Effects of recreational fishing on zooplankton communities of drainage system reservoirs at an open‐pit mine

Effects of recreational fishing on zooplankton communities of drainage system reservoirs at an open‐pit mine

The use of artificial water bodies for angling is a popular practice, especially in industrial and urbanised areas where natural water bodies are lost. In this study, the zooplankton structure dynamics and water quality at three strip mine drainage system reservoirs were assessed with different type...

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Bibliographic Details
Published in:Fisheries management and ecology Vol. 27; no. 3; pp. 279 - 291
Main Authors: Goździejewska, Anna Maria, Skrzypczak, Andrzej Robert, Koszałka, Jacek, Bowszys, Magdalena
Format: Journal Article
Language:English
Published: Oxford Wiley Subscription Services, Inc 01-06-2020
Subjects:
Angling
Aquatic crustaceans
catch‐and‐release
Chlorophyll
Chlorophyll a
Cladocera
Drainage systems
Dynamic structural analysis
Environmental testing
Exploitation
Fisheries
Fishing
Fishing communities
ground bait
Larvae
Mine drainage
Nutrients
Organic matter
Plankton
Protozoa
Recreation
Redundancy
Reservoirs
Rotifera
Sport fishing
Sustainable fisheries
Turbidity
Water pollution
Water quality
Zooplankton
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Summary:The use of artificial water bodies for angling is a popular practice, especially in industrial and urbanised areas where natural water bodies are lost. In this study, the zooplankton structure dynamics and water quality at three strip mine drainage system reservoirs were assessed with different types of recreational fishery exploitation: K1—intensive angling using the catch‐and‐release model, K2—lowest angling pressure and higher share of predatory fishes and K3—moderate fishing, that is limiting groundbait quantities and eliminating non‐predatory fishes by anglers. The null hypothesis tested was that recreational fishing does not affect the biotic and abiotic conditions of reservoirs. The significance of each environmental variable was tested using redundancy analysis (RDA). The highest nutrients and chlorophyll a concentration, turbidity level and organic matter content occurred in K1. Zooplankton diversity was the lowest under these conditions; protozoa and larval stages of copepods dominated. In reservoirs where sustainable fishing was implemented (K2, K3), trophic parameters of water were lower, on average, by 25%, turbidity by 30%, and productivity by 35–70%. Zooplankton diversity was significantly higher; rotifers and small cladocerans dominated. The choice of recreational fishing model determines the functionality and biological potential of the reservoir.
ISSN:0969-997X
1365-2400
DOI:10.1111/fme.12411