Influences of landscape composition on hunter-harvested mallard body mass and condition in eastern Arkansas

Waterfowl with more body mass and a greater body condition during the non-breeding season are thought to be more likely to survive and have increased productivity during the following breeding season. Body mass and body condition in waterfowl should reflect the resources available to them locally. We analyzed the relationship of landscape composition on mallard (Anas platyrhynchos) body mass and body condition (mass-wing length index) among age and sex groups. We calculated these variables from hunter-harvested mallards during the 2019–2020 and 2020–2021 duck hunting seasons in the Lower Mississippi Alluvial Valley of Arkansas, USA. We used linear mixed-effects models to analyze changes in body mass and body condition with changes in the percent landscape composition of water cover, woody wetlands, herbaceous wetlands, rice, soybeans, and disturbance. We found that body mass and condition of harvested mallards were positively associated with greater proportions of water cover and woody wetlands but negatively associated with greater proportions of herbaceous wetlands and human disturbance from human infrastructure. Management actions focused on providing flooded and woody wetland areas on the landscape that allow waterfowl to access food resources, while decreasing the disturbance around wetlands in the form of road density and human infrastructure, should increase body mass and body condition in mallards spending the non-breeding season in the Lower Mississippi Alluvial Valley.     

Responses of Pioneer and Later‐Successional Plant Assemblages to Created Microtopographic Variation and Soil Treatments in Riparian Forest Restoration

Riparian forest restoration generally involves introduction of later‐successional tree species, but poor species suitability to severely altered or degraded site conditions results in high mortality and poor community development. Additionally, while microtopographic heterogeneity plays a crucial role in the development of natural riparian forests, little is known regarding effects of restored or created microtopography on the development of introduced plant communities. The objective of this study was to determine the influence of created microtopography and soil treatments on early development of introduced pioneer and later‐successional plant communities in riparian forest restoration. Ridges, flats, and a mound‐and‐pool complex were created, and pioneer and later‐successional tree assemblages were planted within plots in each of these three microtopographic positions. Straw‐based erosion control mats were placed on half the plots as a source of mulch. After two growing seasons, growth and survival of the pioneer assemblage were equal among microtopographic positions, but survival of the later‐successional assemblage was significantly higher on ridges (59%) than on mounds and pools (22%) and flats (26%). A suitability index indicated that performance of the later‐successional assemblage on ridges was higher than that of the pioneer assemblage for all microtopographic positions. Flood duration explained much of the variation in plant assemblage survival, and erosion control mats had little influence on seedling survival. Restoring microtopographic features has the potential to enhance species survival and promote community development. Microtopographic restoration may be as important in riparian forest restoration as proper species selection and hydrologic reestablishment, especially at severely disturbed sites.     

Compensatory mechanisms of central U.S. hardwood forest communities in a changing environment

Although it is known that forest productivity is highly correlated with canopy leaf area, the influence of environmental gradients within a forest on leaf area-productivity relationships has not been well-documented, particularly for mixed-species forests. The present study was conducted to define the mechanisms by which Central Hardwood forest communities respond to changes in environment. Ecological Land Type Phases (ELTPs) of the Central Hardwood region, delineated by soils, topography, and indicator vegetation, provided a framework to examine the impacts of environmental gradients on leaf area-productivity relationships at a landscape level. Three ELTPs- (1) Quercus prinus / Carex picta-Vaccinium, Dry slope, (2) Quercus alba-Acer saccharum / Parthenocissus, Dry-Mesic Slope, and (3) Fagus-Acer saccharum / Arisaema, Mesic Slope- were selected and stratified into three slope positions viz. the upper edge of the community, the middle or center of the community on the slope, and the lower edge of the community. Circular plots of 0.02 ha in size were established for sampling. Standing stock (basal area, volume, and biomass), annual production, leaf area index, and growth efficiency were determined for each slope position and examined to determine the mechanisms and trends for community change across slope positions. Among the three communities studied, dry slopes compensated for drier conditions through both a shift in species composition and reduced annual production. Dry-mesic slopes exhibited adaptation only through changing species composition whereas mesic slopes compensated for drier conditions primarily through reduction in annual production. These results indicate that mixed-species forest communities adjust to environmental gradients through several mechanisms and that the relative importance of these mechanisms changes with community type.     

Potential advantages and disadvantages of germinating early for trees in floodplain forests

Summary Seedlings of Acer rubrum, Carpinus caroliniana, and Platanus occidentalis were germinated and grown under contrasting light regimes: varied light (59% of the abovecanopy photon flux incrementally decreased to 9%, simulating a forest understory during canopy leaf-out) and low light (constantly less than 10%, simulating an understory after leaf-out). By the time that light in both treatments was equilibrated at 9%, 44 days after the first germination, varied light plants were an order of magnitude larger than low light plants. However, in the remainder of the experiment, during which all plants were kept at 9% light, varied light plants had lower relative growth due to: 1) lower leaf area per unit of plant mass; and 2) lower net productivity per unit of leaf area. A subset of plants were flooded after light equilibration, resulting in reduced growth. Varied and low light plants were equally affected by flooding. Reported differences among species in shade tolerance were poorly correlated with differences in response to light treatment.     

