Journal of the Southeastern Association of Fish and Wildlife Agencies

The largemouth bass (Micropterus salmoides) population in South Mill Creek Lake, a centrarchid-dominated, eutrophic small impoundment in West Virginia, was managed under a 305-mm minimum-length limit until 2007. Under this regulation the population was typified by consistently low proportional size distribution (PSD) values, low quality-length CPUE, excessive juvenile recruitment, and poor length structure. Therefore, in 2007 a protected slot limit (PSL) regulation (305–406 mm) was implemented to shift the size structure of the fishery. Spring (May) boat electrofishing surveys were conducted pre- and post-regulation (2003–2022) to evaluate fishery response under both regulatory regimes. The largemouth bass population of a similar system, Kimsey Run Lake, was sampled using the same methods over the same time periods.

Production of submersed aquatic vegetation (SAV) is promoted for waterfowl forage through hydrological management in brackish tidal impoundments along the south Atlantic coast, USA. This management also promotes production of aquatic invertebrates as food resources for many bird species. We conducted a field experiment to compare effects of traditional complete drawdown to fissure substrates versus a novel partial drawdown (i.e., mudflat to 10 cm depth) on aquatic invertebrate biomass in impounded and non-impounded tidal wetlands in the Ashepoo, Combahee, and Ed- isto Rivers (ACE) Basin, South Carolina. We sampled 20 randomly selected impoundments (complete drawdown, n = 8; partial drawdown, n = 12) and adjacent non-impounded tidal marsh across three properties in August 2016, November 2016, January 2017, and April 2017.

We analyzed a three-year consolidated sample of Louisiana hunters’ responses to the Louisiana Game Harvest Surveys (LAGHS) distributed via email and mail in May following the 2016–2017, 2017–2018, and 2018–2019 hunting seasons. To determine whether the distribution modes pro- duced different results, both modes asked identical questions about hunting effort, harvest, and age. We used generalized linear mixed models to test hypotheses about hunters’ days hunted, harvest, representation of age classes, and effect of age-weighting (i.e., weighting responses based on the differ- ence in proportion between individual age classes in the response sample and the original license population) across survey modes. We compared days spent hunting and species harvested across distribution modes. We received 42,346 qualified email responses with a qualified response rate of 19.3%, and 6387 qualified mail responses with a qualified response rate of 14.1%.

Since the spread of white-nose syndrome in North America, several bat species have shown precipitous declines in abundance and distribution. With lower netting detection probabilities for the currently threatened but proposed endangered northern long-eared bat (Myotis septentrionalis) and endangered Indiana bats (Myotis sodalis), determination of presence or absence for regulatory clearance often has shifted to the use of acoustic sur- veys. However, acoustic surveys are unable to differentiate between non-reproductive individuals versus a maternity colony. We used recorded nightly echolocation pass counts of bat species-specific probabilities with maximum likelihood estimator (MLE) scores to determine thresholds by cover type and reproductive period whereby the potential for northern long-eared bat or Indiana bat maternity colonies occurs. Where nightly MLE P-values were

The gray bat (Myotis grisescens) is a cave-obligate species that has been listed as federally endangered since 1976, following population declines from human disturbance at hibernation and maternity caves. However, with cave protection, most gray bat populations have increased. As part of a project examining bat use of transportation structures as day-roosts, we continuously acoustically monitored 12 riparian sites within the Clinch River Watershed of southwest Virginia from March through November, 2018–2020. We used 15 different landscape and weather-related variables in gener- alized linear mixed models to determine factors influencing gray bat presence and activity. Seasonal activity patterns were similar among years, but the number of nightly gray bat calls increased with each passing year, consistent with positive population trends observed at winter hibernacula.

Species distribution models enable resource managers to avoid and mitigate impacts to, or enhance habitat of, target species at the landscape level. Persistent declines of northern long-eared bats (Myotis septentrionalis) due to white-nose syndrome have made acquisition of contemporary data difficult. Therefore, use of legacy data may be necessary for creation of species distribution models. We used historical roost and capture records, both individually and in combination, to assess the distribution and availability of northern long-eared bat habitat across the 670,000-ha Monongahela Na- tional Forest (MNF), West Virginia, USA. We created random forest presence/pseudo-absence models to examine influences of various biotic and abi- otic predictors on both roosting and foraging presence locations of northern long-eared bats. Predicted northern long-eared bat habitat was abundant (43.1% of the MNF) and widely dispersed.

