Macroinvertebrate habitat requirements in rivers: overestimation of environmental flow calculations in incised rivers
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Published:2022-08-08
Issue:15
Volume:26
Page:4109-4124
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ISSN:1607-7938
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Container-title:Hydrology and Earth System Sciences
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language:en
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Short-container-title:Hydrol. Earth Syst. Sci.
Author:
Kędzior Renata, Kłonowska-Olejnik Małgorzata, Dumnicka Elżbieta, Woś Agnieszka, Wyrębek Maciej, Książek Leszek, Grela Jerzy, Madej Paweł, Skalski TomaszORCID
Abstract
Abstract. Flow variability determines the conditions of river
ecosystems and river ecological functioning. The variability of ecological
processes in river ecosystems gradually decreases due to river
channelization and incision. Prediction of the environmental flow allows us
to keep biological diversity and river health developed as a response to the
degradation of aquatic ecosystems overexploited by humans. The goal of the
study was to test the influence of river incision on environmental flow
estimation based on the Biological Monitoring Working Party (BMWP)
macroinvertebrate index. A total of 240 macroinvertebrate assemblages of 12
waterbodies differing in bed substrate and amplitude of discharge were
surveyed in southern Poland. Variations in the distribution of 151 466
macroinvertebrates belonging to 92 families were analysed. The similarity of
benthic macroinvertebrates reflects the typological division of the rivers
into three classes: Tatra mountain streams, mountain flysch rivers, and
upland carbonate and silicate rivers. As a response variable reflecting the macroinvertebrate distribution in the river, the BMWP_PL index was chosen. The river incision significantly
increased the values of e-flow calculations in relation to redeposited
channels. The area of optimal habitat for macroinvertebrates decreased with
the bed incision intensity. In highly incised rivers, the environmental flow
values are close to the mean annual flow, suggesting that a high volume of
water is needed to obtain good macroinvertebrate conditions. As a
consequence, river downcutting processes and impoverishment of optimal
habitats will proceed.
Publisher
Copernicus GmbH
Subject
General Earth and Planetary Sciences,General Engineering,General Environmental Science
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