Biodiversity and functioning of mesozooplankton in a changing Ross Sea

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY
Roberta Minutoli , Angelo Bonanno , Letterio Guglielmo , Alessandro Bergamasco , Marco Grillo , Stefano Schiaparelli , Marco Barra , Andrea Bergamasco , Alessia Remirens , Simona Genovese , Antonia Granata
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Abstract

Literature on Ross Sea zooplankton is limited, although it is the most productive system and has the highest biomass of phytoplankton in the Southern Ocean. Energy transfer within the food web and response of continental shelf food web to climate change depend on the knowledge of the density and distribution of zooplankton. We evaluated its density, composition, spatial distribution and their potential relations with environmental factors and specific water mass presence. Particular attention was given to copepods. Mesozooplankton samples were collected between 14 January and February 11, 2017 from 14 stations in the western Ross Sea and Terra Nova Bay, while other micronekton samplings were completed at 6 stations. Results highlighted three pools of stations: one inside Terra Nova Bay with the highest densities, one on the platform with lower mean density, and the third represented by a N–S transept at 175°E with the lowest mean density. This partitioning of the region fit with the grouping of stations according to a ternary plot based on the different percentages of water masses in each station and reflected the similarity of zooplankton. The presence of specific water masses and their contribution in the upper 200 m influences zooplankton biodiversity and density. A phylogenetic tree of the zooplankton was constructed to analyse the distance among the observed taxa. The area located near the coast exhibited the highest degree of phylogenetic overdispersion. In coastal waters, typical copepod species constituted the main part of the neritic zooplankton of Terra Nova Bay and Ross Sea. Oithona similis was the most abundant species both in coastal and offshore sectors, followed by pteropods, polychaetes and euphausiids.

不断变化的罗斯海中层浮游生物的生物多样性和功能
尽管罗斯海是南大洋最富饶的系统,浮游植物的生物量也最高,但有关罗斯海浮游动物的文献却很有限。食物网内部的能量传递以及大陆架食物网对气候变化的响应取决于对浮游动物密度和分布的了解。我们评估了浮游动物的密度、组成、空间分布及其与环境因素和特定水体存在的潜在关系。我们特别关注了桡足类。2017 年 1 月 14 日至 2 月 11 日期间,我们在罗斯海西部和新星湾的 14 个站点采集了中浮游动物样本,并在 6 个站点完成了其他微浮游动物的采样工作。结果突出显示了三个站点群:一个在新星湾内,密度最高;一个在平台上,平均密度较低;第三个由位于东经 175 度的南北横断面代表,平均密度最低。这种区域划分符合根据各站水团所占比例不同的三元图对各站进行的分组,并反映了浮游动物的相似性。特定水团的存在及其在上 200 米的贡献影响浮游动物的生物多样性和密度。构建了浮游动物的系统发生树,以分析观察到的类群之间的距离。靠近海岸的区域表现出最高程度的系统发育过度分散。在沿岸水域,典型的桡足类物种构成了 Terra Nova 湾和罗斯海浮游动物的主要部分。Oithona similis 是沿海和近海水域最丰富的物种,其次是翼足目、多毛目和 euphausiids。
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来源期刊
CiteScore
6.40
自引率
16.70%
发文量
115
审稿时长
3 months
期刊介绍: Deep-Sea Research Part II: Topical Studies in Oceanography publishes topical issues from the many international and interdisciplinary projects which are undertaken in oceanography. Besides these special issues from projects, the journal publishes collections of papers presented at conferences. The special issues regularly have electronic annexes of non-text material (numerical data, images, images, video, etc.) which are published with the special issues in ScienceDirect. Deep-Sea Research Part II was split off as a separate journal devoted to topical issues in 1993. Its companion journal Deep-Sea Research Part I: Oceanographic Research Papers, publishes the regular research papers in this area.
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