Lesser prairie‐chickens Tympanuchus pallidicinctus have declined throughout their range because of loss or fragmentation of habitat from conversion of native prairie to agricultural cropland, exacerbated by overgrazing and drought. We used data from radio‐marked lesser prairie‐chickens to determine whether differences in survival existed between populations occurring in two areas dominated by different vegetation types (sand sagebrush Artemisia filifolia vs shinnery oak Quercus havardii) in the Texas Panhandle from 2001 through 2005. We used a model‐selection approach to evaluate potential generalities in lesser prairie‐chicken survival. Our results indicated that survival of lesser prairie‐chickens differed between breeding and non‐breeding periods, and between study populations. We estimated annual survival of lesser prairie‐chickens at 0.52 (95% CI: 0.32–0.71) in the sand sagebrush and 0.31 (95% CI: 0.12–0.58) in the shinnery oak vegetation type. Our results suggest that demographic differences in lesser prairie‐chicken within sand sagebrush and shinnery oak vegetation types throughout the Texas Panhandle should be evaluated, especially during the breeding season. Based on our results, higher mortality of birds during the breeding season illustrates the need to manage for vegetation components such as sand sagebrush and residual bunchgrasses as opposed to shinnery oak such that potential breeding season mortality may be lessened.
In the 2007 Journal of Wildlife Management article “Dinosaur Ramblings,” Scalet described a shift in university and agency programs away from applied management research toward basic ecological research. We interpret Scalet's commentary as primarily synonymizing applied management research to game management and basic ecological research to nongame management and theoretical research. Although we agree with Scalet that a change in management practices has occurred, we believe that change is more an integration of applied and basic research as opposed to a shift away from management. We provide a hierarchical framework to alternatively explain Scalet's perceived shift in which we place applied management and basic theoretical research under the science of ecology. We believe integration of basic and applied research has been driven by the evolving structure of society and the public's changing view of natural resources. The integration of basic and applied research is necessary for informed and, thence, better management practices.
Providing supplemental feed is a common practice for the management of northern bobwhite (Colinus virginianus) and scaled quail (Callipepla squamata). The ecological efficacy and economic efficiency of a feeding program for quail can be evaluated using numerous metrics, including visitation rates by target and non-target species. We quantified species visitation rates seasonally at free-choice quail feeders with motion-sensing cameras at 4 sites in West Texas, USA. Feeders were monitored from autumn 2002 to summer 2003 using both an active-infrared sensing camera system (TrailMaster 1500 1 ; Goodson & Associates, Inc., Lenexa, KS) and a passive infrared video system (TrophyView 1 ; Wildlife Surveillance Systems, Inc., Kerens, TX). Our camera systems recorded 14 mammal and 18 avian species among 6,558 events observed from 490 days of feeder surveillance. Collectively, northern bobwhite and scaled quail accounted for only 7.3% and 11.3% of all recorded species visitations for the TrophyView and TrailMaster camera systems, respectively. Raccoons (Procyon lotor, 43.2%) and nongame birds (32.5%) comprised the majority of all recorded visitations. Although feeder visitation rates do not necessarily equate to feed consumption, we conclude that the vast majority of the feed in this study was consumed by non-target species and most notably raccoons. High visitation rates by raccoons at feeders suggest supplemental feeding programs for quail could facilitate targeted removal of a common feed competitor (and potential predator of quail nests) and perhaps improve efficacy of feeding efforts. Managers should consider both direct and indirect effects of providing supplemental feeding efforts. ß 2012 The Wildlife Society.
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