Habitat assessment of Lamprotula coreana by using physical habitat simulation system (PHABSIM) at the Guem River
Dae-Hee Kim, Kyeong-Hwan Kim, Won-Ok Lee and Jun-Wook Hur
Inland Fisheries Research Institute, National Fisheries Research and Development Institute, Gapyeong 12453, Korea Bio-Monitoring Center, Daejeon 34576, Korea

This study sampled endangered species, Lamprotula coreana, and surveyed its habitat at the Guem River with three times from June to August 2013. To assess the habitat, this study conducted field survey considering diverse physical conditions of stream, such as pool, run and riffle, and measured transect, water depth, water velocity, substrate structure, and habitat type. When L. coreana collected, length, weight and age were measured. Water velocity, water depth and substrate structure were recorded to develop HSI (habitat suitability index) and performed PHABSIM (physical habitat simulation) to estimate the optimum flow discharge. Water level, flow discharge and transect data were used for habitat assessment, and PHABSIM was applied to calculate WUA (weighed usable area). Shell length was 73.1 ¡¾ 18.4 mm (28.5-102.0 mm), shell weight was 131.6 ¡¾ 72.3 g (28.0-281.0 g) and age was two to seven years from L. coreana collected at the upstream of the Guem River. Developed HSI indicated that the optimal habitat for L. coreana was 0.4-0.5 m for water depth, 0.3-0.5 m/s for water velocity and sand to boulder for substrate structure. The optimum ecological flow discharge for L. coreana was 2.1 cms and WUA was 3,730 m2/1000 m by the result of PHABSIM. Recently, river construction work and habitat disturbance have caused negative impact on the distribution of L. coreana. The result of this study would provide fundamental data for habitat restoration and management of L. coreana.

  
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