Openness of Fish Habitat Matters: Lake Pelagic Fish Community Starts Very Close to the Shore

Karlos Moraes,Marek Šmejkal,Allan T Souza,Lobsang Tsering,Zuzana Sajdlová,Petr Blabolil,Mojmír Vašek,Martin Čech,Jan Kubečka,Daniel Bartoň,Jiří Peterka,Milan Říha,Kateřina Kolářová,Romulo A Dos Santos,Michaela Holubová,Tomáš Jůza,Vladislav Draštík,Josef Matěna,Luboš Kočvara

doi:10.3390/w13223291

Abstract

Fish communities differ significantly between the littoral and the pelagic habitats. This paper attempts to define the shift in communities between the two habitats based on the European standard gillnet catch. We sampled the benthic and pelagic habitats from shore to shore in Lake Most and Římov Reservoir (Czech Republic). The 3 m deep pelagic nets were spanned across the water body at equal distances from two boundary points, where the depth was 3.5 m. The benthic community contained more fish, more species, and smaller individuals. The mild sloped littoral with a soft bottom attracted more fish than the sloping bank with a hard bottom and less benthos and large Daphnia. The catch of the pelagic nets was dominated by eurytopic fish—rudd (Scardinius erythrophthalmus) and roach (Rutilus rutilus) in Most and bleak (Alburnus alburnus) in Římov. With the exception of one case where overgrown macrophytes extended the structured habitat, the largest shift from the benthic to the pelagic community was observed only in the first pelagic gillnet above the bottom depth of 3.5 m. Open water catches were relatively constant with small signs of decline towards the middle of the lake. The results indicate that the benthic gillnet catch is representative of a very limited area and volume, while most of the volume is dominated by the pelagic community. This has important consequences for the assessment of the community parameters of the whole lake following the European standards for gillnet sampling design.

Highlights

In any environment, species composition changes gradually or abruptly between habitats
The distribution of fish species is not random and their distribution in different habitats depends on several factors, including substrate composition [5,6,7], depth [8,9,10], habitat complexity [5,9,11,12], temperature [13,14,15], oxygen concentration [13,16], distribution of planktonic and benthic organisms [14,17,18], and other factors
We can assume that the spatial distribution of fish is optimized by strategies to maximize habitat and resource use with the aim of increasing individual fitness [20]

Summary

Introduction

Species composition changes gradually or abruptly between habitats. These ecological gradients have been the subject of a number of studies in ecology and usually reflect the abundance and richness of species [1,2,3,4]. Rapid changes in species ecological gradients, termed ecotones, have been observed in a variety of ecosystems [1]. Ecotones can affect the abundance and distribution of organisms. The boundary between the littoral (shallow areas) and pelagic zones is poorly understood [21]

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