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Introduction to the SHeMax thematic set and prospects for LGM research in the Southern Hemisphere

Published online by Cambridge University Press:  22 July 2021

Jasper Knight Open the ORCID record for Jasper Knight [Opens in a new window] ,
James Shulmeister Open the ORCID record for James Shulmeister [Opens in a new window]  and
Lynda Petherick Open the ORCID record for Lynda Petherick [Opens in a new window]
Jasper Knight
Affiliation:
School of Geography, Archaeology and Environmental Studies, University of the Witwatersrand, Private Bag 3, Wits 2050, Johannesburg, South Africa
James Shulmeister*
Affiliation:
School of Earth and Environment, University of Canterbury, Private Bag 4800, Christchurch, New Zealand School of Earth and Environmental Sciences, University of Queensland, St Lucia 4072, Australia
Lynda Petherick
Affiliation:
School of Geography, Environment and Earth Sciences, Victoria University of Wellington, Wellington, New Zealand
*
*Corresponding author email address:[email protected]
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Abstract

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Type
Thematic Set: Southern Hemisphere Last Glacial Maximum (SHeMax)
Information
Quaternary Research , Volume 102 , July 2021 , pp. 1 - 4
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Copyright
Copyright © University of Washington. Published by Cambridge University Press, 2021

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References

REFERENCES

Alley, R.B., Brook, E.J., Anandakrishnan, S., 2002. A northern lead in the orbital band: north–south phasing of Ice-Age events. Quaternary Science Reviews 21, 431441.CrossRefGoogle Scholar
Alloway, B.V., Lowe, D.J., Barrell, D.J.A., Newnham, R.N., Almond, P.C., Augustinus, P.C., Bertler, N.A.N., Carter, L., Litchfield, N.J., McGlone, M.S., Shulmeister, J., Vandergoes, M.J., Williams, P.W., NZ-INTIMATE Members, 2007. Towards a climate event stratigraphy for New Zealand over the past 30 000 years (NZ-INTIMATE project). Journal of Quaternary Science 22, 935.CrossRefGoogle Scholar
Almond, P.C., Gulyás, S., Sümegi, P., Sümegi, B.P., Covey-Crump, S., Jones, M., Shaw, J. Parker, A., 2021. A palaeoenvironmental record of the Southern Hemisphere last glacial maximum from the Mount Cass loess section, North Canterbury, Aotearoa/New Zealand. Quaternary Research 102, 115129.Google Scholar
Barrell, D.J.A., Almond, P.C., Vandergoes, M.J., Lowe, D.J., Newnham, R.M., INTIMATE Members, 2013. A composite pollen-based stratotype for inter-regional evaluation of climatic events in New Zealand over the past 30,000 years (NZ-INTIMATE project). Quaternary Science Reviews 74, 420.CrossRefGoogle Scholar
Berman, A.L., Silvestri, G.E., Tonello, M.S., 2016. Differences between Last Glacial Maximum and present-day temperature and precipitation in southern South America. Quaternary Science Reviews 150, 221233.CrossRefGoogle Scholar
Cadd, H., Petherick, L., Tyler, J., Herbert, A., Cohen, T.J., Sniderman, K., Barrows, T.T., Fulop, R.H., Knight, J., Kershaw, A.P., Colhoun, E.A., Harris, M.R.P. 2021. A continental perspective on the timing of environmental change during the last glacial stage in Australia. Quaternary Research 102, 523.Google Scholar
