/* DATA DESCRIPTION: Citation: Wall, Alexander Forster: Harmonised chronological data from tropical Australian environmental archives [dataset]. PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.989982 (dataset in review), In: Wall, AF: Chronology and hydrological interpretations of tropical Australian environmental archives (0–130 ka) [dataset bundled publication]. PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.989939 (dataset in review) Abstract: A harmonised compilation of all radiocarbon, OSL, and other dated samples used in the chronological synthesis. Each row represents an individual dating result with metadata required for recalibration and re-modelling. Keyword(s): age-depth model; Australia; Holocene; Hydroclimate; OSL; palaeoclimate; Radiocarbon Source: Bird, Michael I; Brand, Michael; Comley, Rainy; Fu, Xiao; Hadeen, Xennephone; Jacobs, Zenobia; Rowe, Cassandra; Wurster, Christopher M; Zwart, Costijn; Bradshaw, Corey J A (2024): Late Pleistocene emergence of an anthropogenic fire regime in Australia’s tropical savannahs. Nature Geoscience, 17(3), 233-240, https://doi.org/10.1038/s41561-024-01388-3 Bowler, J M; Duller, G A T; Perret, N; Prescott, J R; Wyrwoll, Karl-Heinz (1998): Hydrologic changes in monsoonal climates of the last glacial cycle: stratigraphy and lumenescence dating of Lake Woods, N.T., Australia. Palaeoclimates, 3 (1-3), 179-207 Denniston, R F; Asmerom, Y; Polyak, V J; Wanamaker, A D Jr; Ummenhofer, C C; Humphreys, W F; Cugley, John; Woods, David; Lucker, S (2017): Decoupling of monsoon activity across the northern and southern Indo-Pacific during the Late Glacial. Quaternary Science Reviews, 176, 101-105, https://doi.org/10.1016/j.quascirev.2017.09.014 Denniston, Rhawn F; Villarini, Gabriele; Gonzales, Angelique N; Wyrwoll, Karl-Heinz; Polyak, Victor J; Ummenhofer, Caroline C; Lachniet, Matthew S; Wanamaker, Alan D Jr; Humphreys, William F; Woods, David; Cugley, John (2015): Extreme rainfall activity in the Australian tropics reflects changes in the El Niño/Southern Oscillation over the last two millennia. Proceedings of the National Academy of Sciences of the United States of America, 112(15), 4576-4581, https://doi.org/10.1073/pnas.1422270112 Denniston, Rhawn F; Wyrwoll, Karl-Heinz; Asmerom, Yemane; Polyak, Victor J; Humphreys, William F; Cugley, John; Woods, David; LaPointe, Zachary; Peota, Julian; Greaves, Elizabeth (2013): North Atlantic forcing of millennial-scale Indo-Australian monsoon dynamics during the Last Glacial period. Quaternary Science Reviews, 72, 159-168, https://doi.org/10.1016/j.quascirev.2013.04.012 Dixon, Teresa; Rudd, Rachel; Kemp, Justine; Marx, Samuel K; Moss, Patrick T; Callow, John Nikolaus; Hall, Philip Anthony; Hua, Quan; McGowan, Hamish A (2025): Hydroclimate variability in the eastern Kimberley, Australia, since the last deglaciation. Journal of Quaternary Science, 40(5), 893-912, https://doi.org/10.1002/jqs.3710 English, P; Spooner, N A; Chappell, J; Questiaux, D G; Hill, N G (2001): Lake Lewis basin, central Australia: environmental evolution and OSL chronology. Quaternary International, 83-85, 81-101, https://doi.org/10.1016/S1040-6182(01)00032-5 Field, Emily; McGowan, Hamish A; Moss, Patrick T; Marx, Samuel K (2017): A late Quaternary record of monsoon variability in the northwest Kimberley, Australia. Quaternary International, 449, 119-135, https://doi.org/10.1016/j.quaint.2017.02.019 Field, Emily; Tyler, Jonathan James; Gadd, Patricia S; Moss, Patrick T; McGowan, Hamish A; Marx, Samuel K (2018): Coherent patterns of environmental change at multiple organic spring sites in northwest Australia: Evidence of Indonesian-Australian summer monsoon variability over the last 14,500 years. Quaternary Science Reviews, 196, 193-216, https://doi.org/10.1016/j.quascirev.2018.07.018 Fitzsimmons, Kathryn E; Miller, G H; Spooner, N A; Magee, John W (2012): Aridity in the monsoon zone as indicated by desert dune formation in the Gregory Lakes basin, northwestern Australia. Australian Journal of Earth Sciences, 59(4), 469-478, https://doi.org/10.1080/08120099.2012.686171 Jennings, J N (1975): Desert dunes and estuarine fill in the Fitzroy estuary (North-Western Australia). CATENA, 2, 215-262, https://doi.org/10.1016/S0341-8162(75)80015-4 Kuhnt, Wolfgang; Holbourn, Ann E; Xu, Jian; Opdyke, Bradley N; De Deckker, Patrick; Röhl, Ursula; Mudelsee, Manfred (2015): Southern Hemisphere control on Australian monsoon variability during the late deglaciation and Holocene. Nature Communications, 6, 5916, https://doi.org/10.1038/ncomms6916 Lees, Brian G; Hayne, Matthew; Price, David M (1993): Marine transgression and dune initiation on western Cape York, northern Australia. Marine Geology, 114(1-2), 81-89, https://doi.org/10.1016/0025-3227(93)90040-3 Lees, Brian G; Yanchou, Lu; Head, John (1990): Reconnaissance Thermoluminescence Dating of Northern Australian Coastal Dune Systems. Quaternary Research, 34(2), 169-185, https://doi.org/10.1016/0033-5894(90)90029-K Lees, Brian G; Yanehou, Lu; Price, David M (1992): Thermoluminescence dating of dunes at Cape St. Lambert, East Kimberleys, northwestern Australia. Marine Geology, 106(1-2), 131-139, https://doi.org/10.1016/0025-3227(92)90058-P Mackenzie, Lydia; Heijnis, Henk; Gadd, Patricia S; Moss, Patrick T; Shulmeister, James (2017): Geochemical investigation of the South Wellesley Island wetlands: Insight into wetland development during the Holocene in tropical northern Australia. The Holocene, 27(4), 566-578, https://doi.org/10.1177/0959683616670219 Marx, Samuel K; Reynolds, William; May, Jan-Hendrik; Forbes, Matthew S; Stromsoe, Nicola; Fletcher, Michael-Shawn; Cohen, Timothy J; Moss, Patrick T; Mazumder, Debashish; Gadd, Patricia S (2021): Monsoon driven ecosystem and landscape change in the 'Top End' of Australia during the past 35 kyr. Palaeogeography, Palaeoclimatology, Palaeoecology, 583, 110659, https://doi.org/10.1016/j.palaeo.2021.110659 McGowan, Hamish A; Marx, Samuel K; Moss, Patrick T; Hammond, Andrew P (2012): Evidence of ENSO mega-drought triggered collapse of prehistory Aboriginal society in northwest Australia. Geophysical Research Letters, 39(22), 2012GL053916, https://doi.org/10.1029/2012GL053916 Miller, Gifford H; Magee, John W; Fogel, Marilyn L; Wooller, Matthew J; Hesse, Paul P; Spooner, Nigel A; Johnson, Beverly J; Wallis, Lynley (2018): Wolfe Creek Crater: A continuous sediment fill in the Australian Arid Zone records changes in monsoon strength through the Late Quaternary. Quaternary Science Reviews, 199, 108-125, https://doi.org/10.1016/j.quascirev.2018.07.019 Moss, Patrick T; Mackenzie, Lydia; Ulm, Sean; Sloss, Craig; Rosendahl, Daniel; Petherick, Lynda M; Steinberger, Lincoln; Wallis, Lynley; Heijnis, Henk; Petchey, Fiona; Jacobsen, Geraldine (2015): Environmental context for late Holocene human occupation of the South Wellesley Archipelago, Gulf of Carpentaria, northern Australia. Quaternary International, 385, 136-144, https://doi.org/10.1016/j.quaint.2015.02.051 Mulrennan, M E; Woodroffe, Colin D (1998): Holocene development of the lower Mary River plains, Northern Territory, Australia. The Holocene, 8(5), 565-579, https://doi.org/10.1191/095968398676885724 Prebble, Matiu; Sim, Robin; Finn, Janet; Fink, David (2005): A Holocene Pollen and Diatom Record from Vanderlin Island, Gulf of Carpentaria, Lowland Tropical Australia. Quaternary Research, 64(3), 357-371, https://doi.org/10.1016/j.yqres.2005.08.005 Proske, Ulrike (2016): Holocene freshwater wetland and mangrove dynamics in the eastern Kimberley, Australia. Journal of Quaternary Science, 31(1), 1-11, https://doi.org/10.1002/jqs.2827 Proske, Ulrike; Heslop, David; Haberle, Simon G (2014): A Holocene record of coastal landscape dynamics in the eastern Kimberley region, Australia. Journal of Quaternary Science, 29(2), 163-174, https://doi.org/10.1002/jqs.2691 Reeves, Jessica M; Chivas, Allan R; García, Adriana; Holt, Sabine; Couapel, Martine J J; Jones, Brian G; Cendón, Dioni I; Fink, David (2008): The sedimentary record of palaeoenvironments and sea-level change in the Gulf of Carpentaria, Australia, through the last glacial cycle. Quaternary International, 183(1), 3-22, https://doi.org/10.1016/j.quaint.2007.11.019 Rehn, Emma; Rowe, Cassandra; Ulm, Sean; Gadd, Patricia S; Zawadzki, Atun; Jacobsen, Geraldine E; Woodward, Craig; Bird, Michael (2021): Multiproxy Holocene Fire Records From the Tropical Savannas of Northern Cape York Peninsula, Queensland, Australia. Frontiers in Ecology and Evolution, 9, 771700, https://doi.org/10.3389/fevo.2021.771700 (Rehn et al. (2021a)) Rehn, Emma; Rowe, Cassandra; Ulm, Sean; Woodward, Craig; Bird, Michael (2021): A late-Holocene multiproxy fire record from a tropical savanna, eastern Arnhem Land, Northern Territory, Australia. The Holocene, 31(5), 870-883, https://doi.org/10.1177/0959683620988030 (Rehn et al. (2021b)) Rhodes, E G (1982): Depositional model for a chenier plain, Gulf of Carpentaria, Australia. Sedimentology, 29(2), 201-221, https://doi.org/10.1111/j.1365-3091.1982.tb01719.x Rivera-Araya, Maria; Rowe, Cassandra; Levchenko, Vladimir; Ulm, Sean; Bird, Michael I (2022): A radiocarbon chronology for Sanamere Lagoon, Cape York Peninsula, using multiple organic fractions. Quaternary Geochronology, 70, 101273, https://doi.org/10.1016/j.quageo.2022.101273 Rowe, Cassandra; Brand, Michael; Hutley, Lindsay B; Wurster, Christopher M; Zwart, Costijn; Levchenko, Vlad; Bird, Michael I (2019): Holocene savanna dynamics in the seasonal tropics of northern Australia. Review of Palaeobotany and Palynology, 267, 17-31, https://doi.org/10.1016/j.revpalbo.2019.05.004 Rudd, Rachel; Dixon, Teresa; Callow, John Nikolaus; Gadd, Patricia S; Maizma, Sabika; Jacobsen, Geraldine; Moss, Patrick T; McGowan, Hamish A (2025): A record of monsoon rainforest variability from the Kimberley region in northwestern Australia. Journal of Quaternary Science, 40(2), 243-256, https://doi.org/10.1002/jqs.3693 Saynor, Mike; Wasson, Robert; Erskine, Wayne; Lam, Daryl (2020): Holocene palaeohydrology of the East Alligator River, for application to mine site rehabilitation, Northern Australia. Quaternary Science Reviews, 249, 106552, https://doi.org/10.1016/j.quascirev.2020.106552 Shulmeister, James; Lees, Brian G (1995): Pollen evidence from tropical Australia for the onset of an ENSO-dominated climate at c. 4000 BP. The Holocene, 5(1), 10-18, https://doi.org/10.1177/095968369500500102 Stevenson, Janelle; Brockwell, Sally; Rowe, Cassandra; Proske, Ulrike; Shiner, Justin (2015): The palaeo-environmental history of Big Willum Swamp, Weipa: An environmental context for the archaeological record. Australian Archaeology, 80(1), 17-31, https://doi.org/10.1080/03122417.2015.11682041 Torgersen, T; Luly, J; De Deckker, Patrick; Jones, M R; Searle, D E; Chivas, A R; Ullman, W J (1988): Late quaternary environments of the Carpentaria Basin, Australia. Palaeogeography, Palaeoclimatology, Palaeoecology, 67(3-4), 245-261, https://doi.org/10.1016/0031-0182(88)90155-1 van der Kaars, Sander; De Deckker, Patrick; Gingele, Franz X (2006): A 100 000‐year record of annual and seasonal rainfall and temperature for northwestern Australia based on a pollen