期刊
QUATERNARY SCIENCE REVIEWS
卷 36, 期 -, 页码 189-213出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.quascirev.2011.09.025
关键词
New Zealand; Palaeoclimate; LGM; Atmospheric circulation; Regional climate regime classification; Multi-proxy; NZ-INTIMATE
资金
- International Union for Quaternary Research [INQUA 0806]
- [C01X0202]
- [C01X0701]
- [UOAX0213]
- [C01X0804]
- New Zealand Ministry of Business, Innovation & Employment (MBIE) [C01X0804] Funding Source: New Zealand Ministry of Business, Innovation & Employment (MBIE)
What circulation pattern drove Southern Alps glacial advances at similar to 21 ka? Late 20th century glacial advances in New Zealand are commonly attributed to a dual precipitation increase and cooler than normal temperatures associated with enhanced westerly flow that occur under synoptic pressure patterns termed 'zonal' regimes (Kidson, 2000). But was the circulation pattern that supported major Southern Alps glacial advances during the global LGM similar to the modern analog? Here, a Regional Climate Regime Classification (RCRC) time slice was used to infer past circulation for New Zealand during the LGM at similar to 21 ka. Palaeoclimate information that supported the construction of the similar to 21 ka time slice was derived from the NZ-INTIMATE Climate Event Stratigraphy (CES), one new Auckland maar proxy record, and additional low-resolution data sourced from the literature. The terrestrial evidence at similar to 21 ka implicates several possibilities for past circulation, depending on how interpretations for some proxies are made. The interpretation considered most tenable for the LGM, based on the agreement between terrestrial evidence, marine reconstructions and palaeoclimate model results is an 'anticyclonic/zonal' circulation regime characterized by increased influences from blocking 'highs' over the South Island during winter and an increase in zonal and trough synoptic types (with southerly to westerly quarter wind flow) during summer. These seasonal circulation traits would have generated lower mean annual temperatures, cooler than normal summer temperatures, and overall lower mean annual precipitation for New Zealand (particularly in the western South Island) at similar to 21 ka. The anticyclonic/zonal time slice reconstruction presented in this study has different spatial traits than the late 20th Century and the early Little Ice Age signatures, suggesting more than one type of regional circulation pattern can drive Southern Alps glacial activity. This finding lends support to the hypothesis that temperature over precipitation change is more important as the primary modulator of Southern Alps ice advances. The RCRC approach also demonstrates some subtle advantages of integrating multiproxy data within a palaeocirculation context for New Zealand, notably because this reconstruction technique enables direct comparisons to coarsely resolved palaeoclimate model outputs that do not have downscaled information. (C) 2011 Elsevier Ltd. All rights reserved.
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