A continental perspective on the timing of environmental change during the last glacial stage in Australia

Abstract The timing and duration of the coldest period in the last glacial stage, often referred to as the last glacial maximum (LGM), has been observed to vary spatially and temporally. In Australia, this period is characterised by colder, and in some places more arid, climates than today. We applied Monte-Carlo change point analysis to all available continuous proxy records covering this period, primarily pollen records, from across Australia (n = 37) to assess this change. We find a significant change point occurred (within uncertainty) at 28.6 ± 2.8 ka in 25 records. We interpret this change as a shift to cooler climates, associated with a widespread decline in biological productivity. An additional change point occurred at 17.7 ± 2.2 ka in 24 records. We interpret this change as a shift towards warmer climates, associated with increased biological productivity. We broadly characterise the period between 28.6 (± 2.8) – 17.7 (± 2.2) ka as an extended period of maximum cooling, with low productivity vegetation that may have occurred as a combined response to reduced temperatures, lower moisture availability and atmospheric CO2. These results have implications for how the spatial and temporal coherence of climate change, in this case during the LGM, can be best interrogated and interpreted.

[1]  E. Bard,et al.  Marine20—The Marine Radiocarbon Age Calibration Curve (0–55,000 cal BP) , 2020, Radiocarbon.

[2]  Q. Hua,et al.  SHCal20 Southern Hemisphere Calibration, 0–55,000 Years cal BP , 2020, Radiocarbon.

[3]  C. Rowe,et al.  Vegetation over the last glacial maximum at Girraween Lagoon, monsoonal northern Australia , 2020, Quaternary Research.

[4]  Timothy T. Barrows,et al.  Late Pleistocene lake level history of Lake Mungo, Australia , 2020, Quaternary Science Reviews.

[5]  J. Christen,et al.  A Review of Statistics in Palaeoenvironmental Research , 2020, Journal of Agricultural, Biological and Environmental Statistics.

[6]  R. Drysdale,et al.  Speleothem growth intervals reflect New Zealand montane vegetation response to temperature change over the last glacial cycle , 2020, Scientific Reports.

[7]  A. Hogg,et al.  Investigating Subantarctic 14C Ages of Different Peat Components: Site and Sample Selection for Developing Robust Age Models in Dynamic Landscapes , 2019, Radiocarbon.

[8]  R. Drysdale,et al.  Vegetation and Climate Change in Southwestern Australia During the Last Glacial Maximum , 2019, Geophysical Research Letters.

[9]  L. Arnold,et al.  Marine Isotope Stage 4 in Australasia: A full glacial culminating 65,000 years ago – Global connections and implications for human dispersal , 2019, Quaternary Science Reviews.

[10]  C. Barr,et al.  Post little ice age drying of eastern Australia conflates understanding of early settlement impacts , 2018, Quaternary Science Reviews.

[11]  J. Goff,et al.  The Radiocarbon Ages of Different Organic Components in the Mires of Eastern Australia , 2018, Radiocarbon.

[12]  Rebecca Killick,et al.  Distinguishing Trends and Shifts from Memory in Climate Data , 2018, Journal of Climate.

[13]  K. Fryirs,et al.  Palaeohydrology of lowland rivers in the Murray-Darling Basin, Australia , 2018, Quaternary Science Reviews.

[14]  B. Stewart,et al.  Late Quaternary palaeoclimates and human-environment dynamics of the Maloti-Drakensberg region, southern Africa , 2018, Quaternary Science Reviews.

[15]  P. Moss,et al.  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 , 2018, Quaternary Science Reviews.

[16]  Z. Jacobs,et al.  Revisiting an arid LGM using fluvial archives: a luminescence chronology for palaeochannels of the Murrumbidgee River, south‐eastern Australia , 2018, Journal of Quaternary Science.

[17]  C. Turney,et al.  Millennial-scale variability in south-east Australian hydroclimate between 30,000 and 10,000 years ago , 2018, Quaternary Science Reviews.

