A conceptual framework towards more holistic freshwater conservation planning through incorporation of stream connectivity and thermal vulnerability

•The thermal vulnerability of benthic taxa was assessed for two rivers (uMngeni and Tugela) in South Africa.•Connectivity and thermal vulnerability and resilience are important for conservation planning.•Water temperature changes with changing elevation gradient in rivers.•Stenothermic organisms are...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2018-01, Vol.556, p.173-181
Main Authors: Ramulifho, P.A., Rivers-Moore, N.A., Dallas, H.F., Foord, S.H.
Format: Article
Language:English
Subjects:
Adaptive management
Aquatic macroinvertebrate
Catchment conservation
Longitudinal connectivity
Thermophily
Water temperature
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Summary:•The thermal vulnerability of benthic taxa was assessed for two rivers (uMngeni and Tugela) in South Africa.•Connectivity and thermal vulnerability and resilience are important for conservation planning.•Water temperature changes with changing elevation gradient in rivers.•Stenothermic organisms are locally threatened and likely to extinct.•Holistic conservation plan to include connectivity and thermal vulnerability. The thermal regime of rivers plays an important role in the overall health and composition of aquatic ecosystems, and together with flow, is recognised as one of the most influential abiotic drivers of aquatic ecosystem processes affecting species distribution. Changes in thermal conditions in aquatic systems are driven by on-going human-induced climate change, hydrological, regional and structural factors. Here, we quantified the impact of instream impoundments on the natural longitudinal connectivity and estimated thermal vulnerability of catchments based on the functional relationship between changing temperature and the profile gradient of rivers in the eastern portion of South Africa. We identified catchments that are most vulnerable to thermal stress based on cold-water adapted species’ tolerance to thermal changes. More than half of all studied catchments include rivers that are relatively intact longitudinally, with notable exceptions being rivers in the central portion of the study area. Thermal condition of high elevation sites is more heavily impacted by impoundments and consequently thermal vulnerability of these sites are higher. Blephariceridae and Notonemouridae, the most thermophobic families, are likely to become locally threatened or extinct, in the absence of connectivity. The quantification of stream connectivity and vulnerability of organisms to thermal changes in river systems are important decision making tools for effective adaptive and holistic conservation planning strategies.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2017.11.005