2007
DOI: 10.1002/jqs.1137
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Vegetation and climate of Auckland, New Zealand, since ca. 32 000 cal. yr ago: support for an extended LGM

Abstract: Auckland occupies a climatically sensitive position close to a major biogeographic boundary in the southern mid‐latitudes. A new pollen record from Kohuora maar crater, Auckland, displays vegetation and climatic changes for the past ca. 32 000 years. Of particular interest are the inferred climatic patterns for the first part of the interval, encompassing the Last Glacial Maximum (LGM). The Kohuora record corresponds closely with pollen records from other Auckland sites indicating that the patterns observed ar… Show more

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Cited by 84 publications
(83 citation statements)
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“…This is consistent with exposure age estimates for major ice recession from terminal moraine limits in the lower Pukaki Basin (Schaefer et al, 2006) and with evidence from throughout New Zealand for a major change in climate around 18,000 cal yr BP that terminated the last major glacial episode (Newnham et al, 2003(Newnham et al, , 2007aAlloway et al, 2007). Nevertheless, at Boundary Stream Tarn, absence of tall forest and dominance of subalpine shrubland and alpine grassland between 17,500 and 14,200 cal yr BP indicates that climate regimes were cooler and more extreme than at present.…”
Section: Paleotemperature Reconstructions 17500-10000 Cal Yr Bpsupporting
confidence: 88%
“…This is consistent with exposure age estimates for major ice recession from terminal moraine limits in the lower Pukaki Basin (Schaefer et al, 2006) and with evidence from throughout New Zealand for a major change in climate around 18,000 cal yr BP that terminated the last major glacial episode (Newnham et al, 2003(Newnham et al, , 2007aAlloway et al, 2007). Nevertheless, at Boundary Stream Tarn, absence of tall forest and dominance of subalpine shrubland and alpine grassland between 17,500 and 14,200 cal yr BP indicates that climate regimes were cooler and more extreme than at present.…”
Section: Paleotemperature Reconstructions 17500-10000 Cal Yr Bpsupporting
confidence: 88%
“…The changes could be interpreted as a decline in conifer-hardwood forest, increased shrub/grassland and Fuscospora forest, and lowering of the water table in the crater wetland as a result of a change to a cooler and drier climate with a higher fire frequency (ignited by lightning). The timing of this according to the radiocarbon dates (i.e., after 47 000 yr BP) is consistent with other pollen records from the Auckland region which suggest that beech forest expanded c. 50 000 yr BP and remained dominant until around c. 20 000 yr BP (Lancashire et al 2002;Sandiford et al 2002Sandiford et al ,2003Shane & Sandiford 2003;Newnham et al 2007). From c. 23 000 to 16 500 yr BP, continued cooling restricted Auckland forest to patches within extensive shrubland/grassland.…”
Section: Discussionsupporting
confidence: 84%
“…These extinct basaltic maars or scoria cones, or a combination of both, erupted during the Pleistocene-Holocene. Several of the maar craters, Pukaki crater (Dickinson 2001;Sandiford et al 2001Sandiford et al , 2003, Onepoto Basin (Shane & Sandiford 2003), Lake Pupuke (Horrocks et al 2005a), kohuora crater (Newnham et al 2007), and the maars associated with the scoria cones of crater Hill (Lancashire et al 2002), Mt Richmond (Sandiford et al 2002), and McLaughlins Mountain (Horrocks et al 2007b), have recently been analysed for fossil pollen and tephra to provide vegetation histories (Fig. 1).…”
Section: Introductionmentioning
confidence: 99%
“…The revision shifts the ages adopted for the timing and duration of climate events associated with the LGM (Vandergoes et al, 2005;Alloway et al, 2007;Newnham et al, 2007bNewnham et al, , 2012Augustinus et al, 2011;Barrell et al, in this issue). The revised KOT age will enable more accurate comparison of KOTbearing sedimentary archives with paleoclimate records that are dated independently of 14 C (e.g., via U/Th, 10 Be, or ice-core layer counting).…”
Section: Wider Implicationsmentioning
confidence: 99%