[18]  J. Webster,et al.  Rapid glaciation and a two-step sea level plunge into the Last Glacial Maximum , 2018, Nature.

[19]  P. Reimer,et al.  Double the dates and go for Bayes — Impacts of model choice, dating density and quality on chronologies , 2018 .

[20]  P. Moss,et al.  A 25,000-year record of environmental change from Welsby Lagoon, North Stradbroke Island, in the Australian subtropics , 2017 .

[21]  P. Moss,et al.  A 60 000‐year record of environmental change for the Wet Tropics of north‐eastern Australia based on the ODP 820 marine core , 2017 .

[22]  J. Shulmeister,et al.  Last Glacial Maximum and Last Glacial–Interglacial Transition pollen record from northern NSW, Australia: evidence for a humid late Last Glacial Maximum and dry deglaciation in parts of eastern Australia , 2017 .

[23]  J. Schmitt,et al.  A 156 kyr smoothed history of the atmospheric greenhouse gases CO 2 , CH 4 , and N 2 O and their radiative forcing , 2017 .

[24]  R. Hill History of the Australian vegetation : cretaceous to recent , 2017 .

[25]  P. Moss,et al.  A late Quaternary record of vegetation and climate change from Hazards Lagoon, eastern Tasmania , 2017 .

[26]  P. Moss,et al.  An extended Last Glacial Maximum in subtropical Australia , 2017 .

[27]  D. Fink,et al.  Cosmogenic 10 Be and 26 Al exposure ages of glaciations in the Frankland Range, southwest Tasmania reveal a limited MIS-2 ice advance , 2017 .

[28]  I. Prentice,et al.  Reconstructing ice-age palaeoclimates: Quantifying low-CO2 effects on plants , 2017 .

[29]  R. Drysdale,et al.  Hydroclimate of the Last Glacial Maximum and deglaciation in southern Australia's arid margin interpreted from speleothem records (23–15 ka) , 2016 .

[30]  Michael K. Gagan,et al.  Disentangling the impacts of climate and human colonization on the flora and fauna of the Australian arid zone over the past 100 ka using stable isotopes in avian eggshell , 2016 .

[31]  Paul Hesse,et al.  How do longitudinal dunes respond to climate forcing? Insights from 25 years of luminescence dating of the Australian desert dunefields , 2016 .

[32]  J. Shulmeister,et al.  Constant wind regimes during the Last Glacial Maximum and early Holocene: Evidence from Little Llangothlin Lagoon, New England Tablelands, eastern Australia , 2016 .

[33]  S. Haberle,et al.  A new late Quaternary palaeohydrological record from the humid tropics of northeastern Australia , 2016 .

[34]  Marc Macias-Fauria,et al.  Sensitivity of global terrestrial ecosystems to climate variability , 2016, Nature.

[35]  R. Drysdale,et al.  Pliocene reversal of late Neogene aridification , 2016, Proceedings of the National Academy of Sciences.

[36]  Christopher N. Johnson,et al.  Combining paleo-data and modern exclosure experiments to assess the impact of megafauna extinctions on woody vegetation , 2015, Proceedings of the National Academy of Sciences.

[37]  W. Steffen,et al.  A continental narrative: human settlement patterns and Australian climate change over the last 35,000 years , 2015 .

[38]  J. Shulmeister,et al.  A chironomid-inferred summer temperature reconstruction from subtropical Australia during the last glacial maximum (LGM) and the last deglaciation , 2015 .

[39]  C. Sloss,et al.  Patterned fen formation and development from the Great Sandy Region, south-east Queensland, Australia , 2015 .

[40]  W. Truscott,et al.  The Mungo Mega-Lake Event, Semi-Arid Australia: Non-Linear Descent into the Last Ice Age, Implications for Human Behaviour , 2015, PloS one.

