Daniel P. Collins

Spatial Characteristics of American Badgers (Taxidea taxus) in Southern Texas

Abstract We investigated ecology of the American badger (Taxidea taxus) on the Chaparral Wildlife Management Area, La Salle County, Texas, during February–November 2002. We trapped five individuals (four males, one female) with a mean (±SE) weight of 6.1 ± 0.6 kg. Home ranges and mean daily movements of three males averaged 7.0 ± 3.5 km2 and 758 ± 801 m, respectively. American badgers did not use habitats in proportion to availability and showed a preference for honey mesquite (Prosopis glandulosa) savannah-acacia (Acacia) shrublands. Burrowing sites were dominated by a honey mesquite-bufflegrass (Pennistum ciliare) association.

New Summer Areas and Mixing of Two Greater Sandhill Crane Populations in the Intermountain West

Abstract Population delineation throughout the annual life cycle for migratory birds is needed to formulate regional and national management and conservation strategies. Despite being well studied ...

Aquatic invertebrate production in moist-soil managed wetlands on Richland Creek Wildlife Management Area, east-central Texas

Abstract Aquatic invertebrates have significant value to wetland-dependent species as well as to wetlands themselves. They process organic matter through producer and detritus food webs, modify wetland habitats, and provide a food resource to wetland-dependent species such as waterfowl and shorebirds. Timely flooding and drawdown of water within moist-soil managed wetlands will increase invertebrate diversity and abundance, allowing wetland managers to maximize the production of such areas. We examined how flood timing and duration influenced aquatic invertebrate density, diversity, richness, and production within four moist-soil managed wetlands on Richland Creek Wildlife Management Area, east-central Texas from January 2004 through December 2006. A total of 12,089 aquatic invertebrates from 41 aquatic invertebrate families were collected. Overall, diversity indices were 0.76 (Simpsons Index) and 2.47 (Shannon-Wiener Index). Most common aquatic invertebrates were Crustacea (n = 3,568) and Ephemeroptera (n = 2,080). Differences in aquatic invertebrate density and biomass varied depending on the presence of water over time. Invertebrate community diversity and production peaked early but experienced a nearly sixfold decline over 3 y due to atypical and prolonged inundation regimes in these managed wetlands. Proper inundation duration and timing regimes are key to maintaining invertebrate community diversity and production in moist-soil managed wetlands.

Capture and injury rates of Band-tailed Pigeons using whoosh nets

ABSTRACT Catching ground feeding birds has typically been accomplished through small, walk-in funnel-style traps. This approach is limited because it requires a bird to find its way into the trap, is biased toward less wary birds, and does not allow targeted trapping of individual birds. As part of a large study on Band-tailed Pigeons (Patagioenas fasciata) in New Mexico, we needed a trapping method that would allow more control over the number of birds we could trap at one time, when a trap was deployed, and target trapping of specific individuals. We adopted a relatively novel trapping technique used primarily for shorebirds, whoosh nets, to trap Band-tailed Pigeons at 3 different sites where birds were being fed by local landowners. During 2013–2015, whoosh nets were used to trap 702 Band-tailed Pigeons at 3 different locations in New Mexico. We captured 12.54 ± 8.19 pigeons per shot over 56 capture events across 3 locations (range: 2–39). Some superficial injuries occurred using this technique and typically involved damage to the primary and secondary wing coverts. In 2013, 24% of captured birds had an injury of this nature, but after modifying the net speed, injury rates in 2014 and 2015 dropped to 8% and 7%, respectively. Recaptured previously injured birds showed new feather growth within 2 weeks and showed no signs of injury after 4 weeks. Whoosh nets proved to be a highly effective solution for trapping large numbers of pigeons at baited sites. These systems are easily transported, quickly deployed, and easily adapted to a variety of site conditions. Received 5 May 2016. Accepted 6 March 2017.

Evidence for exposure to selenium by breeding interior snowy plovers ( Charadrius nivosus ) in saline systems of the Southern Great Plains

Interior snowy plover (Charadrius nivosus) population declines and deteriorating conditions throughout the Southern Great Plains (SGP) of Texas, New Mexico, and Oklahoma may be linked to environmental contaminants. Concentrations of V, As, Cd, Pb, and Se were quantified in breeding snowy plover blood, feathers (5th primary; P5), and potential prey (tiger beetles [Cicindela circumpicta and C. togata]). Se was (a) most commonly detected relative to other quantified elements and (b) frequently quantified at levels exceeding background or toxicity thresholds. Of samples greater than instrumentation detection limits, 98% of snowy plover blood and 22% of feather samples were greater than Se toxicity thresholds of 1 ppm ww for blood and 5 ppm dw for feathers (blood quantifiable range: 0.83–15.12 ppm; feathers quantifiable range: 1.90–27.47 ppm). Almost all tiger beetle Se concentrations were below reported invertebrate thresholds of 30 ppm dw (quantifiable range: 0.54–45.84 ppm). Snowy plover blood Se concentrations were related to sex, individual body condition, and local tiger beetle Se concentrations, while plover P5 Se concentrations were related to state, sex, and presence of body molt. Tiger beetle Se concentrations were related to individual study sites in Texas. These results provide some of the first evidence of Se exposure risk for interior snowy plovers nesting in saline lake and alkali flat environments of the SGP. Future efforts should focus upon specific Se uptake pathways during breeding and nonbreeding seasons, as snowy plovers breeding in the SGP appear to be exposed to Se throughout their annual cycle.

Summer Habitat Selection of the Lower Colorado River Valley Population of Greater Sandhill Cranes

Abstract Identifying habitat selection and use is important to understand in wildlife management because it informs habitat manipulations, conservation efforts, and species distribution. Habitat selection by sandhill cranes (Antigone canadensis) has been studied primarily on overwintering areas and a few summering locations. Summer habitat selection by the Lower Colorado River Valley Population of greater sandhill cranes (A. c. tabida) in the Intermountain West is not widely known, but has been identified as an information need by many wildlife management agencies. We captured and attached satellite platform transmitter terminals to 21 adult sandhill cranes on Cibola and Sonny Bono Salton Sea National Wildlife Refuges in Arizona and California, and private lands in California and Idaho. Home ranges of all marked cranes (50% core area: x = 525.4 ha, SE = 155.6; 99% isopleth: x = 6,476.5 ha, SE = 1,637.5) were similar to other studies on summering grounds. Resource analysis indicated that marked sandhill ...

Decomposition of Three Common Moist-Soil Managed Wetland Plant Species

Abstract Moist-soil wetland management is used to precisely control delivery, duration, and timing of water addition to, and removal from, managed wetlands with targeted responses including germination and growth of desirable moist-soil plant species. Similarly, water delivery and removal drives decomposition of moist-soil plants as well as nutrient cycling within these systems, which is a key driver of productivity in such managed wetlands. Through deployment of litter bags, we examined rate of mass loss and decay coefficients of three locally abundant moist-soil annual species that are potentially valuable wintering-waterfowl food sources (nodding smartweed Persicaria lapathifolia, red-rooted flatnut sedge Cyperus erythrorhizos, and toothcup Ammannia coccinea) within man-made moist-soil managed wetlands on the Richland Creek Wildlife Management Area in East-central Texas. All three species lost nearly 100% of their mass during an 11-mo deployment period, where rate of mass lost and decay coefficient rat...