Journal of the Southeastern Association of Fish and Wildlife Agencies

The striped skunk (Mephitis mephitis) is widely distributed in North America and a common inhabitant of urban areas. Striped skunks represent a reservoir and vector for the transmission of diseases that pose a significant human health risk, including rabies and the parasite Toxoplasma gondii. Therefore, understanding population structure and movements among striped skunk populations will assist in the management of disease issues within urban landscapes. Here we present a spatial analysis of striped skunk population structure within greater Houston, Texas, based on 7 microsatellite DNA markers amplified in 102 adult striped skunks. Although this highly developed urban landscape is bisected by major highways with high traffic volume (including Interstate 10 and US Hwy 59), we found no evidence for unique genetic clusters that might indicate barriers to dispersal. We detected weak genetic structure over the entire data set (FST = 0.031, P < 0.001).

Northern bobwhite (Colinus virginianus) populations are continuing a 30-year downward population trend throughout their range. Managers use supplemental corn (Zea mays) and milo (Sorghum spp.), trying to reverse the decline of bobwhite populations; however, results are conflicting among the published literature. Supplemental feed can influence bobwhite survival, reproduction, and movements, but only in situations where nutrients are truly lacking. Vitamin A, phosphorus (P), calcium (Ca), carbohydrates, and protein can be important nutrients for captive bobwhite egg production; however, controlled experiments are necessary to determine the impact of these nutrients on wild bobwhite populations.

Long-term population declines and conservation concerns resulting from large scale habitat loss have brought into question the biological justification of fixed, liberal harvest regulations as they apply to new world quail (Odontophoridae). As available quail habitat declines, biologically justifiable and sustainable methods of harvest will become essential components of quail management. Two hypotheses, the doomed-surplus hypothesis and the additive mortality hypothesis, attempt to provide a conceptual framework regarding the nature of mortality in hunted populations (i.e., compensatory vs. additive, respectively). Recent research indicates that harvest mortality is at least partially additive, which suggests that a strategy of sustained-yield harvest management may be more appropriate than fixed, liberal harvest regulations for quail populations.

There is growing concern about the impacts that exotic grasses may have on northern bobwhite (Colinus virginianus) and other grassland birds. Large areas of South Texas have been seeded to or have been invaded by several species of exotic grasses including Guinea grass (Urochloa maxima), Bermuda grass (Cynodon dactylon), King Ranch bluestem (Bothriochloa ischaemum), Kleberg bluestem (Dichanthium annulatum), buffelgrass (Pennisetum ciliare), and Lehmann lovegrass (Eragrostis lehmanniana). Impacts of exotic grasses on northern bobwhite are largely unknown. While exotic grasses such as buffelgrass have the potential to provide roosting and nesting habitat for northern bobwhite, landscapes dominated by invasive exotic grasses are potentially detrimental to bobwhite habitat because of the negative impact these grasses may have on diversity and abundance of native herbaceous vegetation and arthropod communities.

Ecologically sound habitat management will be essential to reverse the current decline of grassland birds. The objective of this study is to evaluate the effects of two habitat management practices: (1) summer prescribed fire [SF], (2) a combined treatment of roller chopper, summer prescribed fire, and chemical application [CT], and (3) an open grassland [C] as “control” on wintering grassland-shrub bird community composition and abundance. Line transects of variable lengths were used to assess the bird community structure. Grassland bird species richness during first season was 31 and 15 species on summer fire and combined treatment, respectively. Compared to the first season, species richness on second and third season decreased 1.3 and 2.4 times, respectively, on SF, whereas on CT it increased and decreased 1.7 and 1.1 times during second and third season, respectively.

To ascertain potential ecological and landowner benefits of non-conventional agricultural systems, this project was designed to monitor cattle production and wildlife utilization of land areas that allow grazing cattle to harvest corn planted with no-till methods. In 2005-2008, study sites were located in four Mississippi counties, including four steer/heifer-grazed and harvested corn fields (SHS) and four conventionally-managed and combine-harvested corn fields (CHS). Forest wildlife species, such as white-tailed deer (Odocoileus virginianus), utilize agricultural areas as foraging habitat consuming residual grain left behind by non-conventional and mechanical harvesters (Graham 2000). When conducted properly, camera survey estimates provide adequate results in all habitat types (Jacobson 2002).

