{"title":"Stratigraphy and sedimentology of the Orakei maar lake sediment sequence (Auckland Volcanic Field, New Zealand)","authors":"Leonie Peti, P. Augustinus","doi":"10.5194/SD-25-47-2019","DOIUrl":null,"url":null,"abstract":"Abstract. Global paleo-climate reconstructions are largely based on observations from\nthe Northern Hemisphere despite increasing recognition of the importance of\nthe Southern Hemisphere mid-latitudes for understanding the drivers of the\nglobal climate system. Unfortunately, the required complete and\nhigh-resolution terrestrial records from the Southern Hemisphere\nmid-latitudes are few. However, the maar lakes in the Auckland Volcanic Field\n(AVF), New Zealand, are crucial in this regard as they form outstanding\ndepositional basins due to their small surface-to-depth ratio, restricted\ncatchment, and absence of ice cover\nsince their formation, hence ensuring continuous sedimentation with anoxic\nbottom water. Significantly, the estimated age of the AVF of ca. 250 ka may\nallow development of a continuous sediment record spanning the last two\nglacial cycles. The Orakei maar lake sediment sequence examined in this study\nspans the Last Glacial Cycle (ca. 126 to ca. 9.5 ka cal BP) from the\nphreatomagmatic eruption to the crater rim breach due to post-glacial\nsea-level rise. Two overlapping cores of >100 m sediment were retrieved\nand combined to develop a complete composite stratigraphy that is presently\nundergoing a wide range of multi-proxy analyses.\n","PeriodicalId":51840,"journal":{"name":"Scientific Drilling","volume":"12 1","pages":""},"PeriodicalIF":1.6000,"publicationDate":"2019-06-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"12","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Scientific Drilling","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.5194/SD-25-47-2019","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"GEOSCIENCES, MULTIDISCIPLINARY","Score":null,"Total":0}
引用次数: 12
Abstract
Abstract. Global paleo-climate reconstructions are largely based on observations from
the Northern Hemisphere despite increasing recognition of the importance of
the Southern Hemisphere mid-latitudes for understanding the drivers of the
global climate system. Unfortunately, the required complete and
high-resolution terrestrial records from the Southern Hemisphere
mid-latitudes are few. However, the maar lakes in the Auckland Volcanic Field
(AVF), New Zealand, are crucial in this regard as they form outstanding
depositional basins due to their small surface-to-depth ratio, restricted
catchment, and absence of ice cover
since their formation, hence ensuring continuous sedimentation with anoxic
bottom water. Significantly, the estimated age of the AVF of ca. 250 ka may
allow development of a continuous sediment record spanning the last two
glacial cycles. The Orakei maar lake sediment sequence examined in this study
spans the Last Glacial Cycle (ca. 126 to ca. 9.5 ka cal BP) from the
phreatomagmatic eruption to the crater rim breach due to post-glacial
sea-level rise. Two overlapping cores of >100 m sediment were retrieved
and combined to develop a complete composite stratigraphy that is presently
undergoing a wide range of multi-proxy analyses.
摘要尽管人们越来越认识到南半球中纬度地区对理解全球气候系统驱动因素的重要性,但全球古气候重建主要基于北半球的观测。不幸的是,所需的南半球中纬度地区完整和高分辨率的陆地记录很少。然而,新西兰奥克兰火山场(AVF)的maar湖在这方面至关重要,因为它们形成了杰出的沉积盆地,因为它们的地表与深度比小,集水区有限,并且自形成以来没有冰覆盖,因此确保了缺氧底水的持续沉积。值得注意的是,AVF的估计年龄约为250 ka,可能允许跨越最后两个冰川旋回的连续沉积记录的发展。本研究考察的Orakei maar湖沉积物序列跨越末次冰期旋回(约126 ~约9.5 ka cal BP),从火山喷发到冰川后海平面上升导致的火山口边缘破裂。检索了两个>100 m沉积物的重叠岩心,并将其结合起来,形成了一个完整的复合地层,目前正在进行广泛的多代理分析。
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