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Effects of river regulation on aquatic invertebrate community composition: a comparative analysis
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  • Lizaan de Necker,
  • Divan van Rooyen,
  • Ruan Jan-Izak Lodewyk Gerber,
  • Luc Brendonck,
  • Victor Wepener,
  • Nico J Smit
Lizaan de Necker
North-West University Unit for Environmental Sciences and Management

Corresponding Author:[email protected]

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Divan van Rooyen
North-West University Unit for Environmental Sciences and Management
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Ruan Jan-Izak Lodewyk Gerber
North-West University Unit for Environmental Sciences and Management
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Luc Brendonck
North-West University Unit for Environmental Sciences and Management
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Victor Wepener
North-West University Unit for Environmental Sciences and Management
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Nico J Smit
North-West University Unit for Environmental Sciences and Management
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Abstract

Although natural flooding plays a crucial role in shaping the composition of aquatic communities, most rivers around the world have been regulated or dammed for anthropogenic purposes. This affects the biological and chemical composition of these ecosystems. Although studies have demonstrated the negative effects of river regulation on aquatic invertebrate communities globally, there is a scarcity of research in Africa, despite its vulnerability to anthropogenic use. This study aimed to compare aquatic invertebrate communities between the regulated Phongolo River and the unregulated Usuthu River, South Africa and to determine whether the largest lake in the region (Lake Nyamithi), which receives water from both rivers, would show a stronger resemblance to either of the two rivers. Aquatic invertebrate and water samples were collected from 2012 to 2018 over several seasons. The Usuthu River demonstrated a diverse and sensitive aquatic invertebrate community, emphasising its high conservation value. Despite maintaining relatively high aquatic invertebrate diversity, the Phongolo River demonstrated effects of anthropogenic impact, with more resilient taxa to changes in water quality and flow compared to the Usuthu River. Mismanagement and excessive water use may lead to the loss of any remaining sensitive aquatic invertebrate communities in this river. The presence of invasive molluscan species such as Physella acuta and Tarebia granifera in the Phongolo River and Lake Nyamithi also poses a threat to the aquatic invertebrate community in the system. These invasive species are currently absent from the Usuthu River although other invasive species, such as the Australian redclaw crayfish, are found in both river systems. Lake Nyamithi displayed a unique aquatic invertebrate community, distinct from both rivers and their floodplains. This study provides important baseline information on the Usuthu River’s aquatic invertebrates and emphasises the need to maintain adequate water flow in rivers and floodplains to protect biodiversity and sensitive species.
28 Jul 2023Submitted to Ecology and Evolution
01 Aug 2023Submission Checks Completed
01 Aug 2023Assigned to Editor
02 Aug 2023Reviewer(s) Assigned
29 Aug 2023Review(s) Completed, Editorial Evaluation Pending
04 Sep 2023Editorial Decision: Revise Minor
10 Oct 20231st Revision Received
03 Nov 2023Review(s) Completed, Editorial Evaluation Pending