Hierarchical conservation and management of Indiana bat (Myotis sodalis) habitat may benefit from use of species distribution models. White-nose syndrome has caused additional declines for this endangered bat, requiring use of historical presence locations for habitat-related analy- ses. We created random forest presence/pseudo-absence models to assess the distribution and availability of Indiana bat habitat across the 670,000-ha Monongahela National Forest (MNF), West Virginia, USA. We collated historical roost and capture locations, both individually and in combination, to examine impacts of various biotic and abiotic predictors on roosting and foraging habitat of Indiana bats. Our final concordance map suggests that In- diana bat habitat was abundant (37.2% of the MNF) but localized, with predicted suitable areas often associated with edges of dry-calcareous forests.

Achieving a target population size is often the first goal of species restorations. From 2012 to 2014, the Virginia Department of Wildlife Resources released 75 elk (Cervus canadensis) originating from Kentucky into Buchanan County in southwestern Virginia. These individuals were ear tagged with unique numbers upon release with an additional 33 elk tagged within the Virginia Elk Management Zone (VEMZ) from 2019 through early 2022. To assess post-release population size, we conducted visual driving surveys throughout Buchanan County from January through mid-April, 2021 and January through March, 2022, counting elk and noting sex, age class, and tagged individuals when observed. We conducted four surveys an- nually, each consisting of pooled elk counts from eight driving routes, and calculated a Lincoln-Petersen population estimate with Chapman’s bias cor- rection for each survey, then averaged estimates for each year.

In recent years, commercial paddlefish harvesters have renewed their requests for opening a potential commercial paddlefish (Polyodon spathula) season in Alabama reservoirs of the Tennessee River, including part of Pickwick Reservoir, all of Wilson and Wheeler reservoirs, and the majority of Guntersville Reservoir. These reservoirs of the Tennessee River once supported robust stocks of paddlefish; however, beginning in the 1940s overexploitation became evident as the number of paddlefish harvested declined. Because of this widespread overharvest, a commercial and recreational moratorium on paddlefish possession and harvest in all Alabama waters went into effect in November 1988. We report on recent paddlefish sampling efforts in Alabama reservoirs of the Tennessee River to evaluate if paddlefish stocks have recovered to the point that sustainable commercial harvest is feasible.

The Florida largemouth bass (FLMB; Micropterus salmoides floridanus) is widely stocked throughout the southeastern United States with the intent of increasing the size potential of resident northern largemouth bass (NLMB; M. s. salmoides) populations. During the early 2000s the Arkansas Game and Fish Commission initiated an eight-year FLMB stocking program on selected reaches of DeGray Lake and Lake Ouachita in an effort to sat- isfy angler preferences. The goal of this stocking program was to achieve 40% of sampled largemouth bass in each introduction zone possessing FLMB alleles by the end of the program. To assess this, fin clips were removed from hundreds of largemouth bass collected both within the stocking area as well as three areas distant from the stocking area of each reservoir.

To enhance trophy potential of largemouth bass (Micropterus salmoides) fisheries, state agencies across the southeastern United States commonly stock Florida largemouth bass (FLMB, M. s. floridanus) outside of their native range into native northern largemouth bass (NLMB, M. s. sal- moides) populations. This practice has been ongoing for decades but spatial patterns associated with the spread of FLMB alleles in a reservoir after stocking are not well understood. From 2007–2015 the Arkansas Game and Fish Commission stocked 250 FLMB fingerlings ha–1 into two embayments of Lake Ouachita, a 16,200-ha highland reservoir in western Arkansas. In 2019, we collected 1000 largemouth bass from throughout the reservoir to examine spatial patterns of FLMB introgression using a panel of 35 species-diagnostic single-nucleotide polymorphisms (SNPs).

White bass (Morone chrysops) are a popular sport fish native to the Mississippi River basin and widely introduced elsewhere. We examined population characteristics of this species in three systems (Kentucky Lake, Tennessee; Tennessee-Tombigbee Waterway, Mississippi; and Grenada Lake, Mississippi) with different habitats and fishery characteristics to evaluate whether population dynamics varied sufficiently to require system-specific management. Using white bass collected from these three systems in 2019–2020, we tested two aging techniques and found sectioning of otoliths pro- vided more precise age estimates compared to using whole otoliths. We collected white bass up to 9 years of age, representing the oldest maximum age reported for southern populations. However, populations were composed of mostly younger fish, with 84% four years old or younger. All fish reached preferred size (300 mm TL) by age 3 across study areas.