record obtained offshore. Journal of Quaternary Science, 21(8), 879-889, https://doi.org/10.1002/jqs.1010 van der Kaars, W A (1989): Aspects of late quaternary palynology of Eastern Indonesian deep-sea cores. Netherlands Journal of Sea Research, 24(4), 495-500, https://doi.org/10.1016/0077-7579(89)90127-0 Wende, R; Nanson, G C; Price, D M (1997): Aeolian and fluvial evidence for late Quaternary environmental change in the east Kimberley of Western Australia. Australian Journal of Earth Sciences, 44(4), 519-526, https://doi.org/10.1080/08120099708728331 Wyrwoll, Karl-Heinz; Miller, Gifford H (2001): Initiation of the Australian summer monsoon 14,000 years ago. Quaternary International, 83-85, 119-128, https://doi.org/10.1016/S1040-6182(01)00034-9 Funding: Australian Research Council (ARC) (URI: https://www.arc.gov.au/), grant/award no. CE170100015: ARC Centre of Excellence for Australian Biodiversity and Heritage (URI: https://dataportal.arc.gov.au/RGS/Web/Grants/CE170100015) Australian Research Council (ARC) (URI: https://www.arc.gov.au/), grant/award no. CE230100009: ARC Centre of Excellence for Indigenous and Environmental Histories and Futures (URI: https://dataportal.arc.gov.au/RGS/Web/Grants/CE230100009) Australian Research Council (ARC) (URI: https://www.arc.gov.au/), grant/award no. DE240100340: Identifying key fire drivers in Australia; biomass, climate or people (URI: https://dataportal.arc.gov.au/RGS/Web/Grants/DE240100340) Australian Research Council (ARC) (URI: https://www.arc.gov.au/), grant/award no. FT180100524: Climate extremes and landscape responses across continental Australia (URI: https://dataportal.arc.gov.au/RGS/Web/Grants/FT180100524) Coverage: MEDIAN LATITUDE: -14.154278 * MEDIAN LONGITUDE: 130.794996 * SOUTH-BOUND LATITUDE: -22.920000 * WEST-BOUND LONGITUDE: 113.500000 * NORTH-BOUND LATITUDE: -8.790000 * EAST-BOUND LONGITUDE: 145.240000 DATE/TIME START: 2001-05-03T21:05:00 * DATE/TIME END: 2005-10-01T04:42:00 MINIMUM ELEVATION: -2974.0 m * MAXIMUM ELEVATION: 330.0 m Event(s): FR10/95-GC17 * LATITUDE: -22.130000 * LONGITUDE: 113.500000 * ELEVATION: -1093.0 m * LOCATION: Indian Ocean * METHOD/DEVICE: Gravity corer (GC) GC-2 * LATITUDE: -12.519667 * LONGITUDE: 140.352333 * ELEVATION: -10.0 m * Recovery: 2.1 m * LOCATION: Arafura Sea * METHOD/DEVICE: Gravity corer (GC) GIK18479-4 * LATITUDE: -12.453280 * LONGITUDE: 121.373250 * DATE/TIME: 2005-09-23T22:03:00 * ELEVATION: -2974.0 m * Penetration: 25 m * LOCATION: Indian Ocean * CAMPAIGN: SO185 (VITAL) (URI: https://doi.org/10.2312/cr_so185) * BASIS: Sonne (URI: https://en.wikipedia.org/wiki/RV_Sonne) * METHOD/DEVICE: Piston corer (BGR type) (KL) GIK18506-2 * LATITUDE: -15.310930 * LONGITUDE: 119.500870 * DATE/TIME: 2005-10-01T04:42:00 * ELEVATION: -2410.0 m * Penetration: 20 m * Recovery: 15.59 m * LOCATION: Indian Ocean * CAMPAIGN: SO185 (VITAL) (URI: https://doi.org/10.2312/cr_so185) * BASIS: Sonne (URI: https://en.wikipedia.org/wiki/RV_Sonne) * METHOD/DEVICE: Piston corer (BGR type) (KL) MD01-2378 (MD012378) * LATITUDE: -13.082500 * LONGITUDE: 121.788000 * DATE/TIME: 2001-05-03T21:05:00 * ELEVATION: -1783.0 m * Recovery: 40.73 m * LOCATION: Timor Sea * CAMPAIGN: MD122 (IMAGES VII - WEPAMA) * BASIS: Marion Dufresne (1995) (URI: https://en.wikipedia.org/wiki/Marion_Dufresne_(1994)) * METHOD/DEVICE: Giant piston corer (GPC) MD97-2128 (MD972128) * LATITUDE: -11.190000 * LONGITUDE: 139.958000 * Recovery: 4.18 m * CAMPAIGN: MD106 (IMAGES III - IPHIS) (URI: http://www.ifremer.fr/sismer/UK/catal/campagne/campagnea.htql?crno=97200010) * BASIS: Marion Dufresne (1995) (URI: https://en.wikipedia.org/wiki/Marion_Dufresne_(1994)) * METHOD/DEVICE: Calypso Corer (CALYPSO) MD97-2129 (MD972129) * LATITUDE: -10.789000 * LONGITUDE: 138.718000 * Recovery: 6.24 m * CAMPAIGN: MD106 (IMAGES III - IPHIS) (URI: http://www.ifremer.fr/sismer/UK/catal/campagne/campagnea.htql?crno=97200010) * BASIS: Marion Dufresne (1995) (URI: https://en.wikipedia.org/wiki/Marion_Dufresne_(1994)) * METHOD/DEVICE: Calypso Corer (CALYPSO) MD97-2130 (MD972130) * LATITUDE: -12.266000 * LONGITUDE: 138.748000 * Recovery: 8.05 m * CAMPAIGN: MD106 (IMAGES III - IPHIS) (URI: http://www.ifremer.fr/sismer/UK/catal/campagne/campagnea.htql?crno=97200010) * BASIS: Marion Dufresne (1995) (URI: https://en.wikipedia.org/wiki/Marion_Dufresne_(1994)) * METHOD/DEVICE: Calypso Corer (CALYPSO) MD97-2131 (MD972131) * LATITUDE: -12.066000 * LONGITUDE: 138.749000 * Recovery: 13.59 m * CAMPAIGN: MD106 (IMAGES III - IPHIS) (URI: http://www.ifremer.fr/sismer/UK/catal/campagne/campagnea.htql?crno=97200010) * BASIS: Marion Dufresne (1995) (URI: https://en.wikipedia.org/wiki/Marion_Dufresne_(1994)) * METHOD/DEVICE: Calypso Corer (CALYPSO) MD97-2132 (MD972132) * LATITUDE: -12.313000 * LONGITUDE: 138.978000 * Recovery: 15.2 m * CAMPAIGN: MD106 (IMAGES III - IPHIS) (URI: http://www.ifremer.fr/sismer/UK/catal/campagne/campagnea.htql?crno=97200010) * BASIS: Marion Dufresne (1995) (URI: https://en.wikipedia.org/wiki/Marion_Dufresne_(1994)) * METHOD/DEVICE: Calypso Corer (CALYPSO) MD97-2133 (MD972133) * LATITUDE: -12.392000 * LONGITUDE: 140.338000 * Recovery: 6.56 m * CAMPAIGN: MD106 (IMAGES III - IPHIS) (URI: http://www.ifremer.fr/sismer/UK/catal/campagne/campagnea.htql?crno=97200010) * BASIS: Marion Dufresne (1995) (URI: https://en.wikipedia.org/wiki/Marion_Dufresne_(1994)) * METHOD/DEVICE: Calypso Corer (CALYPSO) TAEAC_BGC5 * LATITUDE: -17.030000 * LONGITUDE: 125.000000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_BGC6 * LATITUDE: -17.030000 * LONGITUDE: 125.000000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_BGC10 * LATITUDE: -17.030000 * LONGITUDE: 125.000000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_BGC11 * LATITUDE: -17.030000 * LONGITUDE: 125.000000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_BGC14 * LATITUDE: -17.030000 * LONGITUDE: 125.000000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_BGC16 * LATITUDE: -17.030000 * LONGITUDE: 125.000000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_Black_Springs * LATITUDE: -15.630000 * LONGITUDE: 126.380000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_BR-BU * LATITUDE: -15.466500 * LONGITUDE: 129.785000 * ELEVATION: 7.0 m * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_BSP * LATITUDE: -15.630000 * LONGITUDE: 126.380000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_BSP02 * LATITUDE: -15.630000 * LONGITUDE: 126.390000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_BW01 * LATITUDE: -12.657000 * LONGITUDE: 141.998000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_BWIL2 * LATITUDE: -12.657000 * LONGITUDE: 141.998000 * ELEVATION: 30.0 m * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_Cap_St_Lambert * LATITUDE: -14.310000 * LONGITUDE: 127.760000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_Cape_Flattery * LATITUDE: -15.080000 * LONGITUDE: 145.240000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_Cobourg_Peninsula * LATITUDE: -11.280000 * LONGITUDE: 132.200000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_Core89_1 * LATITUDE: -13.810000 * LONGITUDE: 136.870000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_CT * LATITUDE: -15.800000 * LONGITUDE: 128.800000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_Dune_W_Cape_York * LATITUDE: -12.280000 * LONGITUDE: 141.720000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_E_Alligator_R * LATITUDE: -12.560000 * LONGITUDE: 133.110000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_ELZ02 * LATITUDE: -16.400000 * LONGITUDE: 126.130000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_Fitzroy_Estuary * LATITUDE: -17.310000 * LONGITUDE: 123.570000 * METHOD/DEVICE: Coastal coring/sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: coastal. TAEAC_Fitzroy_River * LATITUDE: -20.130000 * LONGITUDE: 127.410000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_FRN02 * LATITUDE: -15.940000 * LONGITUDE: 126.280000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_G5_6_149P2 * LATITUDE: -9.000000 * LONGITUDE: 128.000000 * METHOD/DEVICE: Marine sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: marine_core. TAEAC_GC_10A * LATITUDE: -13.070000 * LONGITUDE: 140.200000 * METHOD/DEVICE: Marine sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: marine_core. TAEAC_Gilwah * LATITUDE: -20.130000 * LONGITUDE: 127.410000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_Girraween * LATITUDE: -12.520000 * LONGITUDE: 131.080000 * ELEVATION: 20.0 m * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_Karumba * LATITUDE: -17.690000 * LONGITUDE: 140.420000 * METHOD/DEVICE: Coastal coring/sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: coastal. TAEAC_King_River * LATITUDE: -15.520000 * LONGITUDE: 128.120000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_KNI_51_1 * LATITUDE: -15.180000 * LONGITUDE: 128.370000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_KNI_51_3 * LATITUDE: -15.180000 * LONGITUDE: 128.370000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_KNI_51_8 * LATITUDE: -15.180000 * LONGITUDE: 128.370000 * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_KNI_51_11 * LATITUDE: -15.180000 * LONGITUDE: 128.370000 * ELEVATION: 100.0 m * METHOD/DEVICE: Speleothem sample (SPS) * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: speleothem. TAEAC_Lake_Lewis * LATITUDE: -22.920000 * LONGITUDE: 132.530000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_Lake_Woods * LATITUDE: -17.850000 * LONGITUDE: 133.500000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_LG99 * LATITUDE: -20.130000 * LONGITUDE: 127.410000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_MAR2 * LATITUDE: -13.409000 * LONGITUDE: 135.774000 * ELEVATION: 50.0 m * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_MARR01 * LATITUDE: -17.070000 * LONGITUDE: 139.490000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Geochronological data compiled from published sources. Original archive type: lake. TAEAC_MARR02 * LATITUDE: -17.070000 * LONGITUDE: 139.490000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_MARR03 * LATITUDE: -17.070000 * LONGITUDE: 139.490000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Geochronological data compiled from published sources. Original archive type: lake. TAEAC_MARR04 * LATITUDE: -17.070000 * LONGITUDE: 139.490000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_Mary_River * LATITUDE: -12.480000 * LONGITUDE: 131.680000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_Mulan * LATITUDE: -20.210000 * LONGITUDE: 127.440000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_OD * LATITUDE: -15.800000 * LONGITUDE: 128.800000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_Pandanus_Yard * LATITUDE: -17.690000 * LONGITUDE: 139.930000 * METHOD/DEVICE: Coastal coring/sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: coastal. TAEAC_Parnkupirti * LATITUDE: -20.250000 * LONGITUDE: 127.500000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_PL04_05 * LATITUDE: -15.540000 * LONGITUDE: 128.250000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: fluvial. TAEAC_SAN1a * LATITUDE: -11.120000 * LONGITUDE: 142.350000 * ELEVATION: 15.0 m * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_SAN1b * LATITUDE: -11.120000 * LONGITUDE: 142.360000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_Shelburne_Bay * LATITUDE: -11.920000 * LONGITUDE: 142.910000 * METHOD/DEVICE: Dune coring/sand pit sampling * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: aeolian. TAEAC_SkullSprings * LATITUDE: -15.210000 * LONGITUDE: 125.728000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_TableTopSwamp_a * LATITUDE: -13.178000 * LONGITUDE: 130.746000 * ELEVATION: 200.0 m * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_TableTopSwamp_b * LATITUDE: -13.178000 * LONGITUDE: 130.746000 * ELEVATION: 200.0 m * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_TableTopSwamp_c * LATITUDE: -13.178000 * LONGITUDE: 130.746000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Geochronological data compiled from published sources. Original archive type: lake. TAEAC_Walala_Core_2 * LATITUDE: -15.680000 * LONGITUDE: 137.030000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_WCC99_04 * LATITUDE: -19.170000 * LONGITUDE: 127.800000 * ELEVATION: 330.0 m * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_WCS01 * LATITUDE: -17.070000 * LONGITUDE: 139.490000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_WS01 * LATITUDE: -17.070000 * LONGITUDE: 139.490000 * METHOD/DEVICE: Lake sediment coring * COMMENT: Hydrological and geochronological data compiled from published sources. Original archive type: lake. TAEAC_Yuenbi * LATITUDE: -20.130000 * LONGITUDE: 127.410000 * METHOD/DEVICE: Fluvial coring/channel sediment coring * COMMENT: Geochronological data compiled from published sources. Original archive type: fluvial. Comment: • Calibration curves themselves are not included here (publicly available), but the column identifiers match standard Bchron curve names. • Reservoir corrections are stored as reported; NA indicates none was applied. • No calibrated ages are stored; these must be generated by the user using the accompanying code. Parameter(s): Event label (Event) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: sample; archive/site identifier LATITUDE (Latitude) * GEOCODE * PI: Wall, Alexander Forster (alexfwall@gmail.com) LONGITUDE (Longitude) * GEOCODE * PI: Wall, Alexander Forster (alexfwall@gmail.com) Archive (Archive) * PI: Wall, Alexander Forster (alexfwall@gmail.com) Laboratory code/label (Lab label) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: LAB ID Age, dating method (Dating meth) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: Chronology DEPTH, sediment/rock [m] (Depth sed) * GEOCODE * PI: Wall, Alexander Forster (alexfwall@gmail.com) DISTANCE [cm] (Distance) * GEOCODE * PI: Wall, Alexander Forster (alexfwall@gmail.com) Age, dated [ka] (Age dated) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: reported uncalibrated age (radiocarbon) or equivalent age Age, dated, error to older [ka +] (Age e +) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: positive error term (1 σ) Reservoir age [ka] (Res age) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: reservoir correction (if applicable) Calibration (Calibration) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: original calibration curve used in the publication Calibration (Calibration) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: updated calibration curve to be used for re-analysis Year of publication (Year pub) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: publication year of the original age determination Reference/source (Reference) * PI: Wall, Alexander Forster (alexfwall@gmail.com) * COMMENT: bibliographic reference for the date License: Creative Commons Attribution 4.0 International (CC-BY-4.0) (URI: https://creativecommons.org/licenses/by/4.0/) (License comes into effect after moratorium ends) Size: 5851 data points */ Event (sample; archive/site identifier) Latitude Longitude Archive Lab label (LAB ID) Dating meth (Chronology) Depth sed [m] Distance [cm] Age dated [ka] (reported uncalibrated age (ra...) Age e + [ka +] (positive error term (1 σ)) Res age [ka] (reservoir correction (if appl...) Calibration (original calibration curve us...) Calibration (updated calibration curve to ...) Year pub (publication year of the origi...) Reference (bibliographic reference for t...) TAEAC_BGC10 -17.030000 125.000000 speleothem 10.4 U/Th 31.5 38.640 0.550 normal normal 2013 Denniston et al. (2013) TAEAC_BGC10 -17.030000 125.000000 speleothem 10.3 U/Th 43.1 39.110 0.230 normal normal 2013 Denniston et al. (2013) TAEAC_BGC10 -17.030000 125.000000 speleothem 10.2 U/Th 54.6 38.170 0.290 normal normal 2013 Denniston et al. (2013) TAEAC_BGC10 -17.030000 125.000000 speleothem 10.1 U/Th 60.2 36.350 0.430 normal normal 2013 Denniston et al. (2013) TAEAC_BGC11 -17.030000 125.000000 speleothem 11.3 U/Th 9.1 10.070 0.740 normal normal 2013 Denniston et al. (2013) TAEAC_BGC11 -17.030000 125.000000 speleothem 11.2 U/Th 11.3 9.620 1.930 normal normal 2013 Denniston et al. (2013) TAEAC_BGC11 -17.030000 125.000000 speleothem 11.1 U/Th 15.1 10.290 1.720 normal normal 2013 Denniston et al. (2013) TAEAC_BGC14 -17.030000 125.000000 speleothem 14.5 U/Th 0.8 23.820 1.000 normal normal 2013 Denniston et al. (2013) TAEAC_BGC14 -17.030000 125.000000 speleothem 14.4 U/Th 6.3 21.260 0.990 normal normal 2013 Denniston et al. (2013) TAEAC_BGC14 -17.030000 125.000000 speleothem 14.3 U/Th 7.2 21.870 0.640 normal normal 2013 Denniston et al. (2013) TAEAC_BGC14 -17.030000 125.000000 speleothem 14.2 U/Th 8.9 22.440 1.260 normal normal 2013 Denniston et al. (2013) TAEAC_BGC14 -17.030000 125.000000 speleothem 14.1 U/Th 13.9 18.790 2.220 normal normal 2013 Denniston et al. (2013) TAEAC_BGC16 -17.030000 125.000000 speleothem 16.3 U/Th 18.7 37.040 0.480 normal normal 2013 Denniston et al. (2013) TAEAC_BGC16 -17.030000 125.000000 speleothem 16.5 U/Th 33.9 34.520 0.720 normal normal 2013 Denniston et al. (2013) TAEAC_BGC16 -17.030000 125.000000 speleothem 16.2 U/Th 50.6 36.870 1.220 normal normal 2013 Denniston et al. (2013) TAEAC_BGC16 -17.030000 125.000000 speleothem 16.4 U/Th 72.4 33.140 0.360 normal normal 2013 Denniston et al. (2013) TAEAC_BGC16 -17.030000 125.000000 speleothem 16.1 U/Th 81.9 32.070 0.790 normal normal 2013 Denniston et al. (2013) TAEAC_BGC5 -17.030000 125.000000 speleothem 5.6 U/Th 29.7 27.230 1.040 normal normal 2013 Denniston et al. (2013) TAEAC_BGC5 -17.030000 125.000000 speleothem 5.5 U/Th 36.1 25.570 2.150 normal normal 2013 Denniston et al. (2013) TAEAC_BGC5 -17.030000 125.000000 speleothem 5.4 U/Th 43.5 26.090 0.790 normal normal 2013 Denniston et al. (2013) TAEAC_BGC5 -17.030000 125.000000 speleothem 5.3 U/Th 46.3 25.420 0.500 normal normal 2013 Denniston et al. (2013) TAEAC_BGC5 -17.030000 125.000000 speleothem 5.2 U/Th 72.7 25.500 2.650 normal normal 2013 Denniston et al. (2013) TAEAC_BGC5 -17.030000 125.000000 speleothem 5.1 U/Th 76.9 26.000 1.730 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.18 U/Th 3.3 16.690 1.000 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.15 U/Th 25.5 13.590 2.900 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.14 U/Th 25.5 15.020 5.430 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.12 U/Th 25.5 15.100 1.500 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.13 U/Th 25.5 15.200 3.480 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.16 U/Th 25.5 17.760 0.270 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.17 U/Th 25.5 19.410 0.440 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.11 U/Th 35.6 12.330 1.680 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.10 U/Th 42.3 11.720 2.420 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.9 U/Th 46.3 11.090 2.830 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.8 U/Th 47.2 11.390 0.410 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.7 U/Th 48.4 10.740 2.050 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.6 U/Th 49.6 11.110 0.920 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.5 U/Th 52.6 10.850 0.990 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.4 U/Th 56.5 9.710 1.270 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.3 U/Th 64.9 7.220 2.140 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.2 U/Th 66.4 6.070 2.510 normal normal 2013 Denniston et al. (2013) TAEAC_BGC6 -17.030000 125.000000 speleothem 6.1 U/Th 67.4 6.550 1.640 normal normal 2013 Denniston et al. (2013) TAEAC_Black_Springs -15.630000 126.380000 lake Wk-29127 radiocarbon 0.2250 0.516 0.035 shcal04 shcal20 2012 McGowan et al. (2012) TAEAC_Black_Springs -15.630000 126.380000 lake Wk-28374 radiocarbon 0.4500 3.455 0.050 shcal04 shcal20 2012 McGowan et al. (2012) TAEAC_Black_Springs -15.630000 126.380000 lake Wk-19128 radiocarbon 0.5500 4.671 0.032 shcal04 shcal20 2012 McGowan et al. (2012) TAEAC_Black_Springs -15.630000 126.380000 lake Wk-29129 radiocarbon 0.7900 6.938 0.037 shcal04 shcal20 2012 McGowan et al. (2012) TAEAC_BR-BU -15.466500 129.785000 fluvial lead-210 0.0050 -0.069 0.000 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial lead-210 0.0100 -0.067 0.001 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial lead-210 0.0225 -0.057 0.001 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial lead-210 0.0300 -0.049 0.001 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial lead-210 0.0400 -0.045 0.002 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial lead-210 0.0525 -0.010 0.003 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial radiocarbon 0.3500 3.767 0.028 shcal20 shcal20 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 0.4000 4.029 0.400 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 0.6000 5.229 0.400 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 1.2000 14.829 1.500 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 1.5550 15.029 1.500 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 1.6850 29.129 3.000 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 1.7800 49.929 6.000 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 1.8600 57.929 8.000 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 2.0700 55.929 6.000 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 2.2050 60.929 7.000 normal normal 2025 Dixon et al. (2025) TAEAC_BR-BU -15.466500 129.785000 fluvial OSL 2.3850 71.929 9.000 normal normal 2025 Dixon et al. (2025) TAEAC_BSP -15.630000 126.380000 lake Wk-29127 radiocarbon 0.2250 0.516 0.035 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-28374 radiocarbon 0.4500 3.455 0.050 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-19128 radiocarbon 0.5500 4.671 0.032 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-29129 radiocarbon 0.7900 6.938 0.037 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-28376 radiocarbon 0.9450 8.186 0.035 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-29130 radiocarbon 1.0400 7.081 0.040 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-41825 radiocarbon 1.1270 6.151 0.084 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-28377 radiocarbon 1.2650 5.713 0.030 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-29131 radiocarbon 1.4000 7.439 0.036 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-28375 