[41]  K. Lambeck,et al.  Sea level and global ice volumes from the Last Glacial Maximum to the Holocene , 2014, Proceedings of the National Academy of Sciences.

[42]  J. Shulmeister,et al.  The early rise and late demise of New Zealand’s last glacial maximum , 2014, Proceedings of the National Academy of Sciences.

[43]  K. Grice,et al.  Glacial and Holocene terrestrial temperature variability in subtropical east Australia as inferred from branched GDGT distributions in a sediment core from Lake McKenzie , 2014, Quaternary Research.

[44]  Idris A. Eckley,et al.  changepoint: An R Package for Changepoint Analysis , 2014 .

[45]  Yi Y. Liu,et al.  Contribution of semi-arid ecosystems to interannual variability of the global carbon cycle , 2014, Nature.

[46]  A. Nolan,et al.  Hydrospatial assessment of streamflow yields and effects of climate change: Snowy Mountains, Australia , 2014 .

[47]  B. Mishler,et al.  Quantifying Phytogeographical Regions of Australia Using Geospatial Turnover in Species Composition , 2014, PloS one.

[48]  P. Gibbard,et al.  Timing of glaciation during the last glacial cycle: evaluating the concept of a global 'Last Glacial Maximum' (LGM) , 2013 .

[49]  G. Denton,et al.  The anatomy of Last Glacial Maximum climate variations in south Westland, New Zealand, derived from pollen records , 2013 .

[50]  P. Moss,et al.  Late Quaternary vegetation history of North Stradbroke Island, Queensland, eastern Australia , 2013 .

[51]  Timothy T. Barrows,et al.  Climate variability over the last 35,000 years recorded in marine and terrestrial archives in the Australian region: an OZ-INTIMATE compilation , 2013 .

[52]  Timothy T. Barrows,et al.  Palaeoenvironmental change in tropical Australasia over the last 30,000 years: a synthesis by the OZ-INTIMATE group , 2013 .

[53]  Timothy T. Barrows,et al.  Late Quaternary palaeoenvironmental change in the Australian drylands , 2013 .

[54]  Timothy T. Barrows,et al.  Late Pleistocene glacial stratigraphy of the Kumara-Moana region, West Coast of South Island, New Zealand , 2013 .

[55]  Timothy T. Barrows,et al.  Climatic records over the past 30 ka from temperate Australia – a synthesis from the Oz-INTIMATE workgroup , 2013, Quaternary Science Reviews.

[56]  J. Canadell,et al.  Multiple observation types reduce uncertainty in Australia's terrestrial carbon and water cycles , 2013 .

[57]  Sergio M. Vicente-Serrano,et al.  Response of vegetation to drought time-scales across global land biomes , 2012, Proceedings of the National Academy of Sciences.

[58]  Stefan Schouten,et al.  Late Quaternary productivity changes from offshore Southeastern Australia: A biomarker approach , 2012 .

[59]  S. Grab,et al.  Shifting westerlies and precipitation patterns during the Late Pleistocene in southern Africa determined using glacier reconstruction and mass balance modelling , 2012 .

[60]  J. Canadell,et al.  The Australian terrestrial carbon budget , 2012 .

[61]  S. Higgins,et al.  Atmospheric CO2 forces abrupt vegetation shifts locally, but not globally , 2012, Nature.

[62]  J. Christen,et al.  Flexible paleoclimate age-depth models using an autoregressive gamma process , 2011 .

[63]  M. Williams,et al.  Loess and floods: High-resolution multi-proxy data of Last Glacial Maximum (LGM) slackwater deposition in the Flinders Ranges, semi-arid South Australia , 2010 .

[64]  M. Fletcher,et al.  A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia , 2010 .

[65]  E. Rhodes,et al.  Episodic fluvial activity of inland rivers in southeastern Australia: Palaeochannel systems and terraces of the Lachlan River , 2010 .

[66]  M. Norman,et al.  Lead isotopic evidence for an Australian source of aeolian dust to Antarctica at times over the last 170,000 years , 2010 .

