{ "paleoData": [ { "measurementTable": [ { "googleWorkSheetKey": "olouvyc", "tableName": "paleo1measurement1", "missingValue": "NaN", "d18O": { "archiveGenus": "Platygyra", "archiveSpecies": "lamellina", "chronologyIntegrationTime": "43466", "chronologyIntegrationTimeBasis": "Sampling resolution is four samples per year, one sample in the middle of each density band. The 0.5 mm diameter, discrete point sampling strategy used in this study creates samples that are a homogeneous mixture of-26 (7 mm/year) to -20 (9 mm/year) days of skeletal growth, assuming a linear extension rate. (Quinn et al, 1993). Isotope sampling methods were also identical to Quinn et al. [1993], with new samples being midway between the original samples reported in that study.", "chronologyIntegrationTimeUncertainty": "1 year", "chronologyIntegrationTimeUncertaintyType": "chronological and 230Th dates", "chronologyIntegrationTimeUnits": "year", "description": "carbonate", "hasChron": "0", "hasMaxValue": -4.38, "hasMeanValue": -4.9971, "hasMedianValue": -5.03, "hasMinValue": -5.34, "hasPaleoDepth": "0", "hasTimeTsid": "MAT76b067a764", "inCompilation": "Ocean2k_v1.0.0 | PAGES2k_v1.12.0", "inferredMaterial": "surface seawater", "inferredMaterialGroup": "surface water", "inferredMaterialGroupOriginal": "surface seawater", "instrument": "MAT 251 mass spectometer coupled with a CarboKiel carbonate extraction device at the University of Michigan", "iso2kCertification": "DMT (1/14/19); KLD", "iso2kPrimaryTimeseries": "TRUE", "iso2kUI": "CO96QUVA01A", "isPrimary": false, "longName": "AD", "measurementMaterial": "coral", "measurementMaterialDetail": "aragonite", "measurementStandard": "PDB", "measurementTableMD5": "e225275c75a7a9caadc6ba9a7a707501", "measurementTableName": "measurementTable1", "medianRes12k": "NA", "notes": "; climateInterpretation_seasonality changed - was originally annual; archiveType changed - was originally Coral (CO)", "ocean2kID": "PacificVanuatuQuinn1996", "pages2kId": "Ocn_108", "pages2kID": "Ocn_108", "paleoDataMD5": "e6e4d8a61700fa90f6ae4dd2915c867c", "paleoDataTableName": "pt1_1", "paleoMeasurementTableMD5": "e225275c75a7a9caadc6ba9a7a707501", "primaryAgeColumn": false, "proxy": "d18O", "proxyLumps": "isotope", "proxyLumpsOriginal": "d18O", "QCCertification": "DMT (1/14/19); KLD", "QCnotes": "The study was 4 samples per year but data is given as annual average values on NOAA web site. The original meta data on NOAA states there are four files, vanuatu.xls (Microsoft Excel Workbook), vanuatu.2yr.txt, vanuatu.4yr.txt, vanuatu.annual.txt (Tab-delimited text), but these appear to be missing from NOAA web site now. I have a copy archived of these files (kdelong@lsu.edu).", "TSid": "Ocean2kHR_133_iso2k", "uncertaintyAnalytical": "<±0.08‰ (1 sigma)", "units": "permil", "useInGlobalTemperatureAnalysis": "TRUE", "variableName": "d18O", "variableType": "measured", "values": [-4.72, -4.78, -5.03, -5.13, -5.16, -5.24, -5.13, -4.87, -4.79, -4.93, -4.92, -4.93, -5.1, -4.97, -4.88, -4.82, -4.84, -5.15, -5.24, -5.27, -5.1, -5.13, -5.05, -4.91, -4.73, -5.23, -5.14, -5.1, -5.04, -5.1, -5.21, -5.21, -5.06, -5.08, -4.92, -5.06, -5.1, -5.04, -4.94, -5.09, -4.94, -5.1, -5.02, -5.08, -5.08, -5.21, -5.13, -5.13, -5.23, -5.15, -5.09, -4.89, -5.08, -5.17, -5.08, -5.12, -5.19, -5.13, -5.03, -5.17, -5.33, -5.07, -5.09, -5.22, -5.04, -5.14, -4.94, -5.01, -5.19, -5.15, -5.31, -5.34, -5.13, -5.08, -5, -5.23, -5.16, -4.93, -5.05, -5.01, -5.07, -5.18, -5.18, -4.97, -5.08, -5.04, -5.25, -5.27, -5.29, -5.2, -5.17, -5.2, -5.22, -5.1, -4.95, -4.93, -5, -5.16, -5.22, -5.15, -5.34, -4.9, -4.83, -4.82, -5.06, -4.97, -5.14, -4.96, -5.17, -5.34, -4.94, -5.14, -4.99, -4.88, -4.93, -5.01, -4.87, -4.9, -4.98, -4.8, -4.94, -4.9, -5.09, -4.83, -4.75, -4.8, -4.69, -4.66, -4.59, -4.6, -4.56, -4.87, -4.79, -4.53, -4.59, -4.66, -4.88, -4.87, -4.89, -4.64, -4.38, -4.63, -4.67, -4.84, -4.69, -4.64, -4.7, -4.87, -4.96, -5.06, -5.27, -4.94, -5.15, -5, -4.96, -4.81, -4.83, -4.8, -4.64, -4.71, -4.93, -4.81, -4.88, -4.88, -5.08, -5.13, -4.88, -5.06, -5.16, -5, -5.02, -4.95, -4.86], "mostRecentCompilations": null, "primaryTimeseries": null, "interpretation": [ { "basis": "This sample was collected alive at < 1 m water depth (Quinn 1993). Comparison of the d180 with SST and rainfall records indicates a correlation of 0.71 and 0.54, respectively, over the 13-year interval where data overlaps (Fig. 2). Just as in the precipitation and SST comparison, the correlation is much higher at the annual cycle (coherence of 0.95). There is also a slight suggestion of coherence at the El Nino time scale, but the calibration time series is too short to draw any definitive conclusions. Since the 0.71 correlation between SST and d180 explains only half the variance in the SST record, other factors are obviously responsible for the d180 variations. (Quinn 1996)", "direction": "decrease/increase", "interpDirection": "decrease/increase", "scope": "climate", "seasonality": "Annual", "seasonalityOriginal": "Annual", "variable": "temperature", "variableDetail": "sea surface", "variableGroup": "temperature and salinity", "dynamical": null }, { "scope": "climate", "basis": null, "direction": null, "seasonality": null, "variable": null, "variableDetail": null }, { "scope": "climate", "basis": null, "direction": null, "seasonality": null, "variable": null, "variableDetail": null }, { "basis": "Comparison of the d180 with SST and rainfall records indicates a correlation of 0.71 and 0.54, respectively, over the 13-year interval where data overlaps (Fig. 2). Just as in the precipitation and SST comparison, the correlation is much higher at the annual cycle (coherence of 0.95). There is also a slight suggestion of coherence at the El Nino time scale, but the calibration time series is too short to draw any definitive conclusions. Since the 0.71 correlation between SST and d180 explains only half the variance in the SST record, other factors are obviously responsible for the d180 variations.", "coefficient": "NA", "direction": "negative", "fraction": "NA", "inferredMaterial": "seawater", "integrationTime": "1-Jan", "integrationTimeBasis": "Sampling resolution is four samples per year, one sample in the middle of each density band. The 0.5 mm diameter, discrete point sampling strategy used in this study creates samples that are a homogeneous mixture of-26 (7 mm/year) to -20 (9 mm/year) days of skeletal growth, assuming a linear extension rate. (Quinn et al, 1993). Isotope sampling methods were also identical to Quinn et al. [1993], with new samples being midway between the original samples reported in that study.", "integrationTimeUncertainty": "1 year", "integrationTimeUncertaintyType": "chronological and 230Th dates", "integrationTimeUnits": "year", "mathematicalRelation": "linear", "rank": 1, "scope": "isotope", "seasonality": "subannual", "variable": "temperature", "variableGroup": "Temperature", "variableGroupDirection": "negative", "variableGroupOriginal": "T_water" }, { "basis": "Comparison of the d180 with SST and rainfall records indicates a correlation of 0.71 and 0.54, respectively, over the 13-year interval where data overlaps (Fig. 2). Just as in the precipitation and SST comparison, the correlation is much higher at the annual cycle (coherence of 0.95). There is also a slight suggestion of coherence at the El Nino time scale, but the calibration time series is too short to draw any definitive conclusions. Since the 0.71 correlation between SST and d180 explains only half the variance in the SST record, other factors are obviously responsible for the d180 variations.", "coefficient": "NA", "direction": "positive", "fraction": 0.29, "inferredMaterial": "seawater", "integrationTime": "1-Jan", "integrationTimeBasis": "Sampling resolution is four samples per year, one sample in the middle of each density band. The 0.5 mm diameter, discrete point sampling strategy used in this