radiocarbon 1.5250 7.033 0.031 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP -15.630000 126.380000 lake Wk-41826 radiocarbon 1.6430 5.437 0.022 shcal13 shcal20 2017 Field et al. (2017) TAEAC_BSP02 -15.630000 126.390000 lake Wk-44690 radiocarbon 0.7500 3.014 0.020 shcal13 shcal20 2018 Field et al. (2018) TAEAC_BSP02 -15.630000 126.390000 lake Wk-44691 radiocarbon 1.4900 6.430 0.023 shcal13 shcal20 2018 Field et al. (2018) TAEAC_BSP02 -15.630000 126.390000 lake OZT912 radiocarbon 1.8700 8.890 0.060 shcal13 shcal20 2018 Field et al. (2018) TAEAC_BSP02 -15.630000 126.390000 lake Wk-44692 radiocarbon 1.8900 8.944 0.029 shcal13 shcal20 2018 Field et al. (2018) TAEAC_BSP02 -15.630000 126.390000 lake OZU455 radiocarbon 2.3300 12.100 0.040 shcal13 shcal20 2018 Field et al. (2018) TAEAC_BW01 -12.657000 141.998000 lake Wk34027 radiocarbon 0.1050 1.063 0.026 shcal13 shcal20 2015 Stevenson et al. (2015) TAEAC_BW01 -12.657000 141.998000 lake Wk34028 radiocarbon 0.1850 1.491 0.025 shcal13 shcal20 2015 Stevenson et al. (2015) TAEAC_BW01 -12.657000 141.998000 lake Wk35162 radiocarbon 0.2150 2.275 0.025 shcal13 shcal20 2015 Stevenson et al. (2015) TAEAC_BW01 -12.657000 141.998000 lake D-AMS001835 radiocarbon 0.2350 4.244 0.027 shcal13 shcal20 2015 Stevenson et al. (2015) TAEAC_BW01 -12.657000 141.998000 lake Wk35163 radiocarbon 0.2550 4.993 0.039 shcal13 shcal20 2015 Stevenson et al. (2015) TAEAC_BW01 -12.657000 141.998000 lake Wk34029 radiocarbon 0.2850 6.217 0.040 shcal13 shcal20 2015 Stevenson et al. (2015) TAEAC_BWIL2 -12.657000 141.998000 lake U090 lead-210 0.0000 -0.070 0.005 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U093 lead-210 0.0150 -0.032 0.006 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U094 lead-210 0.0200 -0.020 0.006 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U095 lead-210 0.0250 -0.009 0.006 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U096 lead-210 0.0300 0.003 0.007 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U097 lead-210 0.0350 0.016 0.007 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U098 lead-210 0.0400 0.031 0.008 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U099 lead-210 0.0450 0.075 0.009 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U530 lead-210 0.0500 0.606 0.009 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake OZX211 radiocarbon 0.0500 0.760 0.020 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake U534 lead-210 0.0650 0.714 0.011 normal normal 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake OZW504 radiocarbon 0.0800 1.280 0.020 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake OZW505 radiocarbon 0.0900 1.510 0.035 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake OZW506 radiocarbon 0.1000 1.730 0.030 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake OZW507 radiocarbon 0.1100 3.145 0.040 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_BWIL2 -12.657000 141.998000 lake OZW508 radiocarbon 0.1200 3.445 0.035 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian W894 TL 0.400 0.200 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian W899 TL 0.550 0.200 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian W895 TL 0.700 0.250 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian W898 TL 0.850 0.500 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian XAL097 TL 1.500 0.200 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian XAL098 TL 1.600 0.200 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian W900 TL 1.650 0.450 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian W897 TL 2.950 0.900 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian XAL100 TL 3.400 0.300 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian XAL099 TL 4.700 0.500 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian W896 TL 4.900 1.350 normal normal 1992 Lees et al. (1992) TAEAC_Cap_St_Lambert -14.310000 127.760000 aeolian XAL096 TL 5.600 0.800 normal normal 1992 Lees et al. (1992) TAEAC_Cape_Flattery -15.080000 145.240000 aeolian ANU-6171 radiocarbon 0.220 0.070 normal shcal20 1990 Lees et al. (1990) TAEAC_Cape_Flattery -15.080000 145.240000 aeolian Au-03 TL 2.000 1.000 normal normal 1990 Lees et al. (1990) TAEAC_Cape_Flattery -15.080000 145.240000 aeolian Au-18 TL 19.200 3.400 normal normal 1990 Lees et al. (1990) TAEAC_Cape_Flattery -15.080000 145.240000 aeolian Au-04 TL 19.800 2.300 normal normal 1990 Lees et al. (1990) TAEAC_Cape_Flattery -15.080000 145.240000 aeolian Au-19 TL 22.700 2.800 normal normal 1990 Lees et al. (1990) TAEAC_Cape_Flattery -15.080000 145.240000 aeolian Au-05 TL 171.000 13.000 normal normal 1990 Lees et al. (1990) TAEAC_Cobourg_Peninsula -11.280000 132.200000 aeolian ANU-6029 radiocarbon 0.180 0.105 normal shcal20 1990 Lees et al. (1990) TAEAC_Cobourg_Peninsula -11.280000 132.200000 aeolian Au-15 TL 1.900 0.400 normal normal 1990 Lees et al. (1990) TAEAC_Cobourg_Peninsula -11.280000 132.200000 aeolian Au-17 TL 2.600 0.300 normal normal 1990 Lees et al. (1990) TAEAC_Cobourg_Peninsula -11.280000 132.200000 aeolian Au-16 TL 2.800 0.700 normal normal 1990 Lees et al. (1990) TAEAC_Cobourg_Peninsula -11.280000 132.200000 aeolian Au-13 TL 8.600 1.400 normal normal 1990 Lees et al. (1990) TAEAC_Cobourg_Peninsula -11.280000 132.200000 aeolian Au-11 TL 9.300 1.100 normal normal 1990 Lees et al. (1990) TAEAC_Cobourg_Peninsula -11.280000 132.200000 aeolian Au-12 TL 81.400 8.500 normal normal 1990 Lees et al. (1990) TAEAC_Core89_1 -13.850000 136.780000 lake ANU7108 radiocarbon 0.1500 0.980 0.170 normal shcal20 1995 Shulmeister and Lees (1995) TAEAC_Core89_1 -13.850000 136.780000 lake ANU7109 radiocarbon 0.4500 3.960 0.170 normal shcal20 1995 Shulmeister and Lees (1995) TAEAC_Core89_1 -13.850000 136.780000 lake ANU7110 radiocarbon 0.7500 4.200 0.100 normal shcal20 1995 Shulmeister and Lees (1995) TAEAC_Core89_1 -13.850000 136.780000 lake ANU7111 radiocarbon 1.1000 7.450 0.090 normal shcal20 1995 Shulmeister and Lees (1995) TAEAC_Core89_1 -13.850000 136.780000 lake ANU7112 radiocarbon 1.2000 9.250 0.230 normal shcal20 1995 Shulmeister and Lees (1995) TAEAC_Core89_1 -13.850000 136.780000 lake ANU7113 radiocarbon 1.2500 8.690 0.200 normal shcal20 1995 Shulmeister and Lees (1995) TAEAC_Core89_1 -13.850000 136.780000 lake AA6460 radiocarbon 1.5500 10.000 0.075 normal shcal20 1995 Shulmeister and Lees (1995) TAEAC_CT -15.800000 128.800000 aeolian W2015 TL 1.8000 6.100 0.500 normal normal 1997 Wende et al. (1997) TAEAC_CT -15.800000 128.800000 aeolian W2016 TL 3.5000 5.300 0.400 normal normal 1997 Wende et al. (1997) TAEAC_CT -15.800000 128.800000 aeolian W1773 TL 4.5000 9.000 0.700 normal normal 1997 Wende et al. (1997) TAEAC_CT -15.800000 128.800000 aeolian W1772 TL 4.7000 12.600 1.000 normal normal 1997 Wende et al. (1997) TAEAC_CT -15.800000 128.800000 aeolian W2019 TL 5.5000 37.400 6.100 normal normal 1997 Wende et al. (1997) TAEAC_CT -15.800000 128.800000 aeolian W2017 TL 6.0000 9.800 1.000 normal normal 1997 Wende et al. (1997) TAEAC_CT -15.800000 128.800000 aeolian W2018 TL 6.2000 10.400 1.000 normal normal 1997 Wende et al. (1997) TAEAC_CT -15.800000 128.800000 aeolian W1771 TL 7.5000 37.000 3.100 normal normal 1997 Wende et al. (1997) TAEAC_Dune_W_Cape_York -12.280000 141.720000 aeolian W1272 TL 5.200 1.800 normal normal 1993 Lees et al. (1993) TAEAC_Dune_W_Cape_York -12.280000 141.720000 aeolian W1273 TL 5.300 2.100 normal normal 1993 Lees et al. (1993) TAEAC_Dune_W_Cape_York -12.280000 141.720000 aeolian W1275 TL 8.300 1.100 normal normal 1993 Lees et al. (1993) TAEAC_Dune_W_Cape_York -12.280000 141.720000 aeolian W1276 TL 8.300 0.600 normal normal 1993 Lees et al. (1993) TAEAC_Dune_W_Cape_York -12.280000 141.720000 aeolian W1274 TL 11.200 1.800 normal normal 1993 Lees et al. (1993) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial EALa1 OSL 0.340 0.030 normal normal 2020 Saynor et al. (2020) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial EALa2 OSL 0.480 0.120 normal normal 2020 Saynor et al. (2020) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial Nt1-5 OSL 0.590 0.110 normal normal 2020 Saynor et al. (2020) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial Nt5-0 OSL 1.070 0.160 normal normal 2020 Saynor et al. (2020) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial Nt7-5 OSL 1.940 0.270 normal normal 2020 Saynor et al. (2020) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial EALa3 OSL 2.910 0.350 normal normal 2020 Saynor et al. (2020) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial EALa4 OSL 3.100 0.200 normal normal 2020 Saynor et al. (2020) TAEAC_E_Alligator_R -12.560000 133.110000 fluvial EALa5 OSL 8.400 0.400 normal normal 2020 Saynor et al. (2020) TAEAC_ELZ02 -16.400000 126.130000 lake OZU456 radiocarbon 0.3500 3.175 0.025 shcal13 shcal20 2018 Field et al. (2018) TAEAC_ELZ02 -16.400000 126.130000 lake OZU457 radiocarbon 0.5600 5.355 0.035 shcal13 shcal20 2018 Field et al. (2018) TAEAC_ELZ02 -16.400000 126.130000 lake OZU458 radiocarbon 0.7600 7.790 0.035 shcal13 shcal20 2018 Field et al. (2018) TAEAC_ELZ02 -16.400000 126.130000 lake Wk-44693 radiocarbon 0.9600 8.859 0.033 shcal13 shcal20 2018 Field et al. (2018) TAEAC_ELZ02 -16.400000 126.130000 lake OZU459 radiocarbon 1.1600 12.430 0.045 shcal13 shcal20 2018 Field et al. (2018) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal ANU1194A radiocarbon 0.144 0.012 normal postbomb_SH3 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal ANU1074 radiocarbon 0.153 0.012 normal postbomb_SH3 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal ANU1194B radiocarbon 0.350 0.080 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal GAK3843 radiocarbon 0.500 0.080 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal GAK3840 radiocarbon 0.910 0.080 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal GAK3842 radiocarbon 1.190 0.080 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal GAK2020 radiocarbon 5.840 0.110 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal ANU378 radiocarbon 5.990 0.190 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal GAK019 radiocarbon 6.050 0.130 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal ANU377 radiocarbon 6.140 0.120 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal GAK201 radiocarbon 6.160 0.190 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal ANU1075 radiocarbon 6.570 0.080 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal GAK2017 radiocarbon 7.400 0.110 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_Estuary -17.310000 123.570000 coastal ANU188 radiocarbon 7.450 0.770 normal shcal20 1975 Jennings (1975) TAEAC_Fitzroy_River -20.130000 127.410000 fluvial Wk2404b radiocarbon 11.700 0.150 shcal98 shcal20 2001 Wyrwoll and Miller (2001) TAEAC_Fitzroy_River -20.130000 127.410000 fluvial Wk2403 radiocarbon 11.850 0.380 shcal98 shcal20 2001 Wyrwoll and Miller (2001) TAEAC_Fitzroy_River -20.130000 127.410000 fluvial Wk2404a radiocarbon 12.050 0.420 shcal98 shcal20 2001 Wyrwoll and Miller (2001) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13031 radiocarbon 0.0750 1.630 0.185 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13030 radiocarbon 