Black bass (Micropterus spp.) are the most popular freshwater sportfishes in North America and are intensively managed. Successful management of fish populations relies on dependable age data for estimation of age determined population rate functions (growth, mortality, and recruit- ment). Otoliths provide accurate age estimates compared to most other aging structures, but otolith removal requires fish to be sacrificed, leading some fisheries managers to rely on alternative, non-lethal methods for estimating ages of fish. However, non-lethal aging structures may produce biased age estimates when compared to otoliths. In this study, we evaluated age-estimate precision for largemouth bass (Micropterus salmoides), smallmouth bass (M. dolomieu), and spotted bass (M. punctulatus) using otoliths, dorsal fin spines, anal fin spines, pectoral fin rays, and scales.

Accurate and precise age estimates are required to correctly estimate fish population metrics such as age, growth, mortality, and recruitment. Channel catfish (Ictalurus punctatus) are commonly aged using the lapilli otolith or the articular process of the pectoral spine. Many fisheries managers prefer to use pectoral spines because the process does not require the sacrifice of the fish, but this method may produce biased age estimates. To com- pare precision of the two methods, we used pectoral spines and lapilli otoliths to age 649 channel catfish collected from five Oklahoma impoundments during 2018 to 2020. Additionally, we compared von Bertalanffy growth parameters and mortality estimates derived using our pectoral spine and otolith age estimates. Finally, we compared processing times for both structures.

Otolith age validation studies are essential to identify the accuracy of using otoliths to age fish; however, black bullhead (Ameiurus melas) otolith validation studies have not been conducted for either adult or age-0 individuals. Therefore, the objective of this study was to validate annu- lus and daily ring formation in lapilli otoliths of black bullheads. We assessed timing of annulus formation using marginal increment analysis on 409 black bullheads caught monthly from July 2015–June 2016 in Lake Carl Etling, Oklahoma. We evaluated daily growth increment deposition by batch-marking 253 age-0 black bullhead by immersion in a solution of 700 mg L–1 oxytetracycline (OTC) for 6 hrs to provide a date stamp; thereafter, 10 fish were pulled from the tank every 10 days and had otoliths removed for analysis. We observed that black bullhead produced a single annulus in their lapillus otolith in June.

Fish length data are important for assessing sportfish populations and establishing and enforcing length-based harvest regulations. Evidence suggests that fish length can change after preservation in ice. These changes can impact comparison of live-caught and post-catch length measurements and therefore angler compliance to regulations, a concern raised by state law enforcement personnel. Similarly, length changes may skew length-based analyses done by fisheries managers. We evaluated TL changes of largemouth bass (Micropterus salmoides), catfishes (Ictaluridae spp.), black crappie (Pomoxis nigromaculatus), and sunfishes (Lepomis spp.) collected in Florida and preserved in coolers of ice for intervals of 3–6 h, 24 h, and 36 h. Our re- sults indicate mean percent shrinkage ranged 0.43%–1.58% among time intervals and fish groups but significantly differed by group and time interval.

Beaver Dam on the White River in northwest Arkansas, built in the 1960s for hydropower and flood control, releases cold water downstream suitable for trout survival. The trout fishery in Beaver Tailwater relies heavily on stockings, as natural reproduction is limited or nonexistent. In 2006, a 330–406 mm protected slot limit was implemented along with reduced stocking rates to increase the number of large rainbow trout (Oncorhynchus mykiss) in Beaver Tailwater. Further, a catch-and-release area was changed to a special regulation area (SRA) that allowed harvest but restricted angling to the use of artificial lures or flies with barbless single-point hooks. Outside the SRA bait was allowed, but anglers there were also restricted to barb- less single point hooks. From July 2009 to April 2010, four cohorts of rainbow trout were tagged with coded wire tags, stocked into the tailwater, and sampled monthly using electrofishing to estimate growth and survival.

Native brook trout (Salvelinus fontinalis) have been declining in many areas of their range partially because of introduction of nonnative salmonids. Brook trout biomass and relative weight in the Conway River, Virginia, were evaluated for 24 years using regression to discern trends po- tentially associated with colonization of brown trout (Salmo trutta). The Rapidan River is adjacent to the Conway River and has brook trout but not brown trout, and thus this river was sampled over similar time intervals and served as a reference stream for this case study. Brook trout biomass in the Conway River varied from 21.8 to 58.5 kg ha–1 but displayed no temporal trends throughout the study (r 2 = 0.01; P = 0.81). Concurrently, brown trout biomass varied from 5.5 to 59.9 kg ha–1 and increased during the study (r 2 = 0.63; P < 0.01).