study creates samples that are a homogeneous mixture of-26 (7 mm/year) to -20 (9 mm/year) days of skeletal growth, assuming a linear extension rate. (Quinn et al, 1993). Isotope sampling methods were also identical to Quinn et al. [1993], with new samples being midway between the original samples reported in that study.", "integrationTimeUncertainty": "1 year", "integrationTimeUncertaintyType": "chronological and 230Th dates", "integrationTimeUnits": "year", "mathematicalRelation": "linear", "rank": 2, "scope": "isotope", "variable": "seawaterIsotope", "variableGroup": "EffectiveMoisture", "variableGroupDirection": "negative", "variableGroupOriginal": "d18O_seawater", "seasonality": null }, { "coefficient": "NA", "fraction": "NA", "rank": "NA", "scope": "isotope", "direction": null, "seasonality": null, "variable": null } ], "calibration": { "equation": "SST =?4.46 (d180) + 5.29 (r = 0.77).", "reference": "Quinn et al., 1996, SST/d180 calibration for Platygyra has been estimated at 0.266 per mil d18 per degree C [Weber and Woodhead 1972]" }, "hasResolution": { "hasMaxValue": 1, "hasMeanValue": 1, "hasMedianValue": 1, "hasMinValue": 1, "units": "AD" }, "inCompilationBeta": [ { "compilationName": "iso2k", "compilationVersion": ["0_14_8", "0_15_0", "1_0_0", "1_1_0", "1_1_1", "1_1_2"] } ] }, "year": { "dataType": "float", "description": "Year AD", "hasMaxValue": 1979, "hasMeanValue": 1893, "hasMedianValue": 1893, "hasMinValue": 1807, "hasTimeTsid": "MAT76b067a764", "inferredVariableType": "year", "iso2kPrimaryTimeseries": "FALSE", "isPrimary": true, "longName": "AD", "measurementTableMD5": "e225275c75a7a9caadc6ba9a7a707501", "measurementTableName": "measurementTable1", "medianRes12k": "NA", "paleoDataMD5": "e6e4d8a61700fa90f6ae4dd2915c867c", "paleoDataTableName": "pt1_1", "paleoMeasurementTableMD5": "e225275c75a7a9caadc6ba9a7a707501", "primaryAgeColumn": true, "TSid": "MAT76b067a764", "units": "yr AD", "unitsOriginal": "CE", "variableName": "year", "variableType": "inferred", "values": [1979, 1978, 1977, 1976, 1975, 1974, 1973, 1972, 1971, 1970, 1969, 1968, 1967, 1966, 1965, 1964, 1963, 1962, 1961, 1960, 1959, 1958, 1957, 1956, 1955, 1954, 1953, 1952, 1951, 1950, 1949, 1948, 1947, 1946, 1945, 1944, 1943, 1942, 1941, 1940, 1939, 1938, 1937, 1936, 1935, 1934, 1933, 1932, 1931, 1930, 1929, 1928, 1927, 1926, 1925, 1924, 1923, 1922, 1921, 1920, 1919, 1918, 1917, 1916, 1915, 1914, 1913, 1912, 1911, 1910, 1909, 1908, 1907, 1906, 1905, 1904, 1903, 1902, 1901, 1900, 1899, 1898, 1897, 1896, 1895, 1894, 1893, 1892, 1891, 1890, 1889, 1888, 1887, 1886, 1885, 1884, 1883, 1882, 1881, 1880, 1879, 1878, 1877, 1876, 1875, 1874, 1873, 1872, 1871, 1870, 1869, 1868, 1867, 1866, 1865, 1864, 1863, 1862, 1861, 1860, 1859, 1858, 1857, 1856, 1855, 1854, 1853, 1852, 1851, 1850, 1849, 1848, 1847, 1846, 1845, 1844, 1843, 1842, 1841, 1840, 1839, 1838, 1837, 1836, 1835, 1834, 1833, 1832, 1831, 1830, 1829, 1828, 1827, 1826, 1825, 1824, 1823, 1822, 1821, 1820, 1819, 1818, 1817, 1816, 1815, 1814, 1813, 1812, 1811, 1810, 1809, 1808, 1807], "interpretation": [ { "rank": "NA", "scope": "climate" }, { "fraction": "NA", "rank": "NA", "scope": "climate" }, { "fraction": "NA", "rank": "NA", "scope": "climate" }, { "fraction": "NA", "rank": "NA", "scope": "climate" }, { "fraction": "NA", "rank": "NA", "scope": "climate" } ], "hasResolution": { "hasMaxValue": 1, "hasMeanValue": 1, "hasMedianValue": 1, "hasMinValue": 1, "units": "AD" } } } ] } ], "dataSetName": "CO96QUVA", "archiveType": "Coral", "archiveTypeOriginal": "coral", "collectionName": "TAN-E", "createdBy": "matlab", "dataAcquisitionNotes": "The original meta data on NOAA states there are four files, vanuatu.xls (Microsoft Excel Workbook), vanuatu.2yr.txt, vanuatu.4yr.txt, vanuatu.annual.txt (Tab-delimited text), but these appear to be missing from NOAA web site now. I have a copy archived of these files (kdelong@lsu.edu).", "datasetId": "0n4u7XGKeugICSOLYJzf", "datasetVersion": "1.0.7", "googleMetadataWorksheet": "ow68loo", "googleSpreadSheetKey": "1XxoMvdZtv88g-U6b_Y1dKYf2woYn8HzCM0y5naEvSa8", "hasChron": "0", "hasDepth": "0", "hasPaleoDepth": 0, "investigators": "Quinn | Ocean2k", "lipdverseLink": "https://lipdverse.org/data/0n4u7XGKeugICSOLYJzf/1_0_7", "maxYear": 1979, "minYear": 1807, "modernSystem_instrumentalDatasetCoordinates": "-15, 167", "modernSystem_instrumentalDatasetURL": "http://www1.ncdc.noaa.gov/pub/data/paleo/coral/west_pacific/vanuatu_annual.txt", "nUniqueAges": 0, "nUniqueGoodAges": 0, "nUniqueOtherAges": 0, "originalDataUrl": "https://www.ncdc.noaa.gov/paleo/study/1839", "originalDataURL": "https://www.ncdc.noaa.gov/paleo/study/1839", "studyName": "Espiritu Santo, Vanuatu isotope records 186-1979", "tagMD5": "d1b02b6b886bf1fae701c34c95351962", "lipdVersion": 1.3, "changelog": [ { "version": "1.0.7", "lastVersion": "1.0.6", "curator": "nicholas", "timestamp": "2025-05-20 18:27:41.198996 UTC", "changes": { "Paleo Interpretation metadata": [ ["year (MAT76b067a764): interpretation5_scope: '' has been replaced by 'climate'"] ] } }, { "version": "1.0.6", "lastVersion": "1.0.5", "curator": "nicholas", "timestamp": "2025-05-20 16:18:38.776294 UTC", "changes": { "Paleo Interpretation metadata": [ ["year (MAT76b067a764): interpretation4_scope: '' has been replaced by 'climate'"] ] } }, { "version": "1.0.5", "lastVersion": "1.0.4", "curator": "nicholas", "timestamp": "2025-04-17 20:04:03.282389 UTC", "changes": { "Paleo Column metadata": [ ["year (MAT76b067a764): paleoData_isPrimary: '' has been replaced by 'TRUE'"], ["year (MAT76b067a764): paleoData_primaryAgeColumn: '' has been replaced by 'TRUE'"], ["d18O (Ocean2kHR_133): paleoData_isPrimary: '' has been replaced by 'FALSE'"], ["d18O (Ocean2kHR_133): paleoData_primaryAgeColumn: '' has been replaced by 'FALSE'"] ] } }, { "version": "1.0.4", "lastVersion": "1.0.3", "curator": "nicholas", "timestamp": "2025-04-11 16:14:46.852442 UTC", "changes": { "Paleo Interpretation metadata": [ ["year (MAT76b067a764): interpretation1_scope: '' has been replaced by 'climate'"], ["year (MAT76b067a764): interpretation2_scope: '' has been replaced by 'climate'"], ["year (MAT76b067a764): interpretation3_scope: '' has been replaced by 'climate'"], ["d18O (Ocean2kHR_133): interpretation2_basis: 'Comparison of the d180 with SST and rainfall records indicates a correlation of 0.71 and 0.54, respectively, over the 13-year interval where data overlaps (Fig. 2). Just as in the precipitation and SST comparison, the correlation is much higher at the annual cycle (coherence of 0.95). There is also a slight suggestion of coherence at the El Nino time scale, but the calibration time series is too short to draw any definitive conclusions. Since the 0.71 correlation between SST and d180 explains only half the variance in the SST record, other factors are obviously responsible for the d180 variations.' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_direction: 'negative' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_inferredMaterial: 'seawater' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_integrationTime: '1-Jan' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_integrationTimeBasis: 'Sampling resolution is four samples per year, one sample in the middle of each density band. The 0.5 mm diameter, discrete point sampling strategy used in this study creates samples that are a homogeneous mixture of-26 (7 mm/year) to -20 (9 mm/year) days of skeletal growth, assuming a linear extension rate. (Quinn et al, 1993). Isotope sampling methods were also identical to Quinn et al. [1993], with new samples being midway between the original samples reported in that study.' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_integrationTimeUncertainty: '1 year' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_integrationTimeUncertaintyType: 'chronological and 230Th dates' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_integrationTimeUnits: 'year' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_mathematicalRelation: 'linear' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_rank: '1' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_scope: 'isotope' has been replaced by 'climate'"], ["d18O (Ocean2kHR_133): interpretation2_seasonality: 'subannual' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_variable: 'temperature' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_variableGroup: 'Temperature' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_variableGroupDirection: 'negative' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation2_variableGroupOriginal: 'T_water' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_basis: 'Comparison of the d180 with SST and rainfall records indicates a correlation of 0.71 and 0.54, respectively, over the 13-year interval where data overlaps (Fig. 2). Just as in the precipitation and SST comparison, the correlation is much higher at the annual cycle (coherence of 0.95). There is also a slight suggestion of coherence at the El Nino time scale, but the calibration time series is too short to draw any definitive conclusions. Since the 0.71 correlation between SST and d180 explains only half the variance in the SST record, other factors are obviously responsible for the d180 variations.' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_direction: 'positive' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_fraction: '0.29' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_inferredMaterial: 'seawater' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_integrationTime: '1-Jan' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_integrationTimeBasis: 'Sampling resolution is four samples per year, one sample in the middle of each density band. The 0.5 mm diameter, discrete point sampling strategy used in this study creates samples that are a homogeneous mixture of-26 (7 mm/year) to -20 (9 mm/year) days of skeletal growth, assuming a linear extension rate. (Quinn et al, 1993). Isotope sampling methods were also identical to Quinn et al. [1993], with new samples being midway between the original samples reported in that study.' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_integrationTimeUncertainty: '1 year' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_integrationTimeUncertaintyType: 'chronological and 230Th dates' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_integrationTimeUnits: 'year' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_mathematicalRelation: 'linear' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_rank: '2' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_scope: 'isotope' has been replaced by 'climate'"], ["d18O (Ocean2kHR_133): interpretation3_variable: 'seawaterIsotope' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_variableGroup: 'EffectiveMoisture' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_variableGroupDirection: 'negative' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation3_variableGroupOriginal: 'd18O_seawater' has been replaced by ''"], ["d18O (Ocean2kHR_133): interpretation4_basis: '' has been replaced by 'Comparison of the d180 with SST and rainfall records indicates a correlation of 0.71 and 0.54, respectively, over the 13-year interval where data overlaps (Fig. 2). Just as in the precipitation and SST comparison, the correlation is much higher at the annual cycle (coherence of 0.95). There is also a slight suggestion of coherence at the El Nino time scale, but the calibration time series is too short to draw any definitive conclusions. Since the 0.71 correlation between SST and d180 explains only half the variance in the SST record, other factors are obviously responsible for the d180 variations.'"], ["d18O (Ocean2kHR_133): interpretation4_direction: '' has been replaced by 'negative'"], ["d18O (Ocean2kHR_133): interpretation4_inferredMaterial: '' has been replaced by 