Aboveground vegetation of many species of submerged aquatic plants is an important food source for many species of waterbirds adapted to a diet high in fiber. Wigeongrass (Ruppia maritima), a submerged aquatic plant inhabiting estuarine wetlands, has been documented as an important winter food for waterbirds along the Texas Gulf Coast. Thus, we examined availability of wigeongrass at Mad Island Wildlife Management Area (MIWMA), Texas, by estimating aboveground biomass from October through January 1998-99 and 2001-02. We also used an exclosure experiment to determine the extent to which herbivory by waterbirds was responsible for depletion of wigeongrass. Aboveground biomass of wigeongrass varied between years, among months, and among months within each year (interaction term). Biomass of wigeongrasss declined an average of 189 g m2 -1 and 71 g m2 -1 between October and January each year. Aboveground biomass also was influenced by the effect of exclosures within month.

The Fishes of Texas database compiled by the Texas Natural History Collection at the University of Texas at Austin consists of 65,876 freshwater records vouchered by specimens curated at 34 U.S., Mexican, and European collections, many unavailable online or in computerized format. An estimated 95% of all fish specimens ever collected in Texas since 1854 are represented, as are all known Texas freshwater species. All but 28 of Texas' 254 counties are represented in the 20,664 total localities, all now manually georeferenced. Locality plots reveal significant spatial gaps, and temporal distribution of sampling is similarly uneven, peaking in 1950-1970 then sharply declining. Post 1980, 27% of counties were not sampled at all and 90% were sampled <20 times. Clearly this database does not provide a current perspective on the state's fish fauna, but just as clearly it provides the best historic data ever available.

Aquatic vegetation plays an important role in freshwater systems, providing quality habitat for fish, sequestering nutrients, stabilizing sediments, and improving water clarity. Because many Texas reservoirs are either sparsely vegetated or contain an overabundance of non-native species such as hydrilla (Hydrilla verticillata), Texas Parks and Wildlife Department's Inland Fisheries Division began a new initiative to develop procedures for establishing diverse native aquatic plant communities. Establishment techniques were tested in seven reservoirs representing diverse geographical areas from 1998 through 2003. Aquatic plant species native to Texas and representing three growth forms (submersed, floating-leaved, and emergent) were used. Plant survival and spread was documented using GIS technology. Results were variable; however, founder colonies capable of long-term propagule production and spread were established in all seven reservoirs.

The ultimate success of natural resource decision-making depends upon knowledge gathered from several sources; e.g. biological data, institutional values and beliefs, and human dimensions information from affected constituents. Handfishing for catfish has been at the forefront of Missouri conservation since 2000. To determine the acceptability of handfishing to Missouri anglers we conducted a survey of licensed anglers in 2004. The objective of this study was to examine the effects of survey question wording on angler response and the potential for different policy outcomes resulting from the different wording. We designed two versions of a survey to gauge angler support for legalizing handfishing and to determine what impact, if any, different question wording had on levels of support for handfishing. Version 1 resulted in a 33% level of support for legalizing handfishing, while Version 2 resulted in 50% support.

Catfish managers and researchers were asked to participate in an online survey describing current information needs, sampling techniques, and known gear biases for projects during 2002-2006. One hundred eighty two responses were collected in a four-month period in early 2006. Channel catfish (Ictalurus punctatus) were the most targeted species, followed by flathead (Pylodictis olivaris) and blue (I. furcatus) catfish, respectively. A variety of methods were used to collect catfishes. Flathead and blue catfish were most often sampled by low-frequency electrofishing (30 Hz or less), whereas channel catfish were often sampled with a variety of gears. Sixty-one percent of respondents indicated a need for information concerning sampling gear efficiency and gear bias. Limited quantitative information exists regarding bias of gears used to sample catfish, especially low-frequency electrofishing.

Yellow perch (Perca flavescens) is recognized as a widely distributed and valuable freshwater species, but few reports have described estuarine populations in coastal river systems. We conducted a two-year study to assess the age, growth, mortality, and fecundity of yellow perch in Albemarle Sound, North Carolina. Fish were collected (n = 2,674) in 2005 and 2006 (January-February) by trap from Yeopim River, Yeopim Creek, and Bethel Creek. Yellow perch ranged in age from 1-9 years, and the catch was dominated by age-2 fish (82.1%) in 2005 and age-3 fish (84.2%) in 2006. Lengths ranged from 130 to 292 mm TL (meanfemale = 231.1 ± 3.3 S.E. mm TL; meanmale = 177.8 ± 12.1 mm TL). Length distribution and age frequency data suggest that 2003 was a successful year class for yellow perch in Albemarle Sound. Instantaneous total mortality (Z) was 0.35 (annual mortality 30%), and was similar to estimates from Chesapeake Bay.