Clark, P.U., Dyke, A.S., Shakun, J.D., Carlson, A.E., Clark, J., Wohlfarth, B., Mitrovica, J.X., Hostetler, S.W., McCabe, A.M., 2009. The Last Glacial Maximum. Science 325, 710714.CrossRefGoogle ScholarPubMed
Darvill, C.M., Bentley, M.J., Stokes, C.R., Shulmeister, J., 2016. The timing and cause of glacial advances in the southern mid-latitudes during the last glacial cycle based on a synthesis of exposure ages from Patagonia and New Zealand. Quaternary Science Reviews 149, 200214.CrossRefGoogle Scholar
Denton, G.H., Putnam, A.E., Russell, J.L., Barrell, D.J.A., Schaefer, J.M., Kaplan, M.R., Strand, P.D. 2021. The Zealandia Switch: Ice age climate shifts viewed from Southern Hemisphere moraines, Quaternary Science Reviews, 257, 106771, doi:10.1016/j.quascirev.2020.106771.CrossRefGoogle Scholar
Drost, F., Renwick, J., Bhaskaran, B., Oliver, H., McGregor, J., 2007. Variability of the atmospheric circulation in the southern hemisphere during the last glacial maximum. Journal of Geophysical Research–Atmospheres 112, D10101, doi:10.1029/2005JD006970.CrossRefGoogle Scholar
Falster, G., Tyler, J., Grant, K., Tibby, J., Turney, C., Löhr, S., Jacobsen, G., Kershaw, A.P., 2018. Millennial-scale variability in south-east Australian hydroclimate between 30,000 and 10,000 years ago. Quaternary Science Reviews 192, 106122.CrossRefGoogle Scholar
Fitzsimmons, K.E., Cohen, T.J., Hesse, P.P., Jansen, J., Nanson, G.C., May, J.-H., Barrows, T.T., Haberlah, D., Hilgers, A., Kelly, T., Larsen, J., Lomax, J., Treble, P., 2013. Late Quaternary palaeoenvironmental change in the Australian drylands. Quaternary Science Reviews 74, 7896.CrossRefGoogle Scholar
Heine, K., 2000. Tropical South America during the Last Glacial Maximum: evidence from glacial, periglacial and fluvial records. Quaternary International 72, 721.CrossRefGoogle Scholar
Herbert, A.V. and Fitchett, J.M. 2021. Quantifying late Quaternary Australian rainfall seasonality changes using the Poaceae:Asteraceae pollen. Quaternary Research 102, 2438.Google Scholar
Hodgson, D.A., Graham, A.G.C., Roberts, S.J., Bentley, M.J., Cofaigh, Ó, Verleyen, C., Vyverman, E., Jomelli, W., Favier, V., Brunstein, V., Verfaillie, D., Colhoun, D., Saunders, E.A., Selkirk, K.M., Mackintosh, P.M., Hedding, A., Nel, D.W., Hall, W., McGlone, K., Van der Putten, M., Dickens, N., Smith, W.A., J.A., 2014. Terrestrial and submarine evidence for the extent and timing of the Last Glacial Maximum and the onset of deglaciation on the maritime-Antarctic and sub-Antarctic islands. Quaternary Science Reviews 100, 137158.CrossRefGoogle Scholar
Hughes, P.D., Gibbard, P.L., Ehlers, J., 2013. Timing of glaciation during the last glacial cycle: evaluating the concept of a global ‘Last Glacial Maximum’ (LGM). Earth-Science Reviews 125, 171198.CrossRefGoogle Scholar
Kaplan, M.R., Fogwill, C.J., Sugden, D.E., Hulton, N.R.J., Kubik, P.W., Freeman, S.P.H.T., 2008. Southern Patagonian glacial chronology for the Last Glacial period and implications for Southern Ocean climate. Quaternary Science Reviews 27, 284294.CrossRefGoogle Scholar
Knight, J., Fitchett, J.M., 2021. A new chronostratigraphic framework for the late Quaternary of southern Africa. South African Journal of Geology 124 (4), doi:10.25131/sajg.124.0030Google Scholar
Lewis, R., Tibby, J., Arnold, L.J., Gadd, P., Jacobsen, G., Barr, C., Negus, P.M., Mariani, M., Penny, D., Chittleborough, D., Moss, E., 2021. Patterns of aeolian deposition in subtropical Australia through the last glacial and deglacial periods. Quaternary Research 102, 6890.Google Scholar
