Macro- and meiozoobenthos in some small stratified lakes of Estonia.

Estonian Journal of Ecology Pub Date : 2010-06-01 DOI:10.3176/ECO.2010.2.03

H. Timm, T. Möls, T. Timm

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引用次数: 2

Abstract

Macro- and meiozoobenthos (300 samples with a 225 cm 2 Boruckij grab and 180 with a 6.38 cm 2 corer) from unvegetated, soft-bottom areas in ten small stratified lakes were studied in July-August 1998-1999. The sampling sites were located just above, in the middle, and below the position of the metalimnion in each lake. Chironomidae and Oligochaeta were common in both macro- and meiozoobenthic samples but more abundant (by an order of magnitude) in the latter because the smallest individuals were included. The meiobenthic samples were dominated by planktonic crustaceans, particularly Cyclopoida, with respect to abundance while most of their biomass was formed by the macrobenthic animal groups. Eumeiobenthos sensu stricto, such as Nematoda, Ostracoda, etc., were scarce. Thirty-three variables (abundance, biomass, and number of taxa in different samples) were related to water layer (epi-, meta-, and hypolimnion), sampling depth, lake, year, and O2 saturation %. Most variables depended on lake but not on year. Abundance and biomass of the studied taxa and the number of taxa of macrozoobenthos per sample decreased significantly from the epi- to hypolimnion, except for Chaoborus flavicans, which was more abundant in deeper layers of water. From the results of ANOVA, it was concluded that the biomass and abundance of Chaoborus, biomass of Hydrachnidia, abundance of Chironomidae and other 'large' animals in the meiobenthic samples, as well as the number of taxa of macrozoobenthos per sample did not follow the layers but only the depth. The distribution of the biomass of macrozoobenthic Chironomidae as well as the total biomass and abundance of macrozoobenthos without Chaoborus were more tied to separate layers. For the majority of individual taxa no dependence on depth was found. Discriminant analysis revealed a rather weak separation of the water layers in summer by the benthic characteristics. An index formed of 33 variables of zoobenthos with the highest statistical significance for testing the depth effect (Depth Index) revealed the most apparent changes in environmental conditions in the upper part of the metalimnion.

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爱沙尼亚一些小的分层湖泊中的大型和小型底栖动物。

1998-1999年7 - 8月，对10个小层状湖泊无植被软底区大型底栖动物和小型底栖动物(Boruckij捕集面积为225 cm 2，捕集面积为180 cm 2，覆盖面积为6.38 cm 2)进行了研究。采样点位于每个湖泊中金属离子位置的正上方、中间和下方。Chironomidae和Oligochaeta在大型底栖动物和小型底栖动物样本中都很常见，但在后者中更丰富(以一个数量级)，因为最小的个体包括在内。浮游甲壳类以环足类居多，生物量主要由大型底栖动物类群构成。线虫、介形虫等严格意义的真底栖动物较少。33个变量(丰度、生物量和不同样品的类群数量)与水层(高、中、低磷)、采样深度、湖泊、年份和O2饱和度%有关。大多数变量与湖泊有关，而与年份无关。除黄藻属(Chaoborus flavicans)在较深的水体中较丰富外，每个样品的大型底栖动物类群丰度、生物量和数量均从浅水区向低阴离子区显著下降。方差分析结果表明，中底栖动物的生物量和丰度与层数无关，而与深度相关的大型底栖动物种类数与层数无关，与水蛭目、手拟虫科等大型动物的生物量和丰度也不相关。大型底栖动物摇尾虫科的生物量分布，以及不含摇尾虫的大型底栖动物的总生物量和丰度，更倾向于分层分布。大多数分类群对深度没有依赖关系。判别分析表明，夏季底栖生物特征对水层的分离作用较弱。由统计显著性最高的33个底栖动物变量组成的检验深度效应的指数(深度指数)揭示了金属离子上部环境条件的变化最为明显。

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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Estonian Journal of Ecology

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