利用浮游有孔虫Globorotalia inflata的隐性多样性追踪海洋锋面的移动

R. Morard, M. Reinelt, C. Chiessi, J. Groeneveld, M. Kučera
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引用次数: 24

摘要

在古海洋学研究中浮游有孔虫的使用依赖于这样一种假设,即形态物种代表具有随时间和空间稳定的生态偏好的生物物种。然而,遗传调查揭示了浮游有孔虫的大多数形态物种的相当程度的多样性。这种多样性对古海洋学应用具有重要意义,因为研究表明,隐物种表现出独特的生态偏好,这可能有助于改进古海洋学代用物。浮游有孔虫的隐蔽物种之间的细微形态差异已被报道,但到目前为止,它们在古海洋学研究中的适用性仍未得到很大程度的探索。在这里,我们以膨胀的Globorotalia为例,展示了遗传多样性信息如何转移到古海洋学中。这两种隐种的膨胀螺被巴西-马尔维纳斯汇合处(BMC)分开,这是南大西洋的一个主要海洋学特征。在此基础上,我们建立了一个芯顶材料中隐种检测的形态学模型。隐种探测模型在全新世样品中的应用表明,在合流位置的纬度振荡与稳定同位素数据的重建结果基本一致。研究结果表明,在古化石记录中可以检测到G. inflata中隐种的存在,并可用于追踪BMC的迁移。由于在其他种类的浮游有孔虫中已经报道了与G. inflata相似程度的形态分离,因此本研究中提出的方法可能会产生丰富的新的古海洋学代用物。
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Tracing shifts of oceanic fronts using the cryptic diversity of the planktonic foraminifera Globorotalia inflata
The use of planktonic foraminifera in paleoceanographic studies relies on the assumption that morphospecies represent biological species with ecological preferences that are stable through time and space. However, genetic surveys unveiled a considerable level of diversity in most morphospecies of planktonic foraminifera. This diversity is significant for paleoceanographic applications because cryptic species were shown to display distinct ecological preferences that could potentially help refine paleoceanographic proxies. Subtle morphological differences between cryptic species of planktonic foraminifera have been reported, but so far their applicability within paleoceanographic studies remains largely unexplored. Here we show how information on genetic diversity can be transferred to paleoceanography using Globorotalia inflata as a case study. The two cryptic species of G. inflata are separated by the Brazil-Malvinas Confluence (BMC), a major oceanographic feature in the South Atlantic. Based on this observation, we developed a morphological model of cryptic species detection in core top material. The application of the cryptic species detection model to Holocene samples implies latitudinal oscillations in the position of the confluence that are largely consistent with reconstructions obtained from stable isotope data. We show that the occurrence of cryptic species in G. inflata, can be detected in the fossil record and used to trace the migration of the BMC. Since a similar degree of morphological separation as in G. inflata has been reported from other species of planktonic foraminifera, the approach presented in this study can potentially yield a wealth of new paleoceanographical proxies.
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Paleoceanography
Paleoceanography 地学-地球科学综合
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