Comparative effects of river–lake disconnection on taxonomic and functional composition of molluscan assemblages in floodplain lakes

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-24 DOI:10.1007/s10750-024-05677-1
Peng Zheng, Xiaoming Jiang, Fengyue Shu, Kun Zhang, Hongquan Xiang, Janne Alahuhta, Jani Heino
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Abstract

Functional traits are promising features for biomonitoring in freshwater ecosystems. Here, we focused on 23 floodplain lakes to evaluate the responses of taxonomic and functional traits of freshwater mollusks to the loss of lateral hydrological connectivity (LHC). Our results revealed that the disconnected lakes (DLs) had significantly lower species richness of most functional trait categories of mollusks compared to the connected lakes (CLs). For percentages of species richness, only percentages of burrowers and thick-shelled species were significantly lower in DLs than CLs, while percentages of thin-shelled and small-sized species were higher in DLs. Therefore, there has been a shift toward assemblages with thin-shelled and small mollusks following LHC loss. We also found that key environmental variables affecting taxonomic and functional composition were connectivity, lake area, aquatic vegetable coverage, and water quality. Moreover, the functional composition of all Mollusca, Gastropoda, and Bivalvia were all better explained (explained variation ranged from 0.462 to 0.684) by environmental factors compacted with taxonomic composition (0.213–0.401). Connectivity was the most important factor affecting functional trait composition, whereas area was the most important variable for taxonomic composition. Thus, the trait-based approach based on mollusks was more sensitive in assessing the impacts of disconnection than the taxonomy-based approach.

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河湖断流对洪泛平原湖泊软体动物群落分类和功能组成的比较效应
功能特征是淡水生态系统生物监测的重要特征。在此,我们以 23 个洪泛平原湖泊为研究对象,评估了淡水软体动物的分类和功能特征对横向水文连通性(LHC)丧失的反应。我们的研究结果表明,与连通的湖泊(CLs)相比,断开连接的湖泊(DLs)大多数软体动物功能特征类别的物种丰富度明显较低。就物种丰富度的百分比而言,只有钻孔动物和厚壳物种的百分比在断连湖泊中明显低于连通湖泊,而薄壳物种和小型物种的百分比在断连湖泊中则较高。因此,在失去 LHC 后,软体动物群落向薄壳和小型软体动物群落转变。我们还发现,影响分类和功能组成的关键环境变量是连通性、湖泊面积、水生植物覆盖率和水质。此外,所有软体动物、腹足纲动物和双壳纲动物的功能组成都能更好地通过环境因素与分类组成(0.213-0.401)紧密结合来解释(解释变异范围为 0.462 至 0.684)。连通性是影响功能性状组成的最重要因素,而面积则是影响分类组成的最重要变量。因此,与基于分类学的方法相比,基于软体动物性状的方法在评估连接断开的影响方面更为敏感。
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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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