No evidence for a volcanic trigger for late Cambrian carbon-cycle perturbations

IF 4.8 1区 地球科学 Q1 GEOLOGY Geology Pub Date : 2023-10-26 DOI:10.1130/g51570.1
J. Frieling, T.A. Mather, I.M. Fendley, H.C. Jenkyns, Z. Zhao, T.W. Dahl, B.A. Bergquist, K. Cheng, A.T. Nielsen, A.J. Dickson
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Abstract

The early Paleozoic was marked by several carbon-cycle perturbations and associated carbon-isotope excursions (CIEs). Whether these CIEs are connected to significant (external) triggers, as is commonly considered to be the case for CIEs in the Mesozoic and Cenozoic, or result from small carbon-cycle imbalances that became amplified through lack of efficient silicate weathering or other feedbacks remains unclear. We present concentration and isotope data for sedimentary mercury (Hg) and osmium (Os) to assess the impact of subaerial and submarine volcanism and weathering during the late Cambrian and early Ordovician. Data from the Alum Shale Formation (Sweden) cover the Steptoean positive carbon-isotope excursion (SPICE; ca. 497–494 Ma), a period marked by marine anoxia and biotic overturning, and several smaller CIEs extending into the early Ordovician. Our Hg and Os data offer no strong evidence that the CIEs present in our record were driven by (globally) elevated volcanism or continental weathering. Organic-carbon and Hg concentrations covary cyclically, providing further evidence of an unperturbed Hg cycle. Mesozoic and Cenozoic CIEs are commonly linked to enhanced volcanic activity and weathering, but similar late Cambrian–early Ordovician events cannot easily be connected to such external triggers. Our results are more consistent with reduced early Paleozoic carbon-cycle resilience that allowed small imbalances to develop into large CIEs.
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没有证据表明火山引发了寒武纪晚期的碳循环扰动
早古生代以多次碳循环扰动和相关的碳同位素偏移(CIEs)为标志。这些CIEs是否与重要的(外部)触发因素有关,就像通常认为的中生代和新生代CIEs的情况一样,或者是由于缺乏有效的硅酸盐风化或其他反馈而放大的小碳循环失衡的结果,目前尚不清楚。本文利用沉积汞(Hg)和锇(Os)的浓度和同位素数据,评价了晚寒武世和早奥陶世的陆基和海底火山作用和风化作用对沉积汞(Hg)和锇(Os)的影响。来自瑞典明矾页岩组的数据涵盖了stetoean正碳同位素偏移(SPICE;大约497-494 Ma),这是一个以海洋缺氧和生物翻转为标志的时期,并且几个较小的CIEs延伸到早奥陶世。我们的Hg和Os数据没有提供强有力的证据表明,我们记录中的CIEs是由(全球)火山活动升高或大陆风化作用驱动的。有机碳和汞浓度呈循环共变,进一步证明了汞循环不受干扰。中生代和新生代的CIEs通常与增强的火山活动和风化有关,但类似的晚寒武世-早奥陶世事件不容易与这些外部触发因素联系起来。我们的结果更符合早期古生代碳循环弹性的降低,这使得小的不平衡发展成大的不平衡。
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来源期刊
Geology
Geology 地学-地质学
CiteScore
10.00
自引率
3.40%
发文量
228
审稿时长
6.2 months
期刊介绍: Published since 1973, Geology features rapid publication of about 23 refereed short (four-page) papers each month. Articles cover all earth-science disciplines and include new investigations and provocative topics. Professional geologists and university-level students in the earth sciences use this widely read journal to keep up with scientific research trends. The online forum section facilitates author-reader dialog. Includes color and occasional large-format illustrations on oversized loose inserts.
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