Distribution, Occupancy, and Mercury Load in Texas Alligator Snapping

Distribution, Occupancy, and Mercury Load in Texas Alligator Snapping

Distribution, occupancy, and mercury bioaccumulation of alligator snapping turtles in Texas David Rosenbaum1, Christopher M. Schalk1, Daniel Saenz2 1Arthur Temple College of Forestry and Agriculture, Stephen F. Austin State University, Nacogdoches, TX; email: rosenbaudc@jac ks.sfasu.edu 2U.S. Forest Service, Southern Research Station, Nacogdoches, TX Introduction Methods Distribution Increasing anthropogenic habitat alteration and fragmentation in TX During spring and summer 2020-2021, we will Fig. 3: Distribution of M. are expected to further negatively impact freshwater systems. temminckii in TX. Points survey M. temminckii at sites in major river drainages indicate survey sites in of Texas that the species has been reported from the original survey that Animal species in these systems that have low dispersal capabilities, (Fig. 3). At each site,15 fish-baited traps will be set will be resampled from. are long-lived, and are dependent on the adult cohort for population Green-colored counties for 3 consecutive days, for a total of 45 trap nights indicate detection from stability, are vulnerable to anthropogenic factors including habitat per site (sensu Rudolph et al. 2002). 1999-2001, in the original alteration, accumulation of contaminants, and overexploitation. survey, while white Traps will be selectively placed in microhabitats • sizecounties indicate no The alligator snapping turtle (Macrochelys temminckii) exhibits these detection. Blue counties predicted to be favored by M. temminckii (see lower • ageare++ additional potential traits and is in decline throughout its range. Although not federally right quadrant of Fig. 2). survey sites for 2020- protected, it is legally protected as an S2 (imperiled) SGCN in Texas. 2021. Its last statewide distribution study occurred from 1999-2002. Individuals will be sexed, measured, and marked. Muscle samples will be collected with biopsy punches (Turnquist et al. 2011 Ecotoxicology). known range in TX (Dixon 2013) Local microhabitat data will be collected on-site further survey counties within a 5m radius of traps, including sediment counties surveyed 1999-2001 samples for mercury analysis. Landscape and no M.t. detection watershed-scale data will be compiled and analyzed Connor S. Adams with ArcMap. M.t. detection survey site Fig. 1: M. temminckii habitat (Caddo Lake SP) and a juvenile from Predictions for mercury load and occupancy Angelina Co. LANDSCAPE/ WATERSHED SCALE Objectives • % impervious surface • slope grade • distance from point • human population density • agriculture source To attain a contemporary assessment of the species’ distribution in • % impervious surface • channelization Texas, we will resurvey sites from the prior study, as well as additional • human population density _ • dams _ sites the species could be occupying. We will: • forest cover • % forest cover • watershed elevation 1) Use detection/no detection data to build an occupancy model in • proximity to major river • % wetland + OCCUPANCY relation to microhabitat and landscape covariates (Fig. 2). • % open water + 2) Evaluate correlations between total mercury concentrations in muscle tissue with intrinsic and extrinsic factors (Fig. 2). MERCURY MERCURY • pH _ This information will provide insight into land-use changes and human • flow rate + _ • % submerged vegetation cover activities that are of significant threat to the species. Contingent on + • % canopy cover BIOACCUMULATION • variability in water level results, mercury data will be useful in discouraging illegal harvest of M. • C. serpentina detection • habitat heterogeneity (log jams, • size temminckii for consumption. • # trotlines deployed undercuts, vegetation, beaver • age • # human access points dams) Fig 2. Hypothetical positive (+) and • flow rate negative (-) correlations of multiscale Acknowledgements: We thank the Texas Parks and Wildife Department and USDA variables with M. temminckii occupancy McIntire-Stennis for funding, and Paul Crump and T.J. Hibbitts for providing information on ORGANISMAL & (right) and mercury concentrations in M. temminckii’s distribution in Texas, as well as coordinates of sites surveyed 1999-2001. tissue (left). MICROHABITAT SCALE.

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