McIntosh, P., Neudorf, C., Lian, O.B., Slee, A.J., Walker, B., Eberhard, R., Doyle, R., Dixon, G., 2021. Late Pleistocene and Early Holocene aeolian deposits of Tasmania and their climatic implications. Quaternary Research 102, 91114.Google Scholar
Moros, M., De Deckker, P., Perner, K., Ninnemann, U.S., Wacker, L., Telford, R., Jansen, E., Blanz, T., Schneider, R. 2021. Hydrographic shifts south of Australia over the last deglaciation and possible interhemispheric linkages. Quaternary Research 102, 130141.Google Scholar
Petherick, L., Shulmeister, J., Knight, J., Rojas, M., 2016. SHeMax: the Last Glacial Maximum in the southern hemisphere. Quaternary Australasia 33, 3234.Google Scholar
Putnam, A.E., Schaefer, J.M., Denton, G.H., Barrell, D.J.A., Birkel, S.D., Andersen, B.G., Kaplan, M.R., Finkel, R.C., Schwartz, R., Doughty, A.M., 2013. The Last Glacial Maximum at 44oS documented by a 10Be moraine chronology at Lake Ohau, Southern Alps of New Zealand. Quaternary Science Reviews 62, 114141.CrossRefGoogle Scholar
Reeves, J.M., Barrows, T.T., Cohen, T.J., Kiem, A.S., Bostock, H.C., Fitzsimmons, K.E., Jansen, J.D., Kemp, J., Krause, C., Petherick, L., Phipps, S.J., OZ-INTIMATE Members, 2013. Climate variability over the last 35,000 years recorded in marine and terrestrial archives in the Australian region: an OZ-INTIMATE compilation. Quaternary Science Reviews 74, 2134.CrossRefGoogle Scholar
Rowe, C., Wurster, C.M., Zwart, C., Brand, M., Hutley, L.B., Levchenko, V., Bird, M.I. 2021. Vegetation over the last glacial maximum at Girraween Lagoon, monsoonal northern Australia. Quaternary Research 102, 3952.Google Scholar
Sanci, R., Orgeira, M.J., Coronato, A., Tófalo, R., Panarello, H.O., Quiroga, D., López, R., Palermo, P., Gogorza, C.S., 2021. Late Pleistocene Glaciolacustrine MIS 3 Record at Fagnano Lake, central Tierra del Fuego, southern Argentina. Quaternary Research 102, 5367.Google Scholar
Schaefer, J.M., Putnam, A.E., Denton, G.H., Kaplan, M.R., Birkel, S., Doughty, A.M., Kelley, S., Barrell, D.J.A., Finkel, R.C., Winckler, G., Anderson, R.F., Ninneman, U.S., Barker, S., Schwartz, R., Andersen, B.G., Schluechter, C., 2015. The Southern Glacial Maximum 65,000 years ago and its Unfinished Termination. Quaternary Science Reviews 114, 5260.CrossRefGoogle Scholar
Shulmeister, J., Thackray, G.D., Rittenour, T. and Hyatt, O.M. 2018. Multiple glacial advances in the Rangitata Valley, South Island, New Zealand, during the last glaciation imply substantial extent and duration of MIS 3 glaciation. Quaternary Research 89, 375393.CrossRefGoogle Scholar
Shulmeister, J., Thackray, G.D., Rittenour, T.M., Fink, D., and Patton, N.R. 2019. The extent and timing of the last glaciation in New Zealand. Quaternary Science Reviews 206, 120.CrossRefGoogle Scholar
Van Meerbeeck, C.J., Renssen, H., Roche, D.M., 2009. How did Marine Isotope Stage 3 and Last Glacial Maximum climates differ? – Perspectives from equilibrium simulations. Climate of the Past 5, 3351.CrossRefGoogle Scholar
Webb, M., Dredge, J., Barker, P.A., Müller, W., Jex, C., Desmarchelier, J., Hellstrom, J., Wynn, P.M., 2014. Quaternary climatic instability in south-east Australia from a multi-proxy speleothem record. Journal of Quaternary Science 29, 589596.CrossRefGoogle Scholar