Sina Panitz, Michael Rogerson, Jack Longman, Nick Scroxton, Tim J. Lawson, Tim C. Atkinson, Vasile Ersek, James Baldini, Lisa Baldini, Stuart Umbo, Mahjoor A. Lone, Gideon M. Henderson, Sebastian F. M. Breitenbach
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Further, we make the first systematic comparison of the spatial distribution of speleothem dates with independent reconstructions of the history of the British-Irish Ice Sheet (BIIS) to test how well geomorphologic ice reconstructions are replicated in the cave record. The frequency distribution of 1,020 U-series dates based on three different dating methods between 300 and 5 ka shows statistically significant periods of speleothem growth during the last interglacial and several interstadials during the last glacial. A pronounced decline in speleothem growth coincides with the Last Glacial Maximum, before broad reactivation during deglaciation and into the Holocene. Spatio-temporal patterns in speleothem growth between 31 and 15 ka agree well with the surface-deposit-based reconstruction of the last BIIS. In data-rich regions, such as northern England, ice dynamics are well-replicated in the cave record, which provide additional evidence about the spatio-temporal distribution of permafrost dynamics. Beyond the Last Glacial Maximum, the distribution of speleothem dates across the British Isles offers the opportunity to improve chronological constraints on past ice sheet variability, with evidence for a highly dynamic Scottish ice sheet during the last glacial. The results provide independent evidence of ice distribution complementary to studies of surface geomorphology and geology, and the potential to extend reconstructions into permafrost and earlier glacial cycles. Whilst undersampling is currently the main limitation for speleothem-based ice and permafrost reconstruction even in relatively well-sampled parts of the British Isles, we show that speleothem dates obtained using modern mass spectrometry techniques reveal a higher spatio-temporal resolution of glacial-interglacial cycles and glacial extent than previously possible. Further study of leads and lags in speleothem growth compared to surface deposition may provide new insights into landscape-scale dynamics during ice sheet growth and retreat.","PeriodicalId":10332,"journal":{"name":"Climate of The Past","volume":"24 1","pages":""},"PeriodicalIF":3.8000,"publicationDate":"2024-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Spatio-temporal dynamics of speleothem growth and glaciation in the British Isles\",\"authors\":\"Sina Panitz, Michael Rogerson, Jack Longman, Nick Scroxton, Tim J. 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引用次数: 0
摘要
摘要重建冰川和永久冻土的时空动态主要依赖于地表沉积物,因此,由于侵蚀作用,每一个比上一个冰川更早的冰川都面临着挑战。因此,大约 30 ka 年之前的全球冰川和永久冻土仍然难以确定。由于岩浆(碳酸盐洞穴沉积物)是由滴水形成的,通常表明当时没有冰盖和永久冻土,因此我们评估了根据 U 系列日期确定的岩浆生长阶段与过去冰川-间冰期周期的一致性。此外,我们还首次系统地比较了岩浆化石日期的空间分布与英国-爱尔兰冰盖(BIIS)历史的独立重建,以检验冰盖地貌重建在洞穴记录中的复制情况。根据三种不同的测年方法,从 300 ka 到 5 ka 的 1020 个 U 系列日期的频率分布来看,上一个间冰期和上一个冰期的几个间冰期都出现了具有统计意义的岩浆生长期。在末次冰川极盛时期,岩浆体的增长出现了明显的下降,之后在脱冰期和全新世出现了广泛的恢复。31 ka 到 15 ka 之间岩浆生长的时空模式与基于地表沉积重建的上一个 BIIS 非常吻合。在数据丰富的地区,如英格兰北部,冰的动态在洞穴记录中得到了很好的复制,这为永冻土动态的时空分布提供了更多证据。在末次冰川极盛期之后,英伦三岛的岩浆化石日期分布为改进对过去冰盖变化的年代学限制提供了机会,有证据表明苏格兰冰盖在末次冰川期高度动态。研究结果提供了冰层分布的独立证据,补充了地表地貌和地质研究,并有可能将重建工作扩展到永久冻土和早期冰川周期。虽然目前取样不足是基于岩浆化石的冰和永久冻土重建的主要限制因素,即使在不列颠群岛取样相对较好的地区也是如此,但我们的研究表明,利用现代质谱技术获得的岩浆化石日期揭示了冰川-间冰期周期和冰川范围的更高时空分辨率,这在以前是不可能实现的。与地表沉积相比,对岩浆生长的领先和滞后的进一步研究可能会为冰盖生长和消退期间的地貌尺度动态提供新的见解。
Spatio-temporal dynamics of speleothem growth and glaciation in the British Isles
Abstract. Reconstructing the spatio-temporal dynamics of glaciations and permafrost largely relies on surface deposits, and is therefore a challenge for every glacial older than the last due to erosion. Consequently, glaciations and permafrost remain poorly constrained worldwide before c. 30 ka. Since speleothems (carbonate cave deposits) form from drip water and generally indicate the absence of an ice sheet and permafrost, we evaluate how speleothem growth phases defined by U-series dates align with past glacial-interglacial cycles. Further, we make the first systematic comparison of the spatial distribution of speleothem dates with independent reconstructions of the history of the British-Irish Ice Sheet (BIIS) to test how well geomorphologic ice reconstructions are replicated in the cave record. The frequency distribution of 1,020 U-series dates based on three different dating methods between 300 and 5 ka shows statistically significant periods of speleothem growth during the last interglacial and several interstadials during the last glacial. A pronounced decline in speleothem growth coincides with the Last Glacial Maximum, before broad reactivation during deglaciation and into the Holocene. Spatio-temporal patterns in speleothem growth between 31 and 15 ka agree well with the surface-deposit-based reconstruction of the last BIIS. In data-rich regions, such as northern England, ice dynamics are well-replicated in the cave record, which provide additional evidence about the spatio-temporal distribution of permafrost dynamics. Beyond the Last Glacial Maximum, the distribution of speleothem dates across the British Isles offers the opportunity to improve chronological constraints on past ice sheet variability, with evidence for a highly dynamic Scottish ice sheet during the last glacial. The results provide independent evidence of ice distribution complementary to studies of surface geomorphology and geology, and the potential to extend reconstructions into permafrost and earlier glacial cycles. Whilst undersampling is currently the main limitation for speleothem-based ice and permafrost reconstruction even in relatively well-sampled parts of the British Isles, we show that speleothem dates obtained using modern mass spectrometry techniques reveal a higher spatio-temporal resolution of glacial-interglacial cycles and glacial extent than previously possible. Further study of leads and lags in speleothem growth compared to surface deposition may provide new insights into landscape-scale dynamics during ice sheet growth and retreat.
期刊介绍:
Climate of the Past (CP) is a not-for-profit international scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on the climate history of the Earth. CP covers all temporal scales of climate change and variability, from geological time through to multidecadal studies of the last century. Studies focusing mainly on present and future climate are not within scope.
The main subject areas are the following:
reconstructions of past climate based on instrumental and historical data as well as proxy data from marine and terrestrial (including ice) archives;
development and validation of new proxies, improvements of the precision and accuracy of proxy data;
theoretical and empirical studies of processes in and feedback mechanisms between all climate system components in relation to past climate change on all space scales and timescales;
simulation of past climate and model-based interpretation of palaeoclimate data for a better understanding of present and future climate variability and climate change.