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Influences of Habitat Composition, Plant Phenology, and Population Density on Autumn Indices of Body Condition in a Northern White-tailed Deer Population

Influences of Habitat Composition, Plant Phenology, and Population Density on Autumn Indices of Body Condition in a Northern White-tailed Deer Population
Author: Anouk Simard
Publisher:
Total Pages: 0
Release: 2014
Genre: Mammal populations
ISBN:
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Body condition has a strong influence on reproduction and survival. Consequently, understanding spatiotemporal variation in body condition may help identify processes that determine life history, and thus demography. The effect of environmental variables on individuals' body condition, although widely documented, is generally achieved by investigating habitat, plant phenology, or density separately, such that cumulative or interactive effects can rarely be considered. We investigated how spatial and annual variation in habitat composition, deer density, and vegetation productivity influenced white-tailed deer (Odocoileus virginianus) body condition during the breeding period. We detailed changes in body condition using several indices, including body mass, peroneus muscle mass, rump fat, kidney fat index, and antler size in>4,000 male and female deer of different ages harvested during September-December, 2002-2006 on Anticosti Island, Québec, Canada. Overall, females and yearlings harvested in fir forests were in poorer condition than those harvested in peatlands or spruce forests, whereas body condition of adult males was greater when open habitats were highly available. High deer density reduced autumn gains in fat, muscle mass, and body mass in males and yearlings, and in fat for females. Surprisingly, density positively affected the size of male antlers. High density at birth favored fat accumulation in adult females, suggesting strong selective pressure that removed low-quality individuals in early age at high deer density. Low Normalized Difference Vegetation Index (NDVI) in spring was associated with delayed but rapid spring green-up, and favored higher body condition in autumn. Reproduction affected most parameters of body condition; lactating females had less mass, fat, and muscle than non-lactating females, whereas mass and fat of males>4 years old steeply declined during the rut. Body mass and fat reserves showed a stronger response to density, habitat, NDVI, and reproduction than muscle mass. Body mass was a good integrating measure of fat and muscle mass, although allocation between muscle growth and energy storage was confounded. Our study highlighted the influence of environmental conditions on individual fat reserves, muscle mass, and body mass in autumn, with potential effects on reproduction and winter survival. Appropriate monitoring of body-condition indices in the fall can track the effect of environmental variables and management practices on animal populations.

Interactions of White-tailed Deer Abundance and Environment Affect Plant Community Composition in Northern Hardwood Forests

Interactions of White-tailed Deer Abundance and Environment Affect Plant Community Composition in Northern Hardwood Forests
Author: Autumn E. Sabo
Publisher:
Total Pages: 182
Release: 2017
Genre:
ISBN:
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Ungulates are widely regarded as keystone herbivores and ecosystem engineers in ecosystems around the world. In forests of eastern North America, white-tailed deer (Odocoileus virginianus) can directly affect the presence, abundance, and reproductive success of many plant species via herbivory. Moreover, the direct effects of herbivory, along with the impacts of associated deer activities, may perturb the forest understory environment by altering the availability of understory light and soil resources. I used deer exclosures and motion-sensitive video cameras to explore the consequences of differing population densities of deer on understory environmental conditions, community composition, and interactions between deer, the environment and vegetation. I focused on several deer-mediated environmental factors including sapling abundance, light availability, soil compaction and thickness of the soil E horizon, in addition to other site characteristics including overstory cover and soil texture and chemistry. My three projects included a total of nine study sites that were scattered across northern Wisconsin and the Upper Peninsula of Michigan, USA, primarily in northern hardwood forests dominated by Acer saccharum. Across my study areas, herbivory was concentrated on woody regeneration within easy reach of deer. Environmental modifications wrought by deer browsing, such as higher light availability, soil compaction and thickness of the soil E horizon layer, affected the richness and abundance of native tree seedlings, shrubs and herbs, often in species-specific manners, and encouraged invasion by exotic species. Thus, I suggest a reexamination of the common assumption that understory community shifts in response to changes in deer abundance stem primarily from tissue removal and encourage further investigation of indirect mechanisms mediated by deer. Direct and indirect effects of abundant deer appeared to act in concert to diminish the efficacy of environmental variation to drive community heterogeneity, or the realized niche. With reduced deer abundance, particularly where overstory basal area was low, tree species richness increased. Such results provide evidence that silvicultural treatments like gap creation, in conjunction with deer control, can help reverse biotic homogenization of forest communities.

