涅瓦河河口沿岸底栖动物对浮游藻类胁迫的响应

N. Berezina, S. Golubkov
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摘要

本研究主要研究波罗的海最东部涅瓦河河口浅层石质沙质沿岸(深度0-1 m)大型无脊椎动物群落的不稳定变化,其原因是富营养化现象(快速生长的丝状藻Cladophora glomerata的增殖、藻类分解过程中氧的消耗和总磷的富集)。2003-2005年5 - 10月,研究了栖地特征(温度、盐度、总磷、总氧)、附着和漂流的黄颡鱼生物量、底栖动物的分类组成、丰度和生物量。此外,在距离海岸60 m的浅水区,研究了浮游藻类生物量最大时期(2005年)浅水区大型无脊椎动物的水平分布。我们得出结论,沿海富营养化现象(浮游藻类污染栖息地,暂时性缺氧)导致大型无脊椎动物普遍死亡,导致结构改变,浅海地区大型无脊椎动物生物量减少至少10倍。漂藻生物量高(315 ~ 445 g干重m-2)的近岸区域影响最大,而距离较远(30 ~ 60 m)的漂藻生物量减少,无缺氧记录,底栖大型动物的生物量达到24.3 ~ 30.8 g湿重m-2。在涅瓦河河口沿岸,由于大型藻类分解引起的时间耗氧,只有具有机会主义生活策略和高抗氧性的物种才能生存并占据主导地位。
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Responses of coastal zoobenthos to stress induced by drifting algae in the Neva estuary
The present study focuses on destabilizing changes in macroinvertebrate communities in shallow stony-sandy littoral (depths of 0-1 m) of the Neva estuary, easternmost part of Baltic Sea caused by eutrophication phenomena (proliferation of fast-growing filamentous algae Cladophora glomerata, depletion in oxygen and enrichment in total phosphorus during the algae decomposition). Habitat characteristics (temperature, salinity, total phosphorus, and oxygen), biomass of attached and drifting C. glomerata, taxonomical composition, abundance and biomass of zoobenthos were studied since May to October 2003-2005. Also, horizontal distribution of macroinvertebrates in the shallow areas during period of maximum biomasses of drifting algae (in 2005) was studied in the shallow zone up to 60 m-distance from the shore. We conclude that coastal eutrophication phenomena (pollution of habitats by drift algae, temporal hypoxia) caused widespread mortality of macroinvertebrates resulting in shifts of structure and at least 10 times decrease in biomass of macroinvertebrates in shallow areas. Maximum effects were recorded at near-shore areas with high biomass (315-445 g dry weight m-2) of drifting algae, while at the greater distances (30-60 m) the biomass of drift algae decreased, hypoxia was not recorded, and biomass of benthic macrofauna reached 24.3-30.8 g wet weight m-2. Only species with opportunistic life strategy and high resistance to oxygenation are able to survive and dominate in coastal area of the Neva estuary with temporal oxygen depletion inducing by macroalgae decomposition.
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