Relationships among isolated wetland size, hydroperiod, and amphibian species richness: Implications for wetland regulations

Wetland development within the United States is regulated primarily by size . Decisions concerning wetland destruction or conservation are therefore ba sed in part on three inherent assumptions: (1) small wetlands contain water for short portions of the year; (2) small wetlands support few species; an d (3) species found in small wetlands are also found in larger wetlands. We tested these assumptions using data on wetland size, relative hydroperiod (drying scores), and relative species richness of amphibians in depression wetlands of the southeastern United States. We found a significant (p = 0.0 3) but weak (r(2) = 0.05) relationship between hydroperiod and wetland size and no relationship (p = 0.48) between amphibian species richness and wetl and size. Furthermore, synthetic models of lentic communities predict that short-hydroperiod wetlands support a unique group of species. Empirical inv estigations support this prediction. Our results indicate that hydroperiod length should be included as a primary criterion in wetland regulations. We advocate a landscape approach to wetlands regulation, focused in part on c onserving a diversity of wetlands that represent the entire hydroperiod gra dient.