Amphibian and reptile community response to coarse woody debris manipulations in upland loblolly pine (Pinus taeda) forests.
Authors:
Owens, Audrey K. Moseley, Kurtis R. McCay, Timothy S. Castleberry, Steven B. Kilgo, John C. Ford, W. Mark USDA, FS
Source:
Forest ecology and management. 2008 Dec. 10, v. 256, no. 12 [Amsterdam]: Elsevier Science, p. 2078-2083.
NALT Subjects:
animal communities amphibians reptiles coarse woody debris Pinus taeda coniferous forests microhabitats dead wood snags volume Rana species diversity coastal plains habitat preferences Southeastern United States
Other Subjects:
Rana sphenocephala
Issue Date:
10-Dec-2008
Abstract:
Coarse woody debris (CWD) has been identified as a key microhabitat component for groups that are moisture and temperature sensitive such as amphibians and reptiles. However, few experimental manipulations have quantitatively assessed amphibian and reptile response to varying CWD volumes within forested environments. We assessed amphibian and reptile response to large-scale, CWD manipulation within managed loblolly pine stands in the southeastern Coastal Plain of the United States from 1998 to 2005. Our study consisted of two treatment phases: Phase I treatments included downed CWD removal (removal of all downed CWD), all CWD removal (removal of all downed and standing CWD), pre-treatment snag, and control; Phase II treatments included downed CWD addition (downed CWD volume increased 5-fold), snag addition (standing CWD volume increased 10-fold), all CWD removal (all CWD removed), and control. Amphibian and anuran capture rates were greater in control than all CWD removal plots during study Phase I. In Phase II, reptile diversity and richness were greater in downed CWD addition and all CWD removal than snag addition treatments. Capture rate of Rana sphenocephala was greater in all CWD removal treatment than downed CWD addition treatment. The dominant amphibian and snake species captured are adapted to burrowing in sandy soil or taking refuge under leaf litter. Amphibian and reptile species endemic to upland southeastern Coastal Plain pine forests may not have evolved to rely on CWD because the humid climate and short fire return interval have resulted in historically low volumes of CWD.
