Abstract
The extraordinary diversity in long-lived lakes is largely driven by distinct eco-evolutionary processes. With their unique biota and numerous endemic taxa, these lakes are key settings for fundamental studies related to ecology, diversity, and evolution. Here, we test how the environment shapes diatom diversity and community patterns over space in ancient Lake Ohrid. By applying Bray–Curtis similarity analyses of diatom community data, including widespread and endemic taxa, we identified two major zones: littoral and sublittoral. The latter one is being characterized with higher endemic diversity. The α and β diatom diversity and community distribution in the northern and eastern part of the lake are influenced by the presence of vertical (bathymetrical) and horizontal barriers. The zonation of the diatom communities appears driven by two large-scale factors: (i) water depth, and (ii) water chemistry, primarily, the concentration of total phosphorus, nitrogen ammonia, and conductivity. Both drivers appear to equally influence diatom diversity and community patterns. We present initial data on diatom–environment relations, where the results support earlier ecological studies emphasizing the relevance of ongoing human-induced eutrophication in the northern lake area. This study provides background information on the role of the environment in structuring contemporary diatom diversity. However, future research needs to focus on the biotic component including species competition in order to reveal the mechanisms driving spatial community dynamics in Lake Ohrid.
Highlights
The biological diversity across Earth is characterized by a heterogeneous spatial distribution, which is shaped by the complex interplay of ecological and evolutionary processes
Our results show that some endemic taxa, like Amphora ohridana Levkov, Caloneis acuta Levkov, Sellaphora krsticii Levkov, Nakov & Metzeltin appeared to have limited distribution in the littoral zone, while others, such as Caloneis biconstrictoides Levkov, Cymbopleura juriljii Levkov & Metzeltin and Sellaphora macedonica Levkov & Metzeltin were restricted to the sublittoral zone of the lake
We demonstrated distinct spatial patterns of community and diversity in diatoms from Lake Ohrid
Summary
The biological diversity across Earth is characterized by a heterogeneous spatial distribution, which is shaped by the complex interplay of ecological and evolutionary processes. In terms of biodiversity at species level, ancient lakes are considered as diversity ‘‘hot-spots’’ (Rossiter & Kawanabe, 2000). Their prolonged isolation from other ecosystems resulted in extraordinary biodiversity and high numbers of endemic lineages (Brooks, 1950; Martens, 1997; Cristescu et al, 2010). Several studies already provide evidence for the negative effects of global change and anthropogenic pressure over the biodiversity in ancient lakes Tanganyika (Cocquyt, 2000), Ohrid (Matzinger et al, 2007) and Baikal (Moore et al, 2009)
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