1. The influence of riparian vegetation shading on water temperature during low flow conditions in a medium sized river
- Author
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Hans Peter Rauch, Andreas Melcher, Philipp Weihs, Gregor Laaha, Heidelinde Trimmel, and Gerda Kalny
- Subjects
restoration ,010504 meteorology & atmospheric sciences ,Cloud cover ,0208 environmental biotechnology ,riparian vegetation ,02 engineering and technology ,Management, Monitoring, Policy and Law ,Aquatic Science ,river vegetation management ,01 natural sciences ,lcsh:Aquaculture. Fisheries. Angling ,Aquatic organisms ,water temperature ,Riparian forest ,0105 earth and related environmental sciences ,Nature and Landscape Conservation ,Water Science and Technology ,Riparian zone ,Hydrology ,lcsh:SH1-691 ,geography ,geography.geographical_feature_category ,Ecology ,vegetation-shading index ,020801 environmental engineering ,Flow conditions ,Water temperature ,Air temperature ,Environmental science ,Shading - Abstract
Stream water temperature limits the growth and survival of aquatic organisms; whereby riparian shading plays a key role in inhibiting river warming. This study explains the effects of riparian shading on summer water temperatures at a pre-alpine Austrian river, during heatwave and non-heatwave periods at low flow conditions. A vegetation-shading index was introduced for the quantification of riparian vegetation effects on water temperature. For maximum water temperatures, a downstream warming of 3.9 °C was observed in unshaded areas, followed by a downstream cooling of 3.5 °C in shaded reaches. Water temperature directly responded to air temperature and cloudiness. For an air temperature change of 2 °C we modelled a water temperature change of 1.3 °C for unshaded reaches, but lower changes for intensively shaded reaches. Similar daily variations at shaded reaches were up to 4 °C lower than unshaded ones. This study gives clear evidence that for a medium-sized pre-alpine river, restoration practices should consider that discontinuity of riparian vegetation should be less than 6000 m; with more than 40% dense vegetation in order to minimize water temperature increases due to unshaded conditions.
- Published
- 2017