The increasing importance of the walleye (Sander vitreus) fishery in the New River, Virginia, and recent research findings showing persistence of a presumptive native stock motivated a seven-year program of hatchery-based restoration of the native fishery. Candidate spawners were collected from spawning areas, and DNA from fin clips was genotyped at two microsatellite loci. Candidates exhibiting alleles at the Svi17 and Svi33 loci that characterize the presumptive native stock were spawned. Their young were reared at one of four fish hatcheries in Virginia and West Virginia. Approximately 600,000 fry and 800,000 fingerlings were stocked in riverine sections of the New River in Virginia and West Virginia. Since stocking began, ages 0-3 walleye have become much more abundant at the upper New River spawning areas. Catch rates in spring electrofishing samples have increased from 3 to 17 fish per hour in Virginia and from 1.2 to 26.6 fish per hour in West Virginia.

River herring (alewife [Alosa pseudoharengus] and blueback herring [A. aestivalis]) within the Albemarle Sound basin in North Carolina once supported large commercial fisheries that have declined dramatically since the 1970s. Overfishing, poor water quality, and habitat loss have been suggested as causes of this decline. The objective of this study was to examine the effect of water quality on the hatching success of blueback herring eggs in the Chowan River, a major tributary to Albemarle Sound. We combined eggs and milt obtained from running-ripe fish and placed incubators containing fertilized eggs at 11 sites throughout the basin. Mean hatch rates at field sites ranged from 26% to 89%, compared to a mean of 92% for control trials carried out using distilled water. An analysis of covariance indicated that hatch rates were significantly related to the dissolved oxygen level and were lower at sites on smaller tributaries when compared to sites on the mainstem of the Chowan River.

We evaluated three low frequency electrofishing pulse rates (30, 15, and 7.5 pulses per second [pps]) for differences in relative abundance, size structure and species composition of catfish species in two north Florida rivers (Apalachicola and Suwannee). Three species of catfish were collected from each river: Apalachicola River-flathead catfish (Pylodictis olivaris), channel catfish (Ictalurus punctatus), and blue catfish (I. furcatus); Suwannee River-spotted bullhead (Ameiurus serracanthus), channel catfish, and white catfish (I. catus). In both rivers, the dominant catfish species (Apalachicola: flathead catfish; Suwannee: spotted bullhead) was collected similarly with all three pulse rates. However, significant differences occurred in relative abundance, size structure, and species composition of the less dominant species in both systems.

A two-part sediment sampler (stationary base and removable trap) was designed for a long-term study of stream sedimentation associated with highway construction. Before the long-term study, a laboratory study in an experimental flume examined efficacies of our sampler and two other sediment samplers: a modified core sampler and Whitlock-Vibert boxes. Based on the flume experiment, the efficacy of our sediment sampler was consistent with that of core and Whitlock-Vibert samplers. The advantage of our two-part sediment sampler design is that it allows for repeated removal of sediment samples without continual disturbance of the streambed. It also minimizes labor necessary to collect sediment samples. Our sampler is designed for long term monitoring of streams impacted by sedimentation and not for characterization of stream substrate composition.

Stock-recruit (SR) relationships have been reported for numerous stocks of trout and Pacific salmon, but despite the intuitive appeal, evidence of such relationships is lacking for brook trout (Salvelinus fontinalis). The relationship between number of adults spawning in a stream and the subsequent number of young produced can be used by management to predict year class strength. Disruptions of SR relationships (for species that exhibit strong relationships) can be indicative of environmental perturbations or habitat impairment. As part of a long-term study we have estimated brook trout abundance and measured habitat and water quality in 25 headwater streams in West Virginia since 2003. These streams span 4 geologies and include: Hampshire group, Mauch Chunk, Chemung, Pottsville, and Pottsville streams limed by the West Virginia Department of Environmental Protection.

We conducted acoustic surveys at National Park Service and state park properties in south-central West Virginia to create bat habitat association models across a large, topographically complex and relatively intact Appalachian Hardwood landscape representative of the Allegheny Plateau portion of the central Appalachians. We developed generalized and species-specific groups of a priori habitat association models to predict bat presence using various microhabitat and landscape features linked to body-size, wing morphology, food habits and echolocation call characteristics for seven species. Habitat associations for the species generally followed expectations based on previous research in the region.

