Changes in near-shore phytoplankton community and distribution, southwestern Caspian Sea

IF 1.4 4区 环境科学与生态学 Q3 LIMNOLOGY
Siamak Bagheri, Sepideh Khatib, Foong Swee Yeok
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Abstract

Sampling was done over a year (December 2020–November 2021) to study the distribution and species composition of phytoplankton in the southwestern Caspian Sea. Sea water from various depths was collected along four transects: Lisar, Anzali, Sefidrood and Chaboksar, with a total of 12 stations. A comparison was then made with the data collected in 1996 to look at the long-term changes. The increase in sea water temperature and salinity, especially in summer, was observed in the present study, which was possibly due to global warming and climate change. Amongst 48 identified phytoplankton species, Bacillariophyta (80.0%) and Cyanophyta (11.0%) were dominant. Phytoplankton abundance was measured as 99,775 ± 30,200 cell L−1 on average. The highest abundance was a non-native species Pseudo-nitzschia seriata (H. Peragallo 1900) from Bacillariophyta with more than 17,000 cell L−1, followed by another toxic species Nodularia spumigena (Mertens ex Bornet and Flahault 1888) from Cyanophyta. The N. spumigena species had the highest abundance as 5,000,000 cell L−1 in July 2021 at the Anzali region. Nutrient increase of more than threefold in 2020–2021 has caused a sevenfold increase of chlorophyll-a as compared to that in 1996. The increases in nutrients levels, sea surface temperature (> 30 °C) and salinity are generally regarded as important factors to cause variations in phytoplankton abundance and composition. The sevenfold increase of phytoplankton abundance between 1996 and 2020–2021 and change of trophic state from oligotroph to mesotroph, indicated the increase of stress and pressure on the native phytoplankton community.

Abstract Image

里海西南部近岸浮游植物群落和分布的变化
采样工作历时一年(2020 年 12 月至 2021 年 11 月),旨在研究里海西南部浮游植物的分布和物种组成。沿四个横断面采集了不同深度的海水:Lisar、Anzali、Sefidrood 和 Chaboksar 共 12 个站点。然后与 1996 年收集的数据进行比较,以了解长期变化情况。本研究观察到海水温度和盐度上升,尤其是在夏季,这可能是由于全球变暖和气候变化造成的。在 48 个已确认的浮游植物物种中,主要是芽叶藻(80.0%)和蓝藻(11.0%)。浮游植物丰度平均为 99,775 ± 30,200 cells L-1。丰度最高的是一种非本地物种 Pseudo-nitzschia seriata (H. Peragallo 1900),来自 Bacillariophyta,超过 17,000 cells L-1,其次是另一种有毒物种 Nodularia spumigena (Mertens ex Bornet and Flahault 1888),来自 Cyanophyta。2021 年 7 月,在安扎利地区,N. spumigena 的丰度最高,达到 5,000,000 cells L-1。与 1996 年相比,2020-2021 年营养物质增加了三倍多,导致叶绿素-a 增加了七倍。营养水平、海面温度(> 30 °C)和盐度的增加通常被认为是导致浮游植物丰度和组成变化的重要因素。从 1996 年到 2020-2021 年,浮游植物的丰度增加了七倍,营养状态也从寡养型转变为中养型,这表明本地浮游植物群落所承受的压力和压力在增加。
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来源期刊
Limnology
Limnology 地学-湖沼学
CiteScore
4.30
自引率
6.20%
发文量
15
审稿时长
>12 weeks
期刊介绍: Limnology is a scientific journal published three times a year, in January, April, and August, by Springer in association with the Japanese Society of Limnology. The editors welcome original scientific contributions on physical, chemical, biological, or related research, including environmental issues, on any aspect of basic, theoretical, or applied limnology that present significant findings for the community of scholars. The journal publishes Rapid communications, Research papers, Review articles, Asia/Oceania reports, and Comments. The aims and scope of Limnology are to publish scientific and/or technical papers in limnological sciences, to serve as a platform for information dissemination among scientists and practitioners, to enhance international links, and to contribute to the development of limnology.
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