0.1950 2.150 0.600 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13029 radiocarbon 0.4550 4.050 0.225 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13028 radiocarbon 0.5750 4.760 0.220 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13027 radiocarbon 0.6550 6.200 0.180 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13026 radiocarbon 0.7550 7.370 0.190 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13025 radiocarbon 0.8350 7.930 0.220 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA6124 radiocarbon 0.9750 9.420 0.230 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13024 radiocarbon 1.0550 11.330 0.260 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core OZD499 radiocarbon 1.1750 13.080 0.110 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core OZD741 radiocarbon 1.2350 14.300 0.110 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core OZD744 radiocarbon 1.3950 19.250 0.280 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13023 radiocarbon 1.4950 20.240 0.550 0.4000 intcal98 shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13022 radiocarbon 1.8250 27.820 0.780 0.4000 hughen shcal20 2006 Van der Kaars et al. (2006) FR10/95-GC17 -22.130000 113.500000 marine_core ANUA13020 radiocarbon 2.5000 40.650 1.130 0.4000 hughen shcal20 2006 Van der Kaars et al. (2006) TAEAC_FRN02 -15.940000 126.280000 lake OZU460 radiocarbon 0.4900 1.215 0.025 shcal13 shcal20 2018 Field et al. (2018) TAEAC_FRN02 -15.940000 126.280000 lake OZT918 radiocarbon 0.5000 1.030 0.030 shcal13 shcal20 2018 Field et al. (2018) TAEAC_FRN02 -15.940000 126.280000 lake OZU461 radiocarbon 0.9500 3.505 0.025 shcal13 shcal20 2018 Field et al. (2018) TAEAC_FRN02 -15.940000 126.280000 lake OZT163 radiocarbon 1.0000 3.395 0.040 shcal13 shcal20 2018 Field et al. (2018) TAEAC_FRN02 -15.940000 126.280000 lake OZT162 radiocarbon 1.4800 6.960 0.040 shcal13 shcal20 2018 Field et al. (2018) TAEAC_FRN02 -15.940000 126.280000 lake OZT917 radiocarbon 1.5000 6.980 0.210 shcal13 shcal20 2018 Field et al. (2018) TAEAC_FRN02 -15.940000 126.280000 lake OZU462 radiocarbon 1.9600 10.110 0.035 shcal13 shcal20 2018 Field et al. (2018) TAEAC_G5_6_149P2 -9.000000 128.000000 marine_core radiocarbon 0.0000 3.950 0.100 normal marine20 1989 van der Kaars et al. (1989) TAEAC_G5_6_149P2 -9.000000 128.000000 marine_core radiocarbon 2.0000 18.800 0.300 normal marine20 1989 van der Kaars et al. (1989) TAEAC_G5_6_149P2 -9.000000 128.000000 marine_core radiocarbon 4.0000 34.000 2.000 normal marine20 1989 van der Kaars et al. (1989) TAEAC_G5_6_149P2 -9.000000 128.000000 marine_core radiocarbon 5.5000 43.000 7.000 normal marine20 1989 van der Kaars et al. (1989) TAEAC_GC_10A -13.070000 140.200000 marine_core ANU3691 radiocarbon 1.0050 26.960 0.580 normal marine20 1988 Torgersen et al. (1988) TAEAC_GC_10A -13.070000 140.200000 marine_core ANU3692 radiocarbon 1.1100 35.440 1.050 normal marine20 1988 Torgersen et al. (1988) TAEAC_GC_10A -13.070000 140.200000 marine_core ANU3690 radiocarbon 1.2050 35.330 1.520 normal marine20 1988 Torgersen et al. (1988) GC-2 -13.070000 140.200000 marine_core ANU3695 radiocarbon 0.0000 6.290 0.120 normal marine20 1988 Torgersen et al. (1988) GC-2 -13.070000 140.200000 marine_core ANU4800 radiocarbon 0.0350 5.170 0.130 normal marine20 1988 Torgersen et al. (1988) GC-2 -13.070000 140.200000 marine_core ANU4801 radiocarbon 0.2850 7.240 0.160 normal marine20 1988 Torgersen et al. (1988) GC-2 -13.070000 140.200000 marine_core ANU4802 radiocarbon 0.3300 9.800 0.340 normal marine20 1988 Torgersen et al. (1988) GC-2 -13.070000 140.200000 marine_core ANU4804 radiocarbon 0.6900 14.170 0.390 normal marine20 1988 Torgersen et al. (1988) TAEAC_Gilwah -20.130000 127.410000 fluvial OS23434 radiocarbon 0.001 0.000 postbomb_SH3 postbomb_SH3 2001 Wyrwoll and Miller (2001) TAEAC_Gilwah -20.130000 127.410000 fluvial AA33402 radiocarbon 12.505 0.080 shcal98 shcal20 2001 Wyrwoll and Miller (2001) TAEAC_Gilwah -20.130000 127.410000 fluvial OS23433 radiocarbon 12.550 0.110 shcal98 shcal20 2001 Wyrwoll and Miller (2001) TAEAC_Girraween -12.520000 131.080000 lake OZV436 radiocarbon 0.4100 0.780 0.025 shcal13 shcal20 2019 Rowe et al. (2019) TAEAC_Girraween -12.520000 131.080000 lake OZV437 radiocarbon 1.1500 0.940 0.025 shcal13 shcal20 2019 Rowe et al. (2019) TAEAC_Girraween -12.520000 131.080000 lake OZV438 radiocarbon 2.1400 3.535 0.025 shcal13 shcal20 2019 Rowe et al. (2019) TAEAC_Girraween -12.520000 131.080000 lake OZV439 radiocarbon 2.5800 5.060 0.035 shcal13 shcal20 2019 Rowe et al. (2019) TAEAC_Girraween -12.520000 131.080000 lake OZV440 radiocarbon 3.1300 7.780 0.035 shcal13 shcal20 2019 Rowe et al. (2019) TAEAC_Girraween -12.520000 131.080000 lake OZV441 radiocarbon 3.9000 9.150 0.035 shcal13 shcal20 2019 Rowe et al. (2019) TAEAC_Girraween -12.520000 131.080000 lake OZV442 radiocarbon 4.5500 12.970 0.080 shcal13 shcal20 2019 Rowe et al. (2019) TAEAC_Girraween -12.520000 131.080000 lake GIR3-E-55 OSL 4.6700 10.400 0.700 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-F-18 OSL 5.1800 23.100 1.300 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-F-45 OSL 5.4500 28.900 1.700 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-F-75 OSL 5.7900 32.600 2.000 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-G-60 OSL 6.5600 32.500 2.100 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-H-30 OSL 7.0300 42.700 2.900 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-H-70 OSL 7.4300 49.100 3.300 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-I-5 OSL 7.6700 54.300 3.200 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-I-30 OSL 7.9200 58.300 3.900 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-I-65 OSL 8.2500 58.300 3.600 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-J-13 OSL 8.7300 62.400 4.800 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-L-50 OSL 9.5000 67.900 5.800 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-M-8 OSL 10.0800 77.600 5.400 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-N-50 OSL 10.5000 83.100 6.000 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-N-75 OSL 10.9700 88.500 6.700 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-O-28 OSL 11.2800 91.400 7.500 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-O-42 OSL 11.4200 90.800 8.200 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-O-1992 OSL 11.9000 97.100 11.400 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-P-20 OSL 12.2500 88.800 7.500 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-Q-25 OSL 13.3000 102.000 12.100 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-R-1993 OSL 14.9000 116.700 13.100 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-S-5 OSL 15.1000 115.900 12.000 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-S-95 OSL 15.9800 116.600 8.800 normal normal 2024 Bird et al. (2024) TAEAC_Girraween -12.520000 131.080000 lake GIR3-T-65 OSL 16.7000 121.600 10.400 normal normal 2024 Bird et al. (2024) TAEAC_Karumba -17.690000 140.420000 coastal ANU188 radiocarbon 5.600 normal normal 1982 Rhodes (1982) TAEAC_King_River -15.570360 128.139650 fluvial ANU-35405 radiocarbon 1.830 0.010 shcal13 shcal20 2014 Proske et al. (2014) TAEAC_King_River -16.570360 129.139650 fluvial ANU-35406 radiocarbon 6.500 0.035 shcal13 shcal20 2014 Proske et al. (2014) TAEAC_King_River -17.570360 130.139650 fluvial ANU-31709 radiocarbon 6.550 0.045 shcal13 shcal20 2014 Proske et al. (2014) TAEAC_King_River -18.570360 131.139650 fluvial ANU-32712 radiocarbon 6.610 0.060 shcal13 shcal20 2014 Proske et al. (2014) TAEAC_King_River -20.570360 133.139650 fluvial ANU-33413 radiocarbon 6.900 0.060 shcal13 shcal20 2014 Proske et al. (2014) TAEAC_King_River -19.570360 132.139650 fluvial ANU-32713 radiocarbon 7.470 0.110 shcal13 shcal20 2014 Proske et al. (2014) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 2.4 22.502 1.601 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 8.8 25.256 0.537 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 11.7 19.978 0.101 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 16.6 21.349 0.138 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 23.1 15.265 0.189 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 24.3 14.741 0.273 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 24.9 11.249 0.530 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 26.1 10.341 0.659 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 29.2 8.019 0.067 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_1 -15.180000 128.370000 speleothem U/Th 34.1 8.021 0.186 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.21 U/Th 2.4 0.183 0.017 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.20 U/Th 4.4 0.163 0.005 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.19 U/Th 9.3 1.770 0.012 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.18 U/Th 20.0 0.054 0.002 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.17 U/Th 20.6 0.054 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.16 U/Th 23.1 0.044 0.002 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.15 U/Th 25.5 0.029 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.14 U/Th 26.6 0.026 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.13 U/Th 27.3 0.022 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.12 U/Th 28.0 0.016 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.10 U/Th 29.2 0.001 0.007 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.9 U/Th 29.7 0.002 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.8 U/Th 30.3 0.005 0.002 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.7 U/Th 31.1 0.000 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.6 U/Th 33.4 -0.020 0.002 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.5 U/Th 34.3 -0.029 0.002 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.4 U/Th 35.4 -0.035 0.002 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.3 U/Th 37.5 -0.049 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.2 U/Th 39.4 -0.055 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_11 -15.180000 128.370000 speleothem 11.1 U/Th 40.5 -0.060 0.001 normal normal 2015 Denniston et al. (2015) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 4.3 21.768 0.240 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 4.8 22.013 0.207 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 6.3 19.394 0.173 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 10.1 19.202 0.227 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 10.8 18.154 0.129 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 16.5 17.734 0.151 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 18.9 17.155 0.128 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 24.7 16.429 0.254 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 25.4 14.838 0.167 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_3 -15.180000 128.370000 speleothem U/Th 26.2 14.151 0.148 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 0.3 21.596 1.377 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 0.8 21.182 0.248 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 3.4 21.175 0.248 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 