Advanced White-Tailed Deer Management

Advanced White-Tailed Deer Management
Author: Timothy Edward Fulbright
Publisher: Texas A&M University Press
Total Pages: 254
Release: 2023-03-31
Genre: Nature
ISBN: 1648430570
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In 2003, a cadre of researchers set out to determine what combination of supplemental or natural nutrition and white-tailed deer population density would produce the largest antlers on bucks without harming vegetation. They would come to call this combination “the sweet spot.” Over the course of their 15-year experiment, conducted through the Caesar Kleberg Wildlife Research Institute at Texas A&M University–Kingsville, Timothy E. Fulbright, Charles A. DeYoung, David G. Hewitt, Don A. Draeger, and 25 graduate students tracked the effects of deer density and enhanced versus natural nutrition on vegetation conditions. Through wet years and dry, in a semiarid environment with frequent droughts, they observed deer nutrition and food habits and analyzed population dynamics. Containing the results of this landmark, longitudinal study, in keeping with the Kleberg Institute’s mission, this volume provides science-based information for enhancing the conservation and management of Texas wildlife. Advanced White-Tailed Deer Management: The Nutrition–Population Density Sweet Spot presents this critical research for the first time as a reference for hunters, landowners, wildlife managers, and all those who work closely with white-tailed deer populations. It explains the findings of the Comanche-Faith Project and the implications of these findings for white-tailed deer ecology and management throughout the range of the species with the goal of improving management.

The Normalized Difference Vegetation Index

The Normalized Difference Vegetation Index
Author: Nathalie Pettorelli
Publisher: Oxford University Press, USA
Total Pages: 205
Release: 2013-10
Genre: Nature
ISBN: 0199693161
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This book provides a coherent review of NDVI including its origin, its availability, its associated advantages and disadvantages, and its possible applications in ecology, environmental monitoring, wildlife management, and conservation.

Quality Whitetails

Quality Whitetails
Author: Karl V. Miller
Publisher: Stackpole Books
Total Pages: 344
Release: 2007
Genre: Nature
ISBN: 9780811734356
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Top deer biologists and deer hunting authors discuss how and when hunters should harvest bucks and antlerless deer, and how to ensure a better chance of getting that trophy buck.

Influences of Habitat Fragmentation and Agriculture on White-tailed Deer (odocoileus Virginianus) Density and Habitat Selection

Influences of Habitat Fragmentation and Agriculture on White-tailed Deer (odocoileus Virginianus) Density and Habitat Selection
Author: Miranda C. Reinson
Publisher:
Total Pages: 158
Release: 2019
Genre: Fragmented landscapes
ISBN:
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Within the Midwest of the United States, agriculture intensification has resulted in a removal of non-cultivated habitat types to expand agricultural land, which has created two unique seasons. During the non-growing season, habitat availability is limited to remnant patches primarily located along waterways and unfarmable acreage. Harvesting and planting drastically alters the landscape configuration and essentially creates two separate seasons due to the change in cover and forage. During the non-growing season, habitat availability is limited to remnant patches primarily located along unfarmable land. Understanding the influence of agricultural lands aids wildlife managers in white-tailed deer population and habitat management, and human-wildlife conflict issues. We estimated densities of deer in cultivated and non-cultivated areas of the landscape to investigate the changes in densities between the growing and non-growing season. We used point count methods with camera-captured images from the growing season (n=1872) and non-growing season (n=758). Deer densities were not significantly different during the growing season between the cultivated (24 hour: 0.32 deer/km2, peak: 0.28 deer/km2) and non-cultivated areas (24 hour: 0.88 deer/km2, peak: 1.33 deer/km2), however, densities were significantly higher in non-cultivated areas (24 hour: 1.31 deer/km2, peak: 1.24 deer/km2) during the non-growing season compared to cultivated areas (24 hour: 0.03 deer/km2, peak: 0 deer/km2). We also utilized a resource selection function on the population-scale using female white-tailed deer GPS location data to investigate seasonal changes in resources between the growing and non-growing season. Selection differed between the growing and non-growing season, with the most influential landscape characteristic during the non-growing season being canopy cover and the growing season amplitude of NDVI. These results indicate that deer densities and habitat selection is influenced the growing and non-growing seasons. Thus, effective management practices in both population control and habitat must take into consideration the response of deer to agricultural practices.

