马尾藻海鲍迪奇海山生物多样性、地貌学、海洋学和冰川史的多学科特征描述

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY
Lea-Anne Henry , Igor Yashayaev , Claude Hillaire-Marcel , F. Javier Murillo , Ellen Kenchington , Struan Smith , Jenny Maccali , Jill Bourque , Louis L. Whitcomb , J. Murray Roberts
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引用次数: 0

摘要

首次对马尾藻海的鲍迪奇海山进行了多学科特征描述,以提供有关该海山的生物多样性、地貌、海洋学和冰川历史的新基线知识。在海山 1483-1562 米深处进行的投放式照相机横断面记录了 77 个巨型动物分类群,包括海绵、冷水珊瑚和有柄脊索动物等脆弱海洋生态系统指标分类群。对多波束回声测深仪数据进行的海底地形分析表明,沿这一横断面的物种随当地地貌的变化而显著变化(R2adj = 31%,p < 0.0001),海底地形和底层的变化推动了海山的物种组成。Van Veen 在水深 1517 米处采集的化石珊瑚(Desmophyllum dianthus)的 14C 校准数据和 230Th 年龄显示,珊瑚在海山上的繁荣时期分别为公元前 24 千年和公元前 17 千年。骨架的放射源εNd-组成值在高值和低值之间的突然偏移表明,D. dianthus在南部源水输入和劳伦泰德冰盖融化的碎屑沉积物时期分别在海山上持续存在。与北大西洋西部的其他研究一致,在这些深度的当代环境中不存在活的滇桂花,这表明自退冰期以来,海山群落发生了重大重组,当时冰汲取的碳酸盐碎屑可能导致霰石补偿深度降低,从而使滇桂花在更深的深度大量繁殖。新的电导率-深度-温度剖面显示,这些深度的海山现在由高纬度地区形成的高含氧拉布拉多海水(LSW)沐浴。对新构建的拉布拉多海和百慕大地区长达 70 年的温度和盐度时间序列进行的联合分析表明,从高纬度到鲍迪奇海山需要 10 年的时间。这种多学科方法不仅显示了地貌如何驱动当地的生物多样性模式,还显示了亚极地地区的上游气候压力如何影响百慕大的亚热带海山生态系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multidisciplinary characterisation of the biodiversity, geomorphology, oceanography and glacial history of Bowditch Seamount in the Sargasso Sea

The first multidisciplinary characterisation of Bowditch Seamount in the Sargasso Sea was conducted to provide new baseline knowledge of the biodiversity, geomorphology, oceanography and glacial history of this seamount. A dropframe camera transect 1483–1562 m deep on the seamount documented 77 megafaunal taxa including Vulnerable Marine Ecosystem indicator taxa such as sponges, cold-water corals, and stalked crinoids. Seabed terrain analysis of multibeam echosounder data showed species varied significantly along this transect in response to local geomorphological variability (R2adj = 31%, p < 0.0001), with changes in seafloor relief and substrata driving species composition over the seamount. 14C-calibrated and 230Th-ages of fossil corals (Desmophyllum dianthus) collected by Van Veen grabs 1517 m deep showed corals thrived on the seamount ∼24 ka BP and ∼17 ka BP. Abrupt excursions between higher and lower radiogenic εNd-composition values of the skeletons suggested that D. dianthus persisted on the seamount over times of southern source water input and detrital sediments from the melting Laurentide Ice Sheet, respectively. In agreement with other studies from the western North Atlantic, living D. dianthus were absent in the contemporary setting at these depths, and suggest a significant re-organisation of the seamount community since the deglacial when ice-rafted debris of carbonates likely resulted in a lower aragonite compensation depth allowing D. dianthus to proliferate at deeper depths. New conductivity-depth-temperature profiling revealed the seamount at these depths is now bathed by highly oxygenated Labrador Sea Water (LSW) formed at high latitudes. Co-analysis of a newly constructed 70-year long time series of temperature and salinity for the Labrador Sea and Bermuda regions revealed a 10-year transit time from high latitudes to Bowditch Seamount. This multidisciplinary approach shows how geomorphology drives local biodiversity patterns, but also how upstream climatic forcing in subpolar regions may influence Bermuda's subtropical seamount ecosystem.

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来源期刊
CiteScore
4.60
自引率
4.20%
发文量
144
审稿时长
18.3 weeks
期刊介绍: Deep-Sea Research Part I: Oceanographic Research Papers is devoted to the publication of the results of original scientific research, including theoretical work of evident oceanographic applicability; and the solution of instrumental or methodological problems with evidence of successful use. The journal is distinguished by its interdisciplinary nature and its breadth, covering the geological, physical, chemical and biological aspects of the ocean and its boundaries with the sea floor and the atmosphere. In addition to regular "Research Papers" and "Instruments and Methods" papers, briefer communications may be published as "Notes". Supplemental matter, such as extensive data tables or graphs and multimedia content, may be published as electronic appendices.
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