Journal of Student Research 2017

59 Drivers of Hydroperiod and Ephemeral and Permanent Wetlands References Brooks, R. & Hayashi, M. (2002). Depth-area-volume and hydroperiod relationships of ephemeral (vernal) forest pools in Southern New England. Wetlands, 22 (2), 247 – 255. Brooks, R. (2004). Weather-related effects on woodland vernal pool hydrology and hydroperiod. Wetlands, 24 (1), 104-114. Boelter, D. (1968, Aug 18-23). Important physical properties of peat materials. In-Proceedings, third International Peat Congress. Quebec, Canada: Department of Energy, Minds and Resources and National Research Council of Canada. Calhoun, A. & deMaynadier, P. (2008). Science and conservation of-vernal pools in Northeastern North America. Boca Raton, FL: CRC Press - Lewis Publishers. Colburn, E. (2004). Vernal pools: Natural history and conservation. Blacksburg, VA: The McDonald & Woodward Publishing Company Epstein, E. J., Judziewicz, E. J., & Spencer, E. A. (2002). Ephemeral Pond. Retrieved from http://dnr.wi.gov/topic/EndangeredResources/ Communities.asp?mode=detail&Code=CLEPH390WI ESRI. (2014). ArcGIS Desktop: Release 10.2. [computer software]. Redlands, CA: Environmental Systems Research Institute. Onset Computer Corporation. (2015). HOBOware Pro [computer software]. Bourne, MA: Onset Computer Corporation. Snodgrass, J., Komoroski, M., Bryan A., & Burger, J. (2000). Relationships among isolated wetland size, hydroperiod, and amphibian species richness: Implications for wetland regulations. Conservation Biology, 14 (2), 414 – 419.