Diversity of eukaryote plankton and phycotoxins along the West Kalaallit Nunaat (Greenland) coast

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-12 DOI:10.3389/fmars.2024.1443389
Susana Rodríguez-Marconi, Bernd Krock, Urban Tillmann, Anette Tillmann, Daniela Voss, Oliver Zielinski, Mónica Vásquez, Nicole Trefault
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Abstract

The West Kallaallit Nunaat (Greenland) coast, characterized by a variety of fjords, bays, and channels influenced by glacier melting and Atlantic and Arctic waters, is one of the most affected ecosystems by climate change. Here, we combine oceanography, optics, microscopy, high throughput sequencing, microalgal strain establishments, and state-of-the-art analytical methods to fully characterize the diversity, community composition, and toxin repertoire of the eukaryotic plankton members of the coast of the West Kalaallit Nunaat (Greenland). Results indicate that the West Kalaallit Nunaat (Greenland) coast is a complex and oceanographically challenging system, where the superimposition of water masses of different origins, the penetration of light and its repercussions, generate mainly vertical, rather than horizontal heterogeneity in nutrient concentration and plankton biomass. Nevertheless, our molecular data reveal a strong homogeneity and a high diversity in the plankton community along the Greenland coast. We confirmed the presence of five phycotoxin groups: domoic acid and paralytic shellfish toxins were most abundant along the transect from Qeqertarsuup Tunua (Disko Bay) to the northern Baffin Bay, while spirolides, yessotoxins and pectenotoxins were predominant in Nuup Kangerlua (GodthaabFjord) and Qeqertarsuup Tunua (Disko Bay). Concentrations of these phycotoxins correlate differently to temperature, salinity and nutrients, reflecting the ecological differences of their producers. Patterns of paralytic shellfish and spirolide toxins suggest the presence of genetically distinct populations of Alexandrium along the Western Kalaallit Nunaat (Greenland). Phytoplankton strains isolated during this oceanographic campaign resemble, in most cases, the toxin profiles of the respective field stations. Overall, this work shows the diversity and community composition of the plankton at the Western Kalaallit Nunaat coast and reveals a distinct spatial distribution of phycotoxins, with certain toxin groups restricted to specific areas.
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西卡拉利特-努纳特(格陵兰)沿岸真核浮游生物的多样性和藻类毒素
西卡拉阿利特-努纳特(格陵兰)沿岸有各种峡湾、海湾和海峡,受到冰川融化以及大西洋和北极水域的影响,是受气候变化影响最大的生态系统之一。在这里,我们将海洋学、光学、显微镜、高通量测序、微藻菌株建立和最先进的分析方法结合起来,全面描述了西卡拉利特努纳特(格陵兰)沿岸真核浮游生物成员的多样性、群落组成和毒素种类。研究结果表明,西卡拉利特-努纳特(格陵兰)海岸是一个复杂的、具有海洋学挑战性的系统,不同来源水团的叠加、光的穿透及其影响,主要造成了营养浓度和浮游生物生物量的垂直异质性,而非水平异质性。不过,我们的分子数据显示,格陵兰沿岸的浮游生物群落具有很强的同质性和多样性。我们证实了五类藻毒素的存在:多莫酸和麻痹性贝类毒素在从 Qeqertarsuup Tunua(迪斯科湾)到巴芬湾北部的横断面上最为丰富,而螺环菌毒素、酵母毒素和果胶毒素则主要存在于 Nuup Kangerlua(戈达布峡湾)和 Qeqertarsuup Tunua(迪斯科湾)。这些藻毒素的浓度与温度、盐度和营养物质的相关性不同,反映了其生产者的生态差异。麻痹性贝类毒素和螺旋体毒素的模式表明,西卡拉利特努纳特河(格陵兰岛)沿岸存在不同基因的亚历山大群。在这次海洋考察活动中分离出的浮游植物菌株,在大多数情况下都与各自野外观测站的毒素特征相似。总之,这项工作显示了西卡拉利特努纳特海岸浮游生物的多样性和群落组成,并揭示了藻毒素的独特空间分布,某些毒素群仅限于特定区域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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