State wildlife management agencies use harvest regulations to manage white-tailed deer (Odocoileus virginianus) herds at sustainable levels while providing recreational opportunities for sportspersons. State agencies face increasing challenges when managing white-tailed deer because hunter expectations and satisfaction levels vary. Changes in harvest regulations that may influence hunter expectations and satisfaction should be evaluated by state agencies considering alternative management strategies. We conducted a mail survey of white-tailed deer hunters in Arkansas to evaluate opinions of what constituted a “quality deer” and to determine which factors contributed to hunter expectations for an enjoyable deer season. Sixty-six percent of respondents felt that the chance to harvest a mature buck was an extremely important component of an enjoyable hunting season. Forty-four percent of respondents thought the opportunity of seeing deer while hunting was important.

We conducted a five-year study during the 2001-2005 hunting seasons to determine the economic impacts of white-tailed deer (Odocoileus virginianus) hunting in Mississippi. Activity days for state residents ranged from 2,390,619 to 3,181,957 and for non-residents, 265,103 to 357,253. Total economic impacts ranged from US $761 million to $1.03 billion (in 2007 dollars). Over the five years, number of full- and part-time jobs supported by deer hunting activities ranged from 26,489 to 37,888. Aggregated economic sectors benefiting the most were services, manufacturing, and trade. Statewide economic multipliers were low (from 1.63 to 1.65) compared to other types of recreation expenditures but nevertheless represent a $1.63 to $1.65 return on every dollar spent on white-tailed deer hunting in Mississippi.

As exurbia becomes more dominant in our landscape, the number of white-tailed deer (Odocoileus virginianus) populations in parklands surrounded by housing increases and creates new challenges in deer management. Traditional harvest regimes often are not possible in areas with heavy human use. Instead, many managers use controlled hunts to reduce deer abundance. We studied the efficacy of a two-day controlled shotgun hunt on Fair Hill Natural Resource Management Area, Cecil County, Maryland. Deer density was 48 deer/km2, adult sex ratio was 5.3 does/buck (SE = 1.45), and fawn-doe ratio was 0.88 fawns/doe (SE = 0.054). The average fecundity for adults, yearlings, and fawns were 1.76, 1.44, and 0.06 fetuses/doe, respectively. Survival rate of adult does was 0.66 (SE = 0.07), with harvest as the most prominent mortality cause (85.7%), followed by deer auto collisions (14.3%).

Quality deer management (QDM) advocates the protection of younger-age white-tailed deer (Odocoileus virginianus) bucks, but the subsequent survival of these animals remains unknown. We conducted a study to investigate the impact and importance of harvest and non-harvest mortality factors on adult male white-tailed deer in Mississippi on areas managed under QDM. We captured 408 deer and fitted 238 adult bucks with radio collars from February 1990 until January 1997. During the study, we documented 185 mortalities, which were used to estimate survival and cause-specific mortality rates. Harvest-related and natural mortality accounted for 75% and 12% of buck losses, respectively. Annual survival rates ranged from 0.50 to 0.82 and differed among age classes. Seasonal survival rates ranged from 0.48 to 1.0, with survival during February-September greater than during October-January.

Despite recent stabilization in measured indices, American woodcock (Scolopax minor) populations have demonstrated long-term population declines since 1968 as measured by the Federal Singing-Ground and Wing-Collection surveys. We quantified long-trends in annual sex and age ratios, recruitment index, and changes in body mass of 3,022 woodcock harvested in eastern Texas during winters of 1977-78 through 2002-03. The mean juvenile:adult ratio was 0.58 and none of the annual values exceeded 1.0. This ratio declined significantly over time for females. The male:female ratio for all birds also declined from 1977 to 2002. The calculated recruitment index (number of harvested young/harvested female) of 1.03 for this population was nearly 50% lower than the published (1.9) Federal index for Texas from 1963-2005. There was a negative yearly trend in wintering body mass for adult males and adult females, with both groups experiencing a 3% decline.

The Conservation Reserve Program (CRP) was designed to remove highly erodible cropland from production. Although wildlife habitat benefits are an important component of CRP, millions of hectares of CRP do not produce optimal wildlife benefit because of poor cover crop choice. Kentucky-31 tall fescue (Festuca arundinacea; hereafter, fescue) was one of the most commonly planted grasses on CRP fields but provides relatively poor habitat for grassland birds such as northern bobwhites (Colinus virginianus). Control of fescue and release of a latent native plant community may enhance habitat value of CRP fields for northern bobwhite and other grassland birds. During 1999-2000, we evaluated effects of various spring herbicide applications, both singular and in combination, on vegetation structure and composition in fescue-dominated CRP fields. Glyphosate produced the poorest fescue control, released an undesirable johnsongrass (Sorghum halepense) stand, and suppressed legumes.