Effects of construction materials and design of lake and stream banks on climbing ability of frogs and salamanders

With the increasing development of many areas in recent years, concrete structures are often installed along water bodies in order to protect the safety of local residents. However, effects of these concrete structures on environments and mobility of amphibian species are still unknown. The construction of concrete banks along rivers associated with human development has become a serious problem in Taiwan. Most ecosystems used by amphibians are lakes and stream banks, yet no related design solutions to accommodate the needs of amphibians have been used in Taiwan. In this research, we selected eight species of amphibians and investigated their climbing abilities in an effort to improve lake and river bank designs. We evaluated their climbing abilities on five angles of bank slopes, identified relationships between an amphibian's climbing ability and different surface substrates of banks, i.e. Japanese silvergrass (Miscanthus floridulus) mixed with moss, cobblestone, wood (Philippine mahogany), clay, and concrete, under high humidity and different temperatures to simulate changes across the four seasons. The results showed that climbing ability of these amphibians is slightly decreased at low temperatures. For example, on a 45° slope in winter, the average climbing ability decreased 8% from results in summer. The upper limit of bank design slope suitable for Hynobius arisanensis on rock and wood surfaces is 45°. For amphibians from alpine areas in Taiwan, such as Bufo bankorensis, the maximum suitable slope is 15°. With concrete as the water bank material, slopes <30° are preferable. The results presented here can serve as a reference for technicians involved in future ecological engineering designs of banks throughout the world.