Brook trout (Salvelinus fontinalis), brown trout (Salmo trutta), and rainbow trout (Oncorhynchus mykiss) have been stocked by the North Carolina Wildlife Resources Commission (Commission) into rivers and creeks in the mountain region of the state since the 1940s, but few trout fish- ing opportunities have existed in other regions. In December 2016, the Commission began to stock trout once a year into publicly accessible small impoundments across western and central parts of North Carolina. However, no formal evaluations of angler use in response to these stockings had been conducted. The goal of this project was to determine changes in angler effort before and after trout were stocked in two of these systems. At one impoundment, data from a trail camera from winters (December to March) 2015–2016 (no trout stockings) and 2019–2020 (first trout stocking) were analyzed to estimate angler effort.

In North Carolina, wavyrayed lampmussels (Lampsilis fasciola) and spike (Eurynia dilatata) currently are state species of special concern, and rainbow mussels (Villosa iris) are state threatened. As a result of extensive conservation and management efforts, recovery of suitable habitat and im- provements in water quality have made mussel restoration a possibility in the Oconaluftee River within lands owned by the Eastern Band of Cherokee Indians. As part of restoration efforts, we introduced propagated or translocated individuals of these three species into the Oconaluftee River. Individu- als were marked and stocked at four sites as either free-living specimens or within silo enclosures, and monitoring took place over one growing season (April to October 2019) to record survival and growth. In addition, we included data from mussels in silos remaining on three of our four sites from a previous feasibility study.

Installation and maintenance of artificial nesting structures are established practices for increasing production of secondary cavity nesting waterfowl, especially wood ducks (Aix sponsa). In South Carolina, tens of thousands of nest boxes have been erected on public and private lands. Ad- ditionally, since the early 2000s, black-bellied whistling ducks (Dendrocygna autumnalis) have expanded their range into South Carolina and now are nesting sympatric with wood ducks in boxes. We conducted a survey of 364 and 354 nest boxes in 2016 and 2017, respectively, across the Ashepoo, Combahee, and Edisto river (ACE) and the Santee Rivers Delta and Winyah Bay (SRDW) basins in coastal South Carolina. We did not detect a differ- ence in frequency of nest box use between basins by wood ducks (~61%) or black-bellied whistling ducks (~15%).

Bottomland hardwood forests in the southeastern United States provide important food and other socio-physiological resources for several wintering duck species. Duck presence and abundance in these wetlands can be influenced by periodicity and extent of flooding, disturbance from anthropogenic activities, and availability and coverage of certain vegetative communities. We tested if presence of flooding, anthropogenic disturbance, and certain vegetation types influenced wintering duck presence and abundance in Delta National Forest (DNF; Mississippi), the only National Forest which is entirely bottomland hardwood forest. Across 17 surveys of 65 randomly selected wetlands in the DNF in winter 2012–2013, the most abundant duck species included wood duck (Aix sponsa, 60%), gadwall (Mareca strepera, 20%), and mallard (Anas platyrhynchos, 18%).

Wildlife managers commonly use herbicides to control invasive plant species and maintain early-successional vegetation communities in seasonally flooded moist-soil wetlands. However, there is limited information on how herbicides influence plant and animal communities following application. Thus, we investigated the response of vegetation, food density, and the abundance and activities of dabbling ducks (Anatini) to application of imazapyr herbicide in moist-soil wetlands in Tennessee to control invasive alligatorweed (Alternanthera philoxeroides). Imazapyr was applied topi- cally at Tennessee National Wildlife Refuge during July 2011 following an early water drawdown and dry weather conditions. Food density and use and activities of dabbling ducks were similar between treatment and control plots during the year of application and in the subsequent year.

Duck activity patterns have anecdotally been associated with weather for thousands of years. However, these relationships have rarely been tested scientifically. We hypothesized that characteristics of wintering ducks harvested by hunters would be associated with daily weather conditions (precipitation, temperature, and wind speed), and specifically, that smaller-bodied ducks and those with poor body condition would be harvested less frequently in adverse weather conditions relative to 30-year daily normals.

Waterfowl are of significant cultural, economic, and conservation importance along the Texas Gulf Coast. Millions of ducks utilize this region as they move along the Central Flyway each winter. Understanding body condition patterns for these birds has important implications for overwinter survival, breeding success, and population regulation. This is especially true for females, which are typically the limiting sex in ducks. Herein, we an- alyze sex- and age-specific differences in body condition of non-breeding dabbling ducks over the winter hunting season in coastal Texas. We collab- orated with hunters over two winters to salvage, weigh, and measure 1255 dabbling ducks, including blue-winged teal (Spatula discors), green-winged teal (Anas crecca), northern shoveler (Spatula clypeata), gadwall (Mareca strepera), and northern pintail (Anas acuta).