4.3 19.114 2.451 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 6.0 18.892 0.327 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 7.6 18.034 0.113 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 8.5 17.052 0.233 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 10.5 16.537 0.185 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 12.2 16.273 0.275 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 13.0 15.177 0.277 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 13.5 13.018 0.338 normal normal 2017 Denniston et al. (2017) TAEAC_KNI_51_8 -15.180000 128.370000 speleothem U/Th 14.0 12.740 0.127 normal normal 2017 Denniston et al. (2017) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95017 OSL 2.190 0.080 normal normal 2001 English et al. (2001) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95012 OSL 4.980 0.200 normal normal 2001 English et al. (2001) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95016A OSL 7.680 0.220 normal normal 2001 English et al. (2001) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95018A OSL 8.160 0.320 normal normal 2001 English et al. (2001) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95018B OSL 11.170 0.480 normal normal 2001 English et al. (2001) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95016B OSL 14.800 0.560 normal normal 2001 English et al. (2001) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95016C OSL 18.120 0.810 normal normal 2001 English et al. (2001) TAEAC_Lake_Lewis -22.920000 132.530000 lake 95016D OSL 18.650 0.860 normal normal 2001 English et al. (2001) TAEAC_Lake_Woods -17.850000 133.500000 lake adLD95003 OSL 26.800 3.500 normal normal 1998 Bowler et al. (1998) TAEAC_Lake_Woods -17.850000 133.500000 lake adLD95006 OSL 28.900 0.550 normal normal 1998 Bowler et al. (1998) TAEAC_Lake_Woods -17.850000 133.500000 lake adLD95004 OSL 53.000 5.000 normal normal 1998 Bowler et al. (1998) TAEAC_Lake_Woods -17.850000 133.500000 lake adLD95007 OSL 61.000 0.800 normal normal 1998 Bowler et al. (1998) TAEAC_Lake_Woods -17.850000 133.500000 lake adLD95008 OSL 96.000 10.000 normal normal 1998 Bowler et al. (1998) TAEAC_Lake_Woods -17.850000 133.500000 lake adLD95005 OSL 180.000 20.000 normal normal 1998 Bowler et al. (1998) TAEAC_LG99 -20.130000 127.410000 fluvial OS26200 radiocarbon 12.170 0.170 shcal98 shcal20 2001 Wyrwoll and Miller (2001) TAEAC_LG99 -20.130000 127.410000 fluvial OS24884 radiocarbon 13.020 0.065 shcal98 shcal20 2001 Wyrwoll and Miller (2001) TAEAC_MAR2 -13.409000 135.774000 lake U087 lead-210 0.1000 -0.018 0.014 normal normal 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake U088 lead-210 0.1500 0.004 0.021 normal normal 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake U089 lead-210 0.2000 0.026 0.028 normal normal 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake OZW494 radiocarbon 0.4400 1.105 0.030 shcal20 shcal20 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake OZW495 radiocarbon 0.7200 1.360 0.035 shcal20 shcal20 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake OZW496 radiocarbon 1.4400 2.055 0.035 shcal20 shcal20 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake OZW497 radiocarbon 1.8400 2.555 0.040 shcal20 shcal20 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake OZW498 radiocarbon 2.4400 3.535 0.035 shcal20 shcal20 2021 Rehn et al. (2021b) TAEAC_MAR2 -13.409000 135.774000 lake OZW499 radiocarbon 2.8400 4.155 0.050 shcal20 shcal20 2021 Rehn et al. (2021b) TAEAC_MARR01 -17.070000 139.490000 lake OZR376 radiocarbon 0.5000 0.465 0.035 intcal13 shcal20 2015 Moss et al. (2015) TAEAC_MARR02 -17.070000 139.490000 lake OZO075 radiocarbon 0.3900 0.000 0.050 postbomb_SH3 postbomb_SH3 2015 Moss et al. (2015) TAEAC_MARR02 -17.070000 139.490000 lake Wk-38216 radiocarbon 0.4600 0.000 0.050 postbomb_SH3 postbomb_SH3 2015 Moss et al. (2015) TAEAC_MARR02 -17.070000 139.490000 lake Wk-38884 radiocarbon 0.5800 0.364 0.026 intcal13 shcal20 2015 Moss et al. (2015) TAEAC_MARR02 -17.070000 139.490000 lake Wk-38885 radiocarbon 0.7500 2.611 0.025 marine13 marine20 2015 Moss et al. (2015) TAEAC_MARR03 -17.070000 139.490000 lake OZR374 radiocarbon 0.5000 0.650 0.030 intcal13 shcal20 2015 Moss et al. (2015) TAEAC_MARR04 -17.070000 139.490000 lake P486 lead-210 0.0050 -0.066 0.001 normal normal 2017 Mackenzie et al. (2017) TAEAC_MARR04 -17.070000 139.490000 lake P487 lead-210 0.0250 -0.061 0.002 normal normal 2017 Mackenzie et al. (2017) TAEAC_MARR04 -17.070000 139.490000 lake P488 lead-210 0.0550 -0.052 0.003 normal normal 2017 Mackenzie et al. (2017) TAEAC_MARR04 -17.070000 139.490000 lake P489 lead-210 0.1050 -0.032 0.005 normal normal 2017 Mackenzie et al. (2017) TAEAC_MARR04 -17.070000 139.490000 lake P490 lead-210 0.1550 -0.022 0.007 normal normal 2017 Mackenzie et al. (2017) TAEAC_MARR04 -17.070000 139.490000 lake P491 lead-210 0.2050 -0.008 0.009 normal normal 2017 Mackenzie et al. (2017) TAEAC_MARR04 -17.070000 139.490000 lake OZS567 radiocarbon 0.3550 0.570 0.020 shcal13 shcal20 2017 Mackenzie et al. (2017) TAEAC_MARR04 -17.070000 139.490000 lake OZR035 radiocarbon 0.4650 1.240 0.030 shcal13 shcal20 2017 Mackenzie et al. (2017) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7144 radiocarbon 0.000 0.001 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7745 radiocarbon 0.000 0.001 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7151 radiocarbon 0.390 0.340 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6652 radiocarbon 0.600 0.270 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7153 radiocarbon 0.890 0.210 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7139 radiocarbon 1.000 0.120 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7143 radiocarbon 1.190 0.120 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7145 radiocarbon 1.210 0.110 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7156 radiocarbon 1.310 0.320 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7146 radiocarbon 1.440 0.180 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7140 radiocarbon 1.520 0.070 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial OZA-376 radiocarbon 1.910 0.100 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7147 radiocarbon 1.920 0.190 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6651 radiocarbon 1.960 0.200 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7150 radiocarbon 2.360 0.200 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-8195 radiocarbon 2.640 0.060 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7724 radiocarbon 3.210 0.170 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6658 radiocarbon 3.280 0.340 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial Beta-55847 radiocarbon 3.340 0.070 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial Beta-55846 radiocarbon 3.390 0.100 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial Beta-55845 radiocarbon 3.640 0.070 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6657 radiocarbon 3.690 0.190 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7161 radiocarbon 3.820 0.450 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7149 radiocarbon 3.920 0.270 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial OZA-373 radiocarbon 4.070 0.120 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7744 radiocarbon 4.150 0.400 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-8191 radiocarbon 4.190 0.080 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7727 radiocarbon 4.300 0.320 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7141 radiocarbon 4.450 0.130 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7725 radiocarbon 4.690 0.210 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7165 radiocarbon 4.740 0.140 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7728 radiocarbon 4.860 0.290 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7746 radiocarbon 4.860 0.090 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial OZA-374 radiocarbon 4.950 0.130 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-8193 radiocarbon 4.990 0.080 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7159 radiocarbon 5.070 0.260 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6656 radiocarbon 5.170 0.200 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-8192 radiocarbon 5.190 0.080 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6653 radiocarbon 5.330 0.210 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7735 radiocarbon 5.350 0.210 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-8194 radiocarbon 5.350 0.200 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7740 radiocarbon 5.380 0.150 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7162 radiocarbon 5.430 0.340 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7736 radiocarbon 5.470 0.240 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7737 radiocarbon 5.480 0.180 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6654 radiocarbon 5.500 0.260 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7741 radiocarbon 5.500 0.210 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7730 radiocarbon 5.600 0.210 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial OZA-375 radiocarbon 5.690 0.140 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7738 radiocarbon 5.780 0.140 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7731 radiocarbon 5.850 0.170 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7726 radiocarbon 5.960 0.190 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7164 radiocarbon 6.130 0.190 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7733 radiocarbon 6.240 0.170 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7729 radiocarbon 6.280 0.270 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7742 radiocarbon 6.490 0.200 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-6655 radiocarbon 6.650 0.430 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7158 radiocarbon 6.770 0.240 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7739 radiocarbon 6.790 0.400 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7743 radiocarbon 7.030 0.160 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7732 radiocarbon 7.030 0.220 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7155 radiocarbon 7.080 0.140 normal shcal20 1998 Mulrennan and Woodroffe (1998) TAEAC_Mary_River -12.480000 131.680000 fluvial ANU-7734 radiocarbon 7.290 0.160 normal shcal20 1998 Mulrennan and Woodroffe (1998) MD97-2128 -12.313167 139.978833 marine_core OZG-374 radiocarbon 0.6000 10.260 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2128 -12.313167 139.978833 marine_core OZG-373 radiocarbon 0.7000 14.960 0.090 marine04 marine20 2008 Reeves et al. (2008) MD97-2128 -12.313167 139.978833 marine_core OZG-375 radiocarbon 0.7500 14.280 0.090 marine04 marine20 2008 Reeves et al. (2008) MD97-2129 -10.789333 138.720000 marine_core OZF283 radiocarbon 0.0500 0.820 0.045 marine04 marine20 2008 Reeves et al. (2008) MD97-2129 -10.789333 138.720000 marine_core OZE259 radiocarbon 0.2000 9.810 0.090 marine04 marine20 2008 Reeves et al. (2008) MD97-2129 -10.789333 138.720000 marine_core OZI053 radiocarbon 