White-tailed Deer Habitat

White-tailed Deer Habitat
Author: Timothy E. Fulbright
Publisher: Texas A&M University Press
Total Pages: 262
Release: 2005
Genre: Range management
ISBN: 9781603445658
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For most of the last century, range management meant managing land for livestock. How well a landowner grew the grass that cattle ate was the best measure of success. In this century, landowners look to hunting and wildlife viewing for income; rangeland is now also wildlife habitat, and they are managing their land not just for cattle but also for wildlife, most notably deer and quail. Unlike other books on white-tailed deer in places where rainfall is relatively high and the environment stable, this book takes an ecological approach to deer management in the semiarid lands of Oklahoma, Texas, and northern Mexico. These are the least productive of white-tail habitats, where periodic drought punctuates long-term weather patterns. The book's focus on this landscape across political borders is one of its original and lasting contributions. Another is its contention that good management is based on ecological principles that guide the manager's thinking about: Habitat Requirements of White-Tailed Deer White-Tailed Deer Nutrition Carrying Capacity Habitat Manipulation Predators Hunting Timothy Edward Fulbright is a Regents Professor and the Meadows Professor in Semiarid Land Ecology at the Caesar Kleberg Wildlife Research Institute, Texas A&M University-Kingsville. J. Alfonso Ortega-S., is an associate professor at the Caesar Kleberg Wildlife Research Institute, Texas A&M University-Kingsville.

Population Ecology and Summer Habitat Selection of Mule Deer in the White Mountains

Population Ecology and Summer Habitat Selection of Mule Deer in the White Mountains
Author: Sabrina Morano
Publisher:
Total Pages: 376
Release: 2016
Genre: Electronic books
ISBN:
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Changes in landscape composition have the potential to negatively influence animal populations through shifts in dominant plant communities, loss of important forage items, or changes in structural components of habitat. In the western United States, expansion of woodland vegetation into shrub dominated communities is of concern, particularly with regard to animal populations reliant on robust sagebrush and shrub vegetation. Once established, trees can out-compete shrubs and herbaceous plants resulting in declines in abundance and diversity of shrub-forb vegetation, which female mule deer are reliant on during summer months to meet nutritional demands and to provide hiding cover for young. As a result, shifts in the distribution of pinyon-juniper woodland and increases in tree densities could negatively affect mule deer population. The study had two primary objectives, (1) to determine summer habitat composition of female mule deer in the White Mountains of California and eastern Nevada, and assess implications of pinyon-juniper expansion on habitat availability, and (2) evaluate the status of the population relative to nutritional carrying capacity and determined the influence of habitat and precipitation on demographic rates. I used mixed-effects logistic regression to model summer resource selection and demographic rates of female mule deer from 2005 to 2008. Summer resource selection was modeled at two spatial scales and among three behavioral periods, related to foraging, resting, and parturition. Summer habitat consisted of sites with high productivity, greater shrub abundance, and greater proximity to riparian areas. Deer avoided high levels of tree cover at all spatial and temporal scales, but they selected areas with low to intermediate tree cover during resting periods and during parturition. Moreover, mule deer avoided areas of productive shrub-forb vegetation (riparian and shrub NDVI), when surrounded by stands of high level pinyon-juniper cover, otherwise those vegetation types were strongly selected. During parturition female mule deer selected habitat that maximized hiding cover for newborns (greater shrub densities and structural cover), while still providing foraging opportunities (greater NDVI and shrub cover). Females underutilized certain areas that contained optimal forage such as riparian corridors, high AET sites, higher elevation shrub communities, and selected areas with low to moderate tree cover, suggesting some trade-off between minimizing predation risk for offspring, and maximizing foraging opportunities. Demographic rates (body condition, survival, fetal rates, and index of recruitment) of female mule deer were sensitive to changes in resource availability resulting from variation in precipitation or habitat composition and suggestive of a population regulated to a greater degree by bottom-up processes, and likely nearing nutritional carrying capacity. Moreover, I identified a strong negative effect of pinyon-juniper cover on annual survival, only during periods of drought, otherwise individuals were able to maintain relatively high survival regardless of habitat composition. These results suggest that in productive years mule deer are able to inhabit areas of varying levels of pinyon-juniper cover with little effect on survival, and only during the drought years are negative effects evident. Results from this study emphasize the importance of productive shrub and forb vegetation to mule deer inhabiting semi-arid regions. Maintaining areas with low-to-intermediate tree cover, where there is still abundant shrub understory and sufficient concealment cover, may be beneficial to mule deer populations. Nevertheless, the strong influence of resource availability on the population suggests that conversion of sagebrush-steppe communities into large stands of PJ dominated woodlands would likely reduce the quality and abundance of available habitat for mule deer in the Great Basin.