[67]  Timothy T. Barrows,et al.  Glacial and deglacial climatic patterns in Australia and surrounding regions from 35 000 to 10 000 years ago reconstructed from terrestrial and near-shore proxy data , 2009 .

[68]  Peter J. Bradbury,et al.  The Last Glacial Maximum , 2009, Science.

[69]  K. Page,et al.  Late Quaternary evolution of Riverine Plain paleochannels, southeastern Australia , 2009 .

[70]  H. McGowan,et al.  Reconstructing transport pathways for late Quaternary dust from eastern Australia using the composition of trace elements of long traveled dusts , 2009 .

[71]  J. Toggweiler Shifting Westerlies , 2009, Science.

[72]  P. Moss,et al.  Climate variability during the Last Glacial Maximum in eastern Australia: evidence of two stadials? , 2008 .

[73]  G. Duller Single‐grain optical dating of Quaternary sediments: why aliquot size matters in luminescence dating , 2008 .

[74]  T. Hill,et al.  A late Quaternary pollen sequence from Mfabeni Peatland, South Africa: Reconstructing forest history in Maputaland , 2008, Quaternary Research.

[75]  B. Jones,et al.  Alluvial evidence for major climate and flow regime changes during the middle and late Quaternary in eastern central Australia , 2008 .

[76]  Gary Blau,et al.  Review of Statistics , 2008 .

[77]  Geraldine Jacobsen,et al.  Environmental and cultural change on the Mt Eccles lava-flow landscapes of southwest Victoria, Australia , 2008 .

[78]  H. Martin,et al.  A 38,000 Year History of the Vegetation at Penrith Lakes, New South Wales , 2008 .

[79]  M. Huuse,et al.  A morphometric analysis of tunnel valleys in the eastern North Sea based on 3D seismic data , 2007 .

[80]  Gavin Simpson,et al.  Analogue Methods in Palaeoecology: Using the analogue Package , 2007 .

[81]  Peter Kershaw,et al.  A complete pollen record of the last 230 ka from Lynch's Crater, north-eastern Australia , 2007 .

[82]  N. Porch,et al.  A high‐resolution record of vegetation and climate through the last glacial cycle from Caledonia Fen, southeastern highlands of Australia , 2007 .

[83]  E. Krull,et al.  Palaeoenvironmental reconstruction of the Late Pleistocene to Early Holocene Robertson Cave sedimentary deposit, Naracoorte, South Australia , 2007 .

[84]  M. Vandergoes,et al.  A terrestrial palynological record for the last two glacial cycles from southwestern New Zealand , 2007 .

[85]  Lionel Carter,et al.  Towards a climate event stratigraphy for New Zealand over the past 30 000 years (NZ‐INTIMATE project) , 2007 .

[86]  H. Visscher,et al.  Late Pleistocene and Holocene subtropical vegetation dynamics recorded in perched lake deposits on Fraser Island, Queensland, Australia , 2006 .

[87]  S. Mooney,et al.  A >43,000-year vegetation and fire history from Lake Baraba, New South Wales, Australia , 2006 .

[88]  Timothy T. Barrows,et al.  Integration of ice‐core, marine and terrestrial records for the Australian Last Glacial Maximum and Termination: a contribution from the OZ INTIMATE group , 2006 .

[89]  H. Heijnis,et al.  The vegetation history of the last glacial–interglacial cycle in eastern New South Wales, Australia , 2006 .

[90]  M. Cupper Luminescence and radiocarbon chronologies of playa sedimentation in the Murray Basin, southeastern Australia , 2006 .

[91]  Timothy T. Barrows,et al.  Exposure dating and glacial reconstruction at Mt. Field, Tasmania, Australia, identifies MIS 3 and MIS 2 glacial advances and climatic variability , 2006 .

