicre et al., (2011) has a much higher resolution record but both records show the same trend. Diatoms have now been published at higher resolution by Jiang et al (2015; Geology, doi: doi:10.1130/G36377.1) after the completion of the compilation.
      ) after the completion of the compilation.)
    • O2kLR 148.temperature  + (HVM, BM, 20/4/2016Pacific0335aOppo2009_MC31,BJ8-03-32GGC,BJ8-03-34GGC Combination of Oppo et al., (2009) data from the three cores recovered from the same drill site. Data sorted based on age.)
    • Asia 230.temperature  + (Half-centennial resolution. Elevation estimated from GoogleEarth; rounded to 100 m)
    • Eur 009.d18O  + (Here we reconstruct thermocline temperature and salinity in this region from AD 818 to 1780 using paired _18O and Mg/Ca ratio measurements of foraminifer shells from a subdecadally resolved marine sediment core.)
    • Asia 237.dust  + (Hydro climate)
    • Eur 026.temperature  + (In order to extend the Tallinn temperature
      In order to extend the Tallinn temperature series backward in time three different climate proxies were used. These were: the first day of ice break-up in Tallinn port a proxy for the mean winter air temperature (December to March); the first day of ice break-up on the rivers in northern Estonia a proxy for the beginning of spring; and the first day of the rye harvest a proxy for the mean air temperature in spring and summer (April to July). On the basis of these proxies the mean winter temperature could be extended back to the year AD 1500 and the spring and summer temperature back to 1731.
      pring and summer temperature back to 1731.)
    • LPD0d8fd260.calcification7  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD1079b4bb.calcification4  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD21b789e2.calcification1  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD2757d69f.calcification4  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD33714919.calcification2  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD41213ce8.calcification2  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD5024de7f.calcification6  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD6c1fc0ed.calcification2  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD70878a8b.calcification1  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD72b1e1cd.calcification1  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD7311e829.calcification4  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD7457ad38.calcification4  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD74bc6584.calcification5  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD796b99d7.calcification2  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD7be6185d.calcification1  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD7d948e2c.calcification3  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPD81e7ab49.calcification1  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDae761fd0.calcification3  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDc95b8887.calcification3  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDd376af3b.calcification3  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDdcf3abca.calcification5  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDe85bf987.calcification3  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDe897b7c7.calcification3  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDf2047c95.calcification2  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDf316b97e.calcification4  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDf7af3f2e.calcification1  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • LPDfc71e6bc.calcification2  + (Individual coral growth records. Composites used in database instead (following approach of original publication))
    • Eur 018.MXD  + (Instrumental measurements from high- (low-
      Instrumental measurements from high- (low-) elevation grid boxes back to 1818 (1760) reveal strongest growth response to current-year June_September mean temperatures. The reconstruction correlates at 0.7 with high-elevation temperatures back to 1818 with a greater signal in the higher-frequency domain (r 0.8).
      al in the higher-frequency domain (r 0.8).)
    • NAm 3352.trsgi  + (Looks like post 1950s decorrelation, that or this is a snowpack sensitive Mountain Hemlock)
    • Arc 026.d18O  + (Low frequency)
    • Arc 032.d18O  + (Low frequency)
    • Arc 033.d18O  + (Low frequency)
    • Arc 034.d18O  + (Low frequency)
    • NAm 172.trsgi  + (Low-freq goes inverse of the observed temperature record after the 50s)
    • NAm 2560.trsgi  + (Low-freq goes inverse of the observed temperature record after the 50s)
    • NAm 3436.MXD  + (Low-freq goes inverse of the observed temperature record after the 50s)
    • NAm 3772.MXD  + (Low-freq goes inverse of the observed temperature record after the 50s)
    • NAm 1816.MXD  + (Low-freq goes inverse of the observed temperature record after the 50s. Elevation estimated from GoogleEarth; rounded to 100 m)
    • NAm 2164.trsgi  + (Low-frequency variability is inverse of the observed record. Passes the local correlation p-value screening though.)
    • Arc 012.temperature  + (MXD record replaces the TRW; duplicate record omited from EuroMed)
    • Arc 012mxd.temperature1  + (MXD record replaces the TRW; duplicate record omited from EuroMed)
    • NAm 1828.trsgi  + (Meets criteria but the record is a bit strange looking. Elevation estimated from GoogleEarth; rounded to 100 m)
    • LPD24dd89b2.composite  + (Metadata available at: http://data.aims.gov.au/metadataviewer/uuid/4f39c641-8450-4ea0-b2b6-4f3d582645f8)
    • LPD3100fe0a.composite  + (Metadata available at: http://data.aims.gov.au/metadataviewer/uuid/4f39c641-8450-4ea0-b2b6-4f3d582645f8)
    • LPD378db911.composite  + (Metadata available at: http://data.aims.gov.au/metadataviewer/uuid/4f39c641-8450-4ea0-b2b6-4f3d582645f8)
    • LPD8bd4e07e.composite  + (Metadata available at: http://data.aims.gov.au/metadataviewer/uuid/4f39c641-8450-4ea0-b2b6-4f3d582645f8)
    • LPDaa786707.composite  + (Metadata available at: http://data.aims.gov.au/metadataviewer/uuid/4f39c641-8450-4ea0-b2b6-4f3d582645f8)
    • LPDe1fb72db.composite  + (Metadata available at: http://data.aims.gov.au/metadataviewer/uuid/4f39c641-8450-4ea0-b2b6-4f3d582645f8)
    • Ant 031.d18O  + (MicS revised dating, NOAA National Climatic Data Center https://www.ncdc.noaa.gov/paleo/study/20246 (2016))
    • Ant 031dD.dD  + (MicS revised dating, NOAA National Climatic Data Center https://www.ncdc.noaa.gov/paleo/study/20246 (2016))
    • Arc 040.temperature  + (Mind dating uncertainty)
    • Arc 073.temperature  + (Mind dating uncertainty)
    • Ocean2kHR 103.Sr Ca  + (NM: Marked as false because it has <50 years of continuous data)
    • Arc 016.trsgi  + (No low frequency;updated detrending in DArrigo et al. (2006) but data not available. Likely divergence issues but the only existing record from northeastern Siberia so it must be used to increase coverage.(FCL))
    • NAm 3748.MXD  + (No low-frequency signal. Elevation estimated from GoogleEarth; rounded to 100 m)
    • NAm 3760.MXD  + (No low-frequency signal. Elevation estimated from GoogleEarth; rounded to 100 m)
    • Asia 233.trsgi  + (Not a temperature proxy)
    • LPDa7a4074f.uncertainty temperature  + (Not a temperature proxy)
    • Ocean2kHR 007.d18O  + (Note: floating fossil coral sections have greater uncertainty in absolute temperature for palaeoclimate reconstructions (NJA))
    • Ocean2kHR 102.d18O  + (Note: floating fossil coral sections have greater uncertainty in absolute temperature for palaeoclimate reconstructions (NJA))
    • Ocean2kHR 139.d18O  + (Note: floating fossil coral sections have greater uncertainty in absolute temperature for palaeoclimate reconstructions (NJA))
    • Asia 236.d18O  + (Oxygen isotopes show positive correlation with NH temperature anomalies. Elevation estimated from GoogleEarth; rounded to 100 m)
    Retrieved from "https://wiki.linked.earth/Special:SearchByProperty/:QCnotes/Early-20series-20sample-20depth-20problems"