冰栖轮虫 Bdelloidea 的冰栖物种揭示了北极冰冻圈的前第四纪祖先。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-06-13 DOI:10.1098/rsbl.2023.0546
Daniel H Shain, Irina Rogozhina, Diego Fontaneto, Atle Nesje, Naim Saglam, Jesamine Bartlett, Krzysztof Zawierucha, Øystein Nordeide Kielland, Glenn Dunshea, Einar Arnason, Jørgen Rosvold
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引用次数: 0

摘要

历史气候数据表明,地球经历了多个气候比现在温暖得多的地质时期,包括中新世(公元前 23-5.3 百万年)温度比现在高 3-4°C 的时代,以及第四纪较近的间冰期阶段,例如海洋同位素阶段 11c(约公元前 425-395 ka)和中全新世热量最大时期(公元前 7.5-4.2 ka),在此期间,大陆冰川可能完全融化。这种温暖时期将对喜冰动物的分布、生物多样性和种群结构产生严重影响。为了确定这些气候事件对北欧冰冻圈的影响,我们调查了挪威大陆和斯瓦尔巴群岛的冰栖息地,从海洋冰川到大陆冰斑(即不流动的内陆冰,越冬时会被深度冻结),发现了特别广泛的冰栖双壳轮虫种群。线粒体和核DNA联合测序发现了约16个未被描述的物种级轮虫品系,它们的祖先早于第四纪(> 2.58百万年)。在实验室实验中,这些轮虫还表现出很强的耐冷冻/解冻能力。总之,这些数据表明,在地质年代的冰冻圈中,存在着与挪威当代地貌中的稳定冰斑相媲美的大面积冰雪避难所,它们可能在第四纪之前和整个第四纪期间促进了不畏冰的元古宙的长期生存。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ice-inhabiting species of Bdelloidea Rotifera reveal a pre-Quaternary ancestry in the Arctic cryosphere.

Historical climate data indicate that the Earth has passed through multiple geological periods with much warmer-than-present climates, including epochs of the Miocene (23-5.3 mya BP) with temperatures 3-4°C above present, and more recent interglacial stages of the Quaternary, for example, Marine Isotope Stage 11c (approx. 425-395 ka BP) and Middle Holocene thermal maximum (7.5-4.2 ka BP), during which continental glaciers may have melted entirely. Such warm periods would have severe consequences for ice-obligate fauna in terms of their distribution, biodiversity and population structure. To determine the impacts of these climatic events in the Nordic cryosphere, we surveyed ice habitats throughout mainland Norway and Svalbard ranging from maritime glaciers to continental ice patches (i.e. non-flowing, inland ice subjected to deep freezing overwinter), finding particularly widespread populations of ice-inhabiting bdelloid rotifers. Combined mitochondrial and nuclear DNA sequencing identified approx. 16 undescribed, species-level rotifer lineages that revealed an ancestry predating the Quaternary (> 2.58 mya). These rotifers also displayed robust freeze/thaw tolerance in laboratory experiments. Collectively, these data suggest that extensive ice refugia, comparable with stable ice patches across the contemporary Norwegian landscape, persisted in the cryosphere over geological time, and may have facilitated the long-term survival of ice-obligate Metazoa before and throughout the Quaternary.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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