Abstract
Alpine lakes support unique communities which may respond with great sensitivity to climate change. Thus, an understanding of the drivers of the structure of communities inhabiting alpine lakes is important to predict potential changes in the future. To this end, we sampled benthic macroinvertebrate communities and measured environmental variables (water temperature, dissolved oxygen, conductivity, pH, nitrate, turbidity, blue-green algal phycocyanin, chlorophyll-a) as well as structural parameters (habitat type, lake size, maximum depth) in 28 lakes within Hohe Tauern National Park, Austria, between altitudes of 2,000 and 2,700 m a.s.l. The most abundant macroinvertebrate taxa that we found were Chironomidae and Oligochaeta. Individuals of Coleoptera, Diptera, Hemiptera, Plecoptera, Trichoptera, Tricladida, Trombidiformes, Veneroida were found across the lakes and determined to family level. Oligochaeta were not determined further. Generalized linear modeling and permanova were used to identify the impact of measured parameters on macroinvertebrate communities. We found that where rocky habitats dominated the lake littoral, total macroinvertebrate abundance and family richness were lower while the ratio of Ephemeroptera, Plecoptera and Trichoptera (EPT) was higher. Zoo- and phytoplankton densities were measured in a subset of lakes but were not closely associated with macroinvertebrate abundance or family richness. With increasing elevation, macroinvertebrate abundances in small and medium-sized lakes increased while they decreased in large lakes, with a clear shift in community composition (based on families). Our results show that habitat parameters (lake size, habitat type) have a major influence on benthic macroinvertebrate community structure whereas elevation itself did not show any significant effects on communities. However, even habitat parameters are likely to change under climate change scenarios (e.g. via increased erosion) and this may affect alpine lake macroinvertebrates.
Highlights
Alpine lakes constitute extreme habitats that support highly specific aquatic communities and are among those habitats impacted the least by human activities [1]
We found that lake size and habitat type were the most important factors impacting macroinvertebrate communities in our study area
The second hypothesis could be tested regarding general macroinvertebrate community structure, but no statement can be made about specific effects on stenothermal species, due to low taxonomic resolution of our data
Summary
Alpine lakes constitute extreme habitats that support highly specific aquatic communities and are among those habitats impacted the least by human activities [1]. Bmlrt.gv.at/), the European agricultural fund for rural development (https://ec.europa.eu/info/foodfarming-fisheries/key-policies/commonagricultural-policy/rural-development_de) and Hohe Tauern National Park (https://hohetauern.at/ de/). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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