3.2500 40.600 2.000 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZF284 radiocarbon 0.0000 8.270 0.060 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZG230 radiocarbon 0.0500 1.655 0.050 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZG381 radiocarbon 0.3000 4.860 0.050 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZG285 radiocarbon 0.6000 9.330 0.070 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZE255 radiocarbon 0.6500 4.310 0.060 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZE250 radiocarbon 0.7000 10.410 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZG-231 radiocarbon 0.8000 10.430 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZG-382 radiocarbon 0.9000 10.680 0.070 marine04 marine20 2008 Reeves et al. (2008) MD97-2130 -12.266833 138.748667 marine_core OZG386 radiocarbon 1.5000 11.880 0.170 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZE262 radiocarbon 0.0000 6.840 0.050 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZE262U2 radiocarbon 0.0000 7.790 0.060 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG220 radiocarbon 0.0500 3.770 0.040 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZF287 radiocarbon 0.1000 10.020 0.060 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG383 radiocarbon 0.3000 2.290 0.045 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG221 radiocarbon 0.5500 1.930 0.040 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZE256 radiocarbon 0.5500 6.910 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG377 radiocarbon 0.6000 0.735 0.035 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZE251 radiocarbon 0.6500 10.350 0.100 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG-222 radiocarbon 0.7500 10.320 0.060 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZI-054 radiocarbon 1.4000 10.990 0.110 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG232 radiocarbon 1.8000 3.810 0.100 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG233 radiocarbon 3.2000 46.100 2.000 marine04 marine20 2008 Reeves et al. (2008) MD97-2131 -12.066000 138.749667 marine_core OZG234 radiocarbon 3.3000 45.800 1.700 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZF-290 radiocarbon 0.0035 10.380 0.070 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZF-291 radiocarbon 0.4000 11.440 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZF-292 radiocarbon 0.7000 12.390 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZG-378 radiocarbon 0.7500 14.390 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZG-385 radiocarbon 1.0000 14.907 0.130 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZG-386 radiocarbon 1.2000 14.330 0.090 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZG-388 radiocarbon 1.4500 14.330 0.100 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZF-293 radiocarbon 1.5000 15.390 0.110 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OZI-055 radiocarbon 2.3400 18.320 0.170 marine04 marine20 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core AARMD32a AAR 12.5000 122.000 18.000 0.0000 normal normal 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core AARMD32b AAR 13.0000 108.000 16.000 0.0000 normal normal 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core TLMD32b TL 15.0000 123.000 16.000 normal normal 2008 Reeves et al. (2008) MD97-2132 -12.313167 139.978833 marine_core OSLMD32 OSL 15.0000 125.000 15.000 normal normal 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZF294 radiocarbon 0.0000 2.010 0.080 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG236 radiocarbon 0.0000 2.575 0.045 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZF294 radiocarbon 0.0050 2.010 0.080 0.0520 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG236 radiocarbon 0.0050 2.575 0.045 0.0520 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG237 radiocarbon 0.1000 1.310 0.040 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG237 radiocarbon 0.1050 1.310 0.040 normal marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZE258 radiocarbon 0.2000 0.470 0.050 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZF295 radiocarbon 0.2000 0.700 0.030 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZE258 radiocarbon 0.2050 0.470 0.050 0.0520 marine04 shcal20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZF295 radiocarbon 0.2050 0.700 0.030 normal marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG389 radiocarbon 0.3000 0.820 0.050 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG389 radiocarbon 0.3050 0.820 0.050 normal marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZE253 radiocarbon 0.7700 14.550 0.100 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZE252 radiocarbon 0.7700 15.760 0.090 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZE253 radiocarbon 0.7750 14.550 0.100 intcal04 shcal20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZE252 radiocarbon 0.7750 15.760 0.090 intcal04 shcal20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZI057 radiocarbon 2.0000 39.840 0.980 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZI058 radiocarbon 2.0050 39.840 0.980 normal marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG224 radiocarbon 2.1000 40.000 0.600 marine04 marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core OZG224 radiocarbon 2.1050 40.000 0.600 normal marine20 2008 Reeves et al. (2008) MD97-2133 -12.390000 140.340000 marine_core TLMD32a TL 5.5000 64.300 7.000 normal normal 2008 Reeves et al. (2008) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 0.0100 1.515 0.030 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 0.1500 2.130 0.040 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 0.3500 2.780 0.040 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 0.5300 3.465 0.035 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 0.7300 4.295 0.030 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 1.0500 5.405 0.035 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 1.2100 6.190 0.035 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 1.5000 7.485 0.045 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 1.6800 8.575 0.040 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.0200 9.660 0.045 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.2800 10.370 0.050 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.4600 9.690 0.045 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.4900 10.905 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.5200 11.415 0.050 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.5500 10.995 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.5800 11.375 0.050 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.6200 11.670 0.050 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.6400 12.260 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.6700 12.260 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.6900 12.150 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.7300 12.080 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.7600 12.705 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.8000 12.430 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.8500 12.660 0.058 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.8800 12.610 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.9200 13.020 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.9600 12.580 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 2.9800 13.270 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.0100 13.470 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.0500 13.580 0.065 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.0700 13.640 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.1100 13.725 0.065 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.1500 13.940 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.1700 14.260 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.2100 14.500 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.3100 14.930 0.085 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.3500 15.160 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.3900 15.230 0.075 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.3900 15.410 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.4500 15.310 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.5100 15.390 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.5600 15.625 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.5900 15.480 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.6200 16.210 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.6400 16.310 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.6500 16.340 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.6700 16.530 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.6900 16.500 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.7300 16.790 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.7900 16.950 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.8300 17.470 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.8700 17.370 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.8900 17.410 0.095 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.9100 17.440 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.9500 17.740 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 3.9800 17.830 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.0100 16.880 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.0300 17.890 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.0500 17.725 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.0600 18.340 0.140 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.0700 18.410 0.110 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.0900 18.440 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.1300 18.490 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.1500 17.820 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.1800 18.670 0.110 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.2100 18.890 0.120 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.2500 18.990 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.3000 19.050 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.3300 18.790 0.110 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.3500 18.220 0.110 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.3700 19.260 0.110 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.3900 19.060 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.4100 19.960 0.110 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 4.4600 20.280 0.120 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) MD01-2378 -13.080000 121.790000 marine_core radiocarbon 5.9200 29.920 0.330 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) TAEAC_Mulan -20.130000 127.410000 fluvial ANU11098 radiocarbon 0.000 0.060 postbomb_SH3 postbomb_SH3 2001 Wyrwoll and Miller (2001) TAEAC_OD -15.800000 128.800000 aeolian W1595 TL 3.4000 0.500 0.100 normal normal 1997 Wende et al. (1997) TAEAC_OD -15.800000 128.800000 aeolian W1596 TL 6.3000 5.900 1.000 normal normal 1997 Wende et al. (1997) TAEAC_OD -15.800000 128.800000 aeolian W1597 TL 8.3000 21.700 2.900 normal normal 1997 Wende