[92]  L. Fifield,et al.  Geochemical changes recorded in Lynch's Crater, Northeastern Australia, over the past 50 ka , 2006 .

[93]  L. Fifield,et al.  Glacial/interglacial changes in the East Australian current , 2006 .

[94]  R. Suggate,et al.  The Last Glacial Maximum (LGM) in western South Island, New Zealand: implications for the global LGM and MIS 2 , 2005 .

[95]  M. Cupper Last glacial to Holocene evolution of semi-arid rangelands in southeastern Australia , 2005 .

[96]  M. Raymo,et al.  A Pliocene‐Pleistocene stack of 57 globally distributed benthic δ18O records , 2005 .

[97]  F. Woodward,et al.  The global distribution of ecosystems in a world without fire. , 2004, The New phytologist.

[98]  L. Fifield,et al.  Cosmogenic nuclide ages for Last Glacial Maximum moraine at Schnells Ridge, Southwest Tasmania , 2004, Quaternary Research.

[99]  H. Heijnis,et al.  A chronology for the long pollen record from Lake Wangoom, western Victoria (Australia) as derived from uranium/thorium disequilibrium dating , 2002 .

[100]  I. Prosser,et al.  A Late Pleistocene vegetation history from the Australian semi-arid zone , 2002 .

[101]  G. Mckenzie The late Quaternary vegetation history of the south-central highlands of Victoria, Australia. II. Sites below 900 m: LATE QUATERNARY VEGETATION OF HIGHLAND VICTORIA 33 , 2002 .

[102]  D. J. Wheeler,et al.  Sea-level and environmental changes since the last interglacial in the Gulf of Carpentaria, Australia: an overview , 2001 .

[103]  Peter U. Clark,et al.  Ice sheets and sea level of the Last Glacial Maximum , 2001 .

[104]  Timothy T. Barrows,et al.  Late Pleistocene Glaciation of the Kosciuszko Massif, Snowy Mountains, Australia , 2001, Quaternary Research.

[105]  R. Schneider,et al.  Environmental processes of the ice age: land, oceans, glaciers (EPILOG) , 2001 .

[106]  A. Murray,et al.  Advances in luminescence instrument systems , 2000 .

[107]  D. Fink,et al.  Cold rocks, hot sands: In-situ cosmogenic applications in Australia at ANTARES , 2000 .

[108]  E. Colhoun,et al.  Late‐glacial and Holocene record of vegetation and climate from Cynthia Bay, Lake St Clair, Tasmania , 2000 .

[109]  Paul Johnston,et al.  Timing of the Last Glacial Maximum from observed sea-level minima , 2000, Nature.

[110]  P. Bartlein,et al.  Do Low CO2 Concentrations Affect Pollen-Based Reconstructions of LGM Climates? A Response to “Physiological Significance of Low Atmospheric CO2 for Plant–Climate Interactions” by Cowling and Sykes , 2000, Quaternary Research.

[111]  Martin T. Sykes,et al.  Physiological Significance of Low Atmospheric CO2 for Plant–Climate Interactions , 1999, Quaternary Research.

[112]  H. Heijnis,et al.  Late Pleistocene vegetation and climate history of Lake Selina, western Tasmania , 1999 .

[113]  J. Hellstrom,et al.  A Detailed 31,000-Year Record of Climate and Vegetation Change, from the Isotope Geochemistry of Two New Zealand Speleothems , 1998, Quaternary Research.

[114]  G. Mckenzie The late Quaternary vegetation history of the south-central highlands of victoria, Australia. II. Sites below 900 m , 1997 .

[115]  G. Miller,et al.  Low-latitude glacial cooling in the Southern Hemisphere from amino-acid racemization in emu eggshells , 1997, Nature.

[116]  R. Wright,et al.  Humid to Arid to Subhumid Vegetation Shift on Pilliga Sandstone, Ulungra Springs, New South Wales , 1989, Quaternary Research.

[117]  A. Chivas,et al.  Late quaternary environments of the Carpentaria Basin, Australia , 1988 .