'seawater'"], ["d18O (Ocean2kHR_133): interpretation4_integrationTime: '' has been replaced by '1-Jan'"], ["d18O (Ocean2kHR_133): interpretation4_integrationTimeBasis: '' has been replaced by 'Sampling resolution is four samples per year, one sample in the middle of each density band. The 0.5 mm diameter, discrete point sampling strategy used in this study creates samples that are a homogeneous mixture of-26 (7 mm/year) to -20 (9 mm/year) days of skeletal growth, assuming a linear extension rate. (Quinn et al, 1993). Isotope sampling methods were also identical to Quinn et al. [1993], with new samples being midway between the original samples reported in that study.'"], ["d18O (Ocean2kHR_133): interpretation4_integrationTimeUncertainty: '' has been replaced by '1 year'"], ["d18O (Ocean2kHR_133): interpretation4_integrationTimeUncertaintyType: '' has been replaced by 'chronological and 230Th dates'"], ["d18O (Ocean2kHR_133): interpretation4_integrationTimeUnits: '' has been replaced by 'year'"], ["d18O (Ocean2kHR_133): interpretation4_mathematicalRelation: '' has been replaced by 'linear'"], ["d18O (Ocean2kHR_133): interpretation4_rank: '' has been replaced by '1'"], ["d18O (Ocean2kHR_133): interpretation4_scope: '' has been replaced by 'isotope'"], ["d18O (Ocean2kHR_133): interpretation4_seasonality: '' has been replaced by 'subannual'"], ["d18O (Ocean2kHR_133): interpretation4_variable: '' has been replaced by 'temperature'"], ["d18O (Ocean2kHR_133): interpretation4_variableGroup: '' has been replaced by 'Temperature'"], ["d18O (Ocean2kHR_133): interpretation4_variableGroupDirection: '' has been replaced by 'negative'"], ["d18O (Ocean2kHR_133): interpretation4_variableGroupOriginal: '' has been replaced by 'T_water'"], ["d18O (Ocean2kHR_133): interpretation5_basis: '' has been replaced by 'Comparison of the d180 with SST and rainfall records indicates a correlation of 0.71 and 0.54, respectively, over the 13-year interval where data overlaps (Fig. 2). Just as in the precipitation and SST comparison, the correlation is much higher at the annual cycle (coherence of 0.95). There is also a slight suggestion of coherence at the El Nino time scale, but the calibration time series is too short to draw any definitive conclusions. Since the 0.71 correlation between SST and d180 explains only half the variance in the SST record, other factors are obviously responsible for the d180 variations.'"], ["d18O (Ocean2kHR_133): interpretation5_direction: '' has been replaced by 'positive'"], ["d18O (Ocean2kHR_133): interpretation5_fraction: '' has been replaced by '0.29'"], ["d18O (Ocean2kHR_133): interpretation5_inferredMaterial: '' has been replaced by 'seawater'"], ["d18O (Ocean2kHR_133): interpretation5_integrationTime: '' has been replaced by '1-Jan'"], ["d18O (Ocean2kHR_133): interpretation5_integrationTimeBasis: '' has been replaced by 'Sampling resolution is four samples per year, one sample in the middle of each density band. The 0.5 mm diameter, discrete point sampling strategy used in this study creates samples that are a homogeneous mixture of-26 (7 mm/year) to -20 (9 mm/year) days of skeletal growth, assuming a linear extension rate. (Quinn et al, 1993). Isotope sampling methods were also identical to Quinn et al. [1993], with new samples being midway between the original samples reported in that study.'"], ["d18O (Ocean2kHR_133): interpretation5_integrationTimeUncertainty: '' has been replaced by '1 year'"], ["d18O (Ocean2kHR_133): interpretation5_integrationTimeUncertaintyType: '' has been replaced by 'chronological and 230Th dates'"], ["d18O (Ocean2kHR_133): interpretation5_integrationTimeUnits: '' has been replaced by 'year'"], ["d18O (Ocean2kHR_133): interpretation5_mathematicalRelation: '' has been replaced by 'linear'"], ["d18O (Ocean2kHR_133): interpretation5_rank: '' has been replaced by '2'"], ["d18O (Ocean2kHR_133): interpretation5_scope: '' has been replaced by 'isotope'"], ["d18O (Ocean2kHR_133): interpretation5_variable: '' has been replaced by 'seawaterIsotope'"], ["d18O (Ocean2kHR_133): interpretation5_variableGroup: '' has been replaced by 'EffectiveMoisture'"], ["d18O (Ocean2kHR_133): interpretation5_variableGroupDirection: '' has been replaced by 'negative'"], ["d18O (Ocean2kHR_133): interpretation5_variableGroupOriginal: '' has been replaced by 'd18O_seawater'"], ["d18O (Ocean2kHR_133): interpretation6_scope: '' has been replaced by 'isotope'"] ] } }, { "version": "1.0.3", "lastVersion": "1.0.2", "curator": "nicholas", "timestamp": "2025-04-09 20:50:20.28846 UTC", "notes": "Updated lipdverse database entry with a changed file.", "changes": { "Paleo Interpretation metadata": [ ["d18O (Ocean2kHR_133): interpretation1_seasonality: 'annual' has been replaced by 'Annual'"], ["d18O (Ocean2kHR_133): interpretation1_variable: 'temperature and salinity' has been replaced by 'temperature'"], ["d18O (Ocean2kHR_133): interpretation2_variable: 'T_water' has been replaced by 'temperature'"], ["d18O (Ocean2kHR_133): interpretation3_variable: 'd18O_seawater' has been replaced by 'seawaterIsotope'"] ] } }, { "version": "1.0.2", "lastVersion": "1.0.1", "curator": "nicholas", "timestamp": "2025-04-09 17:39:02.201831 UTC", "notes": "Changes made as part of LiPDverse vocabulary standardization process", "changes": { "Paleo Interpretation metadata": [ ["d18O (Ocean2kHR_133): interpretation1_seasonality: 'annual' has been replaced by 'Annual'"], ["d18O (Ocean2kHR_133): interpretation1_variable: 'temperature and salinity' has been replaced by 'temperature'"], ["d18O (Ocean2kHR_133): interpretation2_variable: 'T_water' has been replaced by 'temperature'"], ["d18O (Ocean2kHR_133): interpretation3_variable: 'd18O_seawater' has been replaced by 'seawaterIsotope'"] ] } }, { "version": "1.0.1", "lastVersion": "1.0.0", "curator": "nicholas", "timestamp": "2025-04-08 17:32:35.356367 UTC", "notes": "Changes made as part of LiPDverse vocabulary standardization process", "changes": { "Paleo Column metadata": [ ["year (MAT76b067a764): paleoData_units: 'AD' has been replaced by 'yr AD'"], ["year (MAT76b067a764): paleoData_longName: '' has been replaced by 'AD'"], ["d18O (Ocean2kHR_133): paleoData_longName: '' has been replaced by 'AD'"] ] } } ], "environmentInterpretation1_direction": null, "environmentInterpretation1_seasonality": null, "environmentInterpretation1_variable": null, "testField": null, "pub": [ { "author": { "name": "Quinn, T. M." }, "citation": "Quinn, T. M., Taylor, F. W. and Crowley, T. J.: A 173 year stable isotope record from a tropical south pacific coral 0, Quaternary Science Reviews, 12(6), 407–418, doi:10.1016/s0277-3791(05)80005-8, 1993.", "citeKey": "quinn1996new", "dataUrl": "https://www.ncdc.noaa.gov/cdo/f?p=519:1:0::::P1_STUDY_ID:1839", "doi": "10.1016/S0277-3791(05)80005-8, 10.1029/96GL03169", "issue": "23-Jan", "journal": "Geophys. Res. Lett.", "pages": -3, "publisher": "Wiley-Blackwell", "title": "New stable isotope results from a 173-year coral from Espiritu Santo, Vanuatu", "type": "article", "volume": 23 }, { "author": { "name": "Tierney, Jessica E. , Abram, Nerilie J. , Anchukaitis, Kevin J. , Evans, Michael N. , Giry, Cyril , Kilbourne, K. Halimeda , Saenger, Casey P. , Wu, Henry C. , Zinke, Jens" }, "citation": "Quinn, T. M., Crowley, T. J. and Taylor, F. W.: New stable isotope results from a 173-year coral from Espiritu Santo, Vanuatu, Geophysical Research Letters, 23(23), 3413–3416, doi:10.1029/96gl03169, 1996.", "citeKey": "tierney2015tropical", "doi": "10.1029/96GL03169", "institution": "World Data Center for Paleoclimatology", "title": "Ocean2kHR-PacificVanuatuQuinn1996", "type": "dataCitation", "url": "https://www.ncdc.noaa.gov/paleo/study/1839", "year": 2015 } ], "geo": { "longitude": 167, "latitude": -15, "elevation": -1, "geometryType": "Point", "ocean": "Pacific", "pages2kRegion": "Ocean", "siteName": "Tangoa Island, Vanuatu" }, "@context": "context.jsonld" }