Opposing deer and caterpillar foraging preferences may prevent reductions in songbird prey biomass in historically overbrowsed forests

Overbrowsing by ungulates decimates plant populations and reduces diversity in a variety of ecosystems, but the mechanisms by which changes to plant community composition influence other trophic levels are poorly understood. In addition to removal of avian nesting habitat, browsing is hypothesized to reduce bird density and diversity through reduction of insect prey on browse‐tolerant hosts left behind by deer. In this study, we excluded birds from branches of six tree species to quantify differences in songbird prey removal across trees that vary in deer browse preference. Early in the breeding season, birds preyed on caterpillars at levels proportional to their abundance on each host. Combining these data with tree species composition data from stands exposed to experimentally controlled deer densities over 30 years ago, we tested whether overbrowsing by white‐tailed deer reduces prey biomass long after deer densities are reduced. Our analysis predicts total prey availability in the canopy of regenerating forests is fairly robust to historic exposure to high deer densities, though distribution of prey available from host species changes dramatically. This predicted compensatory effect was unexpected and is driven by high prey abundance on a single host tree species avoided by browsing deer, Prunus serotina. Thus, while we confirm that prey abundance on host trees can act as a reliable predictor for relative prey availability, this study shows that quantifying prey abundance across host trees is essential to understanding how changes in tree species composition interact with ungulate browse preference to determine prey availability for songbirds.     

Effects of Natural Barriers and Habitat on the Western Spread of Raccoon Rabies in Alabama

Abstract: Although domestic animal transmission of rabies has largely been mitigated, the disease remains a concern in both Europe and North America where wildlife transmission has caused epizootics. Raccoon (Procyon lotor) rabies was established in Alabama, USA, in 1975, primarily in the southeastern corner of the state. However, with the exception of isolated events, rabies has not continued to spread westward across the Alabama River. We monitored movements of 100 radiocollared raccoons on 2 sites within hardwood and agriculture habitats in a rabies enzootic area east of the Alabama River, in managed pine habitat area west of the river where rabies sporadically occurs, and in a mixed pine hardwood area outside of the known rabies enzootic area to determine if raccoon movements and habitat use in certain habitat types and the presence of a river may serve as natural barriers preventing the western spread of rabies in Alabama. We also examined raccoon contact rates to determine if they influence disease transmission through static and dynamic interactions. Raccoons in mixed pine-hardwood forest habitats had smaller home ranges and less overlap of ranges compared to the other 3 habitats. However, static interactions between habitats in the use of overlap areas did not differ (F_11,129 = 1.63, P = 0.09). Rabies antibody titers were highest in the managed pine habitat (28%) even prior to oral vaccine bait distributions in spring of 2004 and 2005. Biomarker data from radiocollared and additional raccoons captured after the bait distribution west of the Alabama River demonstrated a low efficacy of the vaccine reaching the small southern raccoons. The combination of the river as a partial barrier, the high percentage of pine forested habitat west of the river, and limited spatial movements of raccoons within these forested habitats appears to have reduced the likelihood of rabies establishing west of the river. Understanding different host-habitat- disease systems is important for successful management of diseases. Based on our results, we recommend that the oral vaccine program continue to use the Alabama River as a partial barrier and baiting be concentrated in the fragmented bottomland hardwood forests and around larger bodies of water where raccoon densities are highest. Success of baiting strategies designed to take advantage of northern raccoon dynamics and habitat use may not be applicable to southern populations.     

Macroinvertebrate assemblage response to highway crossings in forested wetlands: implications for biological assessment

Despite the mandate of the Clean Water Act to protectthe physical, chemical, and biological integrity ofthe USA's wetlands, the use of biota to assess wetlandcondition has not been well explored. During June,1996, we evaluated the response of macroinvertebrateassemblages to fill-culvert highway crossings in twobottomland forested wetlands in North Carolina. Ourobjective was to apply biological assessment methodsand metrics that have been effectively used in streamsto explore their applicability in forested wetlands.We found significant changes in several metrics as afunction of distance from the highway crossings. Arealand numerical taxon richness increased within at least40 m of highway when compared to control locations.Percent dominant taxon values were lowest within 10 mof the highway. Percent herbivores also increasedsignificantly within at least 40 m of the highway,reflecting the lower % crown closure and associatedshift in primary production from trees to herbaceousmacrophytes and algae. The North Carolina BioticIndex, a metric of tolerance, did not reflectassemblage changes near the highway. Ordination andpermutation tests revealed that assemblage compositionwas significantly different from controls at 10 and 40 mdistances from the highway crossings. In particular,algal grazers such as the mayflies Caenissp.and Callibaetissp. responded positively and thedamselflies Ischnuraspp. and the fingernailclams Sphaeriumspp. responded negatively to thecrossings. Favorable algal and herbaceous detritalresources, greater patchiness and habitat complexity,and overall high tolerance to natural stressorsprobably contributed to the increase in taxon richnessnear the highway. However, significant deviation fromcontrol locations indicated the highway was a sourceof perturbation. Our findings illustrate the potentialutility of macroinvertebrate assemblages for wetlandassessment, but suggest the importance of defining thereference condition as well as the need fordevelopment of metrics for specific classes ofwetlands.