H11E-1380
FRESHWATER WETLAND HABITAT LOSS AND FRAGMENTATION: IMPLICATIONS FOR AQUATIC BIODIVERSITY CONSERVATION
Monday, 14 December 2015
Poster Hall (Moscone South)
Brad D Wolaver1, Jon Paul Pierre1, Benjamin J Labay2, Wade A Ryberg3, Toby J Hibbits4 and Heather L Prestridge4, (1)University of Texas at Austin, Jackson School of Geosciences, Austin, TX, United States, (2)University of Texas at Austin, Department of Integrative Biology, Austin, TX, United States, (3)Texas A & M University College Station, Institute of Renewable Natural Resources, College Station, TX, United States, (4)Texas A & M University College Station, Department of Wildlife and Fisheries Sciences, College Station, TX, United States
Abstract:
Anthropogenic land use changes have caused widespread wetland loss and fragmentation. This trend has important implications for aquatic biota conservation, including the semi-aquatic Western Chicken Turtle (Deirochelys reticularia miaria). This species inhabits seasonally inundated, ephemeral water bodies and adjacent uplands in the southeastern U.S. However, wetland conversion to agriculture and urbanization is thought to cause the species’ decline, particularly in Texas, which includes the westernmost part of its range. Because the species moves only a few kilometers between wetlands, it particularly sensitive to habitat loss and fragmentation. Thus, as part of the only state-funded species research program, this study provides the U.S. Fish and Wildlife Service (FWS) with scientific data to determine if the species warrants protection under the Endangered Species Act (ESA). We use a species distribution model to map potentially suitable habitat for most of East Texas. We evaluate landscape-scale anthropogenic activities in this region which may be contributing to the species’ decline. We identify areas of urbanization, agricultural expansion, forestry, and resulting wetland loss. We find that between 2001 and 2011 approximately 80 km2 of wetlands were lost in potentially suitable habitat, including the urbanizing Houston area. We use spatial geostatistics to quantify wetland habitat fragmentation. We also introduce the Habitat Alteration Index (HAI), which calculates total landscape alteration and mean probability of occurrence to identify high-quality habitat most at risk of recent anthropogenic alteration. Population surveys by biologists are targeting these areas and future management actions may focus on mitigating anthropogenic activities there. While this study focuses on D. r. miaria, this approach can evaluate wetland habitat of other aquatic organisms.