[118]  R. West,et al.  Holocene to Middle Last Glaciation vegetation history at Tullabardine Dam, western Tasmania , 1986, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[119]  Gurmeet Singh,et al.  Late Cainozoic History of Vegetation, Fire, Lake Levels and Climate, at Lake George, New South Wales, Australia , 1985 .

[120]  N. Opdyke,et al.  Late Cainozoic stratigraphy, palaeomagnetic chronology and vegetational history from Lake George, N.S.W. , 1981 .

[121]  J. Dodson Late Quaternary Palaeoecology of Wyrie Swamp, Southeastern South Australia , 1977, Quaternary Research.

[122]  A. Kershaw STRATIGRAPHY AND POLLEN ANALYSIS OF BROMFIELD SWAMP, NORTH EASTERN QUEENSLAND, AUSTRALIA , 1975 .

[123]  義記 岡 Late Pleistocene の海面変化に関する諸問題 , 1970 .

[124]  K. Grice,et al.  Pollen, biomarker and stable isotope evidence of late Quaternary environmental change at Lake McKenzie, southeast Queensland , 2014, Journal of Paleolimnology.

[125]  C. Murray-Wallace,et al.  Depositional history and archaeology of the central Lake Mungo lunette, Willandra Lakes, southeast Australia , 2014 .

[126]  Stefan Schouten,et al.  A late Quaternary sedimentary record of steryl alkyl ethers from offshore southeastern Australia , 2013 .

[127]  R. Gillespie,et al.  Wind v water: glacial maximum records from the Willandra Lakes , 2012 .

[128]  Paul R. Wyrwoll,et al.  Last Glacial Maximum (LGM) , 2012 .

[129]  W. Z. Hoeka,et al.  INTegration of Ice-core , MArine , and TErrestrial records ( INTIMATE ) : refining the record of the Last Glacial – Interglacial Transition , 2008 .

[130]  T. Hastie,et al.  Principal Curves , 2007 .

[131]  W. R. Peltiera,et al.  Global glacial ice volume and Last Glacial Maximum duration from an extended Barbados sea level record , 2006 .

[132]  Timothy T. Barrows,et al.  The timing of the Last Glacial Maximum in Australia. , 2002 .

[133]  Y. X. Wang,et al.  Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with Materials and Atoms , 2018 .

[134]  E. Colhoun Vegetation and climate change during the Last Interglacial-Glacial cycle in western Tasmania, Australia , 2000 .

[135]  Peter Kershaw,et al.  The last glacial cycle from the humid tropics of northeastern Australia: comparison of a terrestrial and a marine record , 2000 .

[136]  P. Bartlein,et al.  Do Low CO 2 Concentrations Affect Pollen-Based Reconstructions of LGM Climates? A Response to Physi , 2000 .

[137]  A. Murray,et al.  Advances in luminescence measurement systems , 1999 .

[138]  P. Roy,et al.  Southeastern Australia: A Sea-Level Dependent, Cool-Water Carbonate Margin , 1997 .

[139]  M. E. Longmore Quaternary Palynological Records from Perched Lake Sediments, Fraser Island, Queensland, Australia: Rainforest, Forest History and Climatic Control , 1997 .

[140]  P. Hesse The record of continental dust from Australia in Tasman Sea Sediments , 1994 .

[141]  A. Kershaw,et al.  Palynological evidence for Quaternary vegetation and environments of mainland southeastern Australia , 1991 .

[142]  P. Deckker,et al.  Late quaternary palaeoecology of Tower Hill, Victoria, Australia , 1989 .

[143]  G. Hope The Late Pleistocene and Holocene Vegetational History of Hunter Island, North-western Tasmania , 1978 .

[144]  J. Dodson Vegetation History and Water Fluctuations at Lake Leake, South-Eastern South Australia. II. 50 000 B.P. To 10 000 B.P , 1975 .