et al. (1997) TAEAC_Pandanus_Yard -17.690000 139.930000 coastal ANU378 radiocarbon 5.400 normal normal 1982 Rhodes (1982) TAEAC_Parnkupirti -20.250000 127.500000 aeolian K1534 OSL 5.600 0.300 normal normal 2012 Fitzsimmons et al. (2012) TAEAC_Parnkupirti -20.250000 127.500000 aeolian K1532 OSL 11.400 1.300 normal normal 2012 Fitzsimmons et al. (2012) TAEAC_Parnkupirti -20.250000 127.500000 aeolian K1531 OSL 20.100 1.400 normal normal 2012 Fitzsimmons et al. (2012) TAEAC_Parnkupirti -20.250000 127.500000 aeolian K1533 OSL 91.500 4.300 normal normal 2012 Fitzsimmons et al. (2012) TAEAC_PL04_05 -15.540000 128.250000 fluvial ANU-35837 radiocarbon 0.1500 0.630 0.030 shcal13 shcal20 2016 Proske (2016) TAEAC_PL04_05 -15.540000 128.250000 fluvial ANU-31712 radiocarbon 0.4700 3.210 0.070 shcal13 shcal20 2016 Proske (2016) TAEAC_PL04_05 -15.540000 128.250000 fluvial ANU-35528 radiocarbon 2.1200 6.640 0.040 shcal13 shcal20 2016 Proske (2016) TAEAC_PL04_05 -15.540000 128.250000 fluvial ANU-33416 radiocarbon 2.6100 6.565 0.055 shcal13 shcal20 2016 Proske (2016) TAEAC_PL04_05 -15.540000 128.250000 fluvial ANU-35529 radiocarbon 3.4600 6.765 0.035 shcal13 shcal20 2016 Proske (2016) TAEAC_SAN1a -11.120000 142.350000 lake OZX213 radiocarbon 0.0500 5.880 0.035 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_SAN1a -11.120000 142.350000 lake OZX214 radiocarbon 0.0700 6.535 0.050 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_SAN1a -11.120000 142.350000 lake OZW500 radiocarbon 0.1000 7.230 0.070 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_SAN1a -11.120000 142.350000 lake OZW502 radiocarbon 0.2200 7.200 0.030 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_SAN1a -11.120000 142.350000 lake OZW503 radiocarbon 0.5000 7.795 0.030 shcal20 shcal20 2021 Rehn et al. (2021a) TAEAC_SAN1b -11.120000 142.360000 lake OZY416 radiocarbon 0.0300 2.690 0.070 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY423 radiocarbon 0.0300 10.200 0.140 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX672 radiocarbon 0.0600 3.840 0.045 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX765U1 radiocarbon 0.0600 4.120 0.100 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX765 radiocarbon 0.0600 4.165 0.035 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX765U2 radiocarbon 0.0600 4.180 0.140 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY131 radiocarbon 0.0600 4.450 0.030 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY417 radiocarbon 0.1250 4.180 0.070 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY418 radiocarbon 0.2300 7.040 0.080 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY333 radiocarbon 0.3200 6.435 0.030 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY419 radiocarbon 0.4200 5.990 0.080 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX766 radiocarbon 0.4300 7.750 0.035 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX673 radiocarbon 0.4300 8.660 0.040 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX767 radiocarbon 0.6700 9.900 0.050 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX674 radiocarbon 0.6700 15.240 0.060 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY420 radiocarbon 0.7600 17.360 0.160 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY758 radiocarbon 0.8200 10.590 0.100 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY421 radiocarbon 0.9000 19.450 0.080 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY422 radiocarbon 1.0500 17.960 0.160 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake Wk50327 radiocarbon 1.1400 23.549 0.126 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX768 radiocarbon 1.3700 15.560 0.090 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX675 radiocarbon 1.3700 24.340 0.190 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZY132 radiocarbon 1.4600 11.920 0.040 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX769 radiocarbon 1.4600 16.270 0.070 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX676 radiocarbon 1.4600 26.290 0.260 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake Wk50328 radiocarbon 1.5000 25.931 0.167 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_SAN1b -11.120000 142.360000 lake OZX677 radiocarbon 1.6200 27.100 0.140 intcal13 intcal20 2022 Rivera-Araya et al. (2022) TAEAC_Shelburne_Bay -11.920000 142.910000 aeolian Au-06 TL 23.800 2.400 normal normal 1990 Lees et al. (1990) TAEAC_Shelburne_Bay -11.920000 142.910000 aeolian ALPHA-2597 TL 23.800 2.400 normal normal 1990 Lees et al. (1990) TAEAC_Shelburne_Bay -11.920000 142.910000 aeolian Au-07 TL 28.400 1.300 normal normal 1990 Lees et al. (1990) TAEAC_Shelburne_Bay -11.920000 142.910000 aeolian ANU-4890 radiocarbon 29.740 3.030 normal shcal20 1990 Lees et al. (1990) TAEAC_Shelburne_Bay -11.920000 142.910000 aeolian Au-09 TL 29.900 2.400 normal normal 1990 Lees et al. (1990) TAEAC_SkullSprings -15.210000 125.728000 lake OZAX77 radiocarbon 0.1450 0.000 0.075 postbomb_SH3 postbomb_SH3 2025 Rudd et al. (2025) TAEAC_SkullSprings -15.210000 125.728000 lake OZAX78 radiocarbon 0.2950 0.000 0.075 postbomb_SH3 postbomb_SH3 2025 Rudd et al. (2025) TAEAC_SkullSprings -15.210000 125.728000 lake OZAX79 radiocarbon 0.4450 2.160 0.025 shcal20 shcal20 2025 Rudd et al. (2025) TAEAC_SkullSprings -15.210000 125.728000 lake OZAX80 radiocarbon 0.5950 2.505 0.025 shcal20 shcal20 2025 Rudd et al. (2025) TAEAC_SkullSprings -15.210000 125.728000 lake Wk54533 radiocarbon 0.7600 7.795 0.020 shcal20 shcal20 2025 Rudd et al. (2025) TAEAC_SkullSprings -15.210000 125.728000 lake Wk53969 radiocarbon 0.7800 4.534 0.022 shcal20 shcal20 2025 Rudd et al. (2025) TAEAC_SkullSprings -15.210000 125.728000 lake OZAX81 radiocarbon 0.8650 16.055 0.040 shcal20 shcal20 2025 Rudd et al. (2025) GIK18479-4 -12.450000 121.370000 marine_core radiocarbon 0.1900 1.255 0.030 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18479-4 -12.450000 121.370000 marine_core radiocarbon 1.1900 7.480 0.045 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18479-4 -12.450000 121.370000 marine_core radiocarbon 1.5900 10.365 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18479-4 -12.450000 121.370000 marine_core radiocarbon 1.9900 12.570 0.070 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18479-4 -12.450000 121.370000 marine_core radiocarbon 2.3900 14.240 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18479-4 -12.450000 121.370000 marine_core radiocarbon 2.7000 15.590 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.0100 1.950 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.0400 2.920 0.025 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.1200 4.370 0.030 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.1800 4.830 0.030 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.2400 6.215 0.030 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.2800 7.015 0.035 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.3300 8.380 0.045 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.3800 9.640 0.045 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.4300 10.575 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.4600 11.005 0.045 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.4800 11.245 0.050 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.5000 11.580 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.5300 11.425 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.5800 12.225 0.060 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.6000 12.530 0.055 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.6200 13.310 0.110 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.6800 14.660 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.7200 15.100 0.080 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.7800 15.720 0.090 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.8200 17.100 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.8600 17.540 0.120 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.9200 17.760 0.100 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 0.9800 19.390 0.120 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) GIK18506-2 -8.790000 128.640000 marine_core radiocarbon 1.0600 20.930 0.130 0.4000 marine04 marine20 2015 Kuhnt et al. (2015) TAEAC_TableTopSwamp_a -13.178000 130.746000 lake Wk39261 radiocarbon 0.1180 0.100 0.000 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_a -13.178000 130.746000 lake Wk39263 radiocarbon 0.1180 0.506 0.025 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_a -13.178000 130.746000 lake OZS777 radiocarbon 0.1820 2.035 0.025 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_a -13.178000 130.746000 lake Wk39262 radiocarbon 0.2460 4.350 0.025 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_a -13.178000 130.746000 lake Wk39264 radiocarbon 0.2460 7.437 0.035 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_a -13.178000 130.746000 lake OZS778 radiocarbon 0.3080 7.125 0.050 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_a -13.178000 130.746000 lake OZS780 radiocarbon 0.3980 8.110 0.050 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_b -13.178000 130.746000 lake Wk39265 radiocarbon 0.5450 9.778 0.051 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_b -13.178000 130.746000 lake TS425-750 OSL 0.7500 24.610 2.020 normal normal 2018 Marx et al. (2021) TAEAC_TableTopSwamp_b -13.178000 130.746000 lake Wk39266 radiocarbon 0.7750 9.244 0.043 shcal13 shcal20 2018 Marx et al. (2021) TAEAC_TableTopSwamp_c -13.178000 130.746000 lake TS425-950 OSL 0.9500 31.280 3.270 normal normal 2018 Marx et al. (2021) TAEAC_TableTopSwamp_c -13.178000 130.746000 lake TS425-1080 OSL 1.0800 32.170 3.070 normal normal 2018 Marx et al. (2021) TAEAC_Walala_Core_2 -15.680000 137.030000 lake OZH347 radiocarbon 0.2900 3.110 0.050 intcal98 shcal20 2005 Prebble et al. (2005) TAEAC_Walala_Core_2 -15.680000 137.030000 lake OZH120 radiocarbon 0.4500 4.190 0.050 intcal98 shcal20 2005 Prebble et al. (2005) TAEAC_Walala_Core_2 -15.680000 137.030000 lake OZH121 radiocarbon 0.5500 5.760 0.050 intcal98 shcal20 2005 Prebble et al. (2005) TAEAC_Walala_Core_2 -15.680000 137.030000 lake OZH123 radiocarbon 0.6500 6.430 0.050 intcal98 shcal20 2005 Prebble et al. (2005) TAEAC_Walala_Core_2 -15.680000 137.030000 lake OZH348 radiocarbon 0.9000 8.450 0.080 intcal98 shcal20 2005 Prebble et al. (2005) TAEAC_WCC99_04 -19.170000 127.800000 lake NSRL-13177 radiocarbon 0.7500 4.800 0.030 shcal13 shcal20 2018 Miller et al. (2018) TAEAC_WCC99_04 -19.170000 127.800000 lake NSRL-11170 radiocarbon 0.7500 4.970 0.065 shcal13 shcal20 2018 Miller et al. (2018) TAEAC_WCC99_04 -19.170000 127.800000 lake NSRL-13038 radiocarbon 3.6300 11.550 0.045 shcal13 shcal20 2018 Miller et al. (2018) TAEAC_WCC99_04 -19.170000 127.800000 lake NSRL-11171 radiocarbon 3.6700 9.820 0.090 shcal13 shcal20 2018 Miller et al. (2018) TAEAC_WCS01 -17.070000 139.490000 lake OZR-036 lead-210 0.575 0.025 shcal13 shcal20 2017 Mackenzie et al. (2017) TAEAC_WS01 -17.070000 139.490000 lake OZR-037 lead-210 0.420 0.025 shcal13 shcal20 2017 Mackenzie et al. (2017) TAEAC_Yuenbi -20.130000 127.410000 fluvial AA33399 radiocarbon 11.145 0.075 shcal98 shcal20 2001 Wyrwoll and Miller (2001)