Download or read book Predator Recognition Risk Assessment and Antipredator Behavior in Columbian Blacktailed Deer written by Theodore Stankowich and published by . This book was released on 2006 with total page 376 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Predator recognition risk assessment and antipredator behavior in Columbian blacktailed deer written by and published by . This book was released on with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Anti predator Behavior of Grazing Black tailed Deer written by Martin C. Potter and published by . This book was released on 1988 with total page 108 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Animal Behavior written by Ken Yasukawa and published by Bloomsbury Publishing USA. This book was released on 2014-01-22 with total page 1251 pages. Available in PDF, EPUB and Kindle. Book excerpt: Discover why animals do what they do, based on their genes, physiologies, cultures, traditions, survival and mating advantages, and evolutionary histories—and find out how studying behavior in the animal world helps us understand human behavior. The three volumes of Animal Behavior: How and Why Animals Do the Things They Do cover the breadth of the field, addressing causation, development, function, and evolution in a wide range of animals, from invertebrates to humans. Inspired by Nobel laureate Nikolaas Tinbergen's work, the first two volumes follow Tinbergen's four classic questions of animal behavior, while the third volume supplies integrated examples of Tinbergen's investigative process applied in specific cases. Written in an engaging, accessible manner ideal for college students as well as general audiences, this evidence-based collection provides a fascinating tour of animal behaviorists' findings, such as how animal communication can be truthful or deceitful, the deadly serious business behind clashes in the "battle of the sexes," and how documentation of animal behavior can lead to a deeper understanding of human behavior. Each chapter provides both historical background and information about current developments in animal behavior knowledge.

Download or read book Human Predation Risk Effects on Adult Male White tailed Deer Antipredator Behavior written by Andrew Richard Little and published by . This book was released on 2011 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Recreational hunters play an important role in managing white-tailed deer (Odocoileus virginianus); however, the potential for deer to alter behaviors to avoid hunters has not been addressed within the risk-allocation hypothesis. I evaluated magnitude (i.e., hunter density) and temporal variation (i.e., time of day and initial and prolonged exposure) in human predation risk on movements, resource selection, and observation rates of 37 adult male deer in southern Oklahoma. Deer recognized human predation risk by increasing diel path complexity and use of security cover with greater hunter density. Moreover, deer reduced movement rates and tortuosity while seeking out areas with security cover during prolonged exposure. However, tortuosity and use of security cover remained elevated with greater hunter density. These alterations in behaviors subsequently led to a decrease in observation rates during prolonged exposure. My results clearly support the predation risk-allocation hypothesis by the behavioral responses observed with greater hunter density.

Download or read book Proceedings written by and published by . This book was released on 2007 with total page 476 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Assertive Antipredator Behavior by Feral Horse Stallions Equus Caballus written by Lisa Dorn and published by . This book was released on 2009 with total page 388 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Canadian Journal of Zoology written by and published by . This book was released on 2009 with total page 564 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Historic Survival Rates and Cause Specific Mortality for Columbian Black Tailed Deer in Southwest Oregon written by Kevyn A. Groot and published by . This book was released on 2015 with total page 93 pages. Available in PDF, EPUB and Kindle. Book excerpt: In contrast with other Odocoileus species, Columbian black-tailed deer (Odocoileus hemionus columbianus) population dynamics are not well understood throughout the species' range. Concerns over apparent long-term population declines have prompted efforts to fill basic knowledge gaps including estimates of vital rates (fecundity, recruitment and survival) and cause-specific mortality. The Oregon Department of Fish and Wildlife completed an extensive Columbian black-tailed (black-tailed) deer radio-collaring study in Oregon's south Cascade range from 1994 - 2000, with the goal of better understanding and anticipating the effects of different harvest management strategies on deer herds in the region. I utilized this historical data to conduct an in-depth investigation of seasonal sex- and age-specific survival rates and cause-specific mortality rates for marked black-tailed deer. I used known-fate data for 293 male and female radio-collared black-tailed of 3 age classes (yearling, 2-year old, adult) to estimate seasonal survival and investigate a variety of explanatory factors including sex, age class, temporal effects (seasonal, annual and trends across season and year), and time-dependent large-scale regional climate covariates. Variation in survival rates for this population was best explained by an interaction between sex and age class, with decreased probability of survival with increasing age class. The age effect was most pronounced in males, and although female survival in the older age classes was higher compared to male survival as predicted, yearling males had higher survival rates than yearling females. There was strong support for temporal variation in survival between summer and winter seasons, with winter survival best modeled as constant across years and summer survival variable across years. Winter survival was generally higher than summer except in 1997 when winter and summer rates were similar. Despite annual variation in summer survival rates, large-scale climate indices (Southern Oscillation Index, Pacific Decadal Oscillation, and Palmer Drought Severity Index) did not explain any temporal variation in survival rates within seasons. Low survival rates during the summer season, particularly for older males, resulted in low estimates of annual survival in some years. Annual estimates for males ranged from 0.47 - 0.76 for yearlings, 0.29 - 0.60 for 2-year olds and 0.14 - 0.40 for adults across the 6 years of this study. Annual estimates for females were generally higher than for males but were some of the lowest documented for the species, ranging from 0.47 - 0.76 for yearlings, 0.46 - 0.75 for 2-year olds and 0.44 - 0.74 for adults. I used the nonparametric cumulative incidence function estimator (NPCIFE) to generate annual and seasonal cumulative incidence functions for four competing risks: harvest, predation, other low-incidence sources of anthropogenic or natural mortality, and mortality due to unknown sources. Annual and seasonal risk functions were pooled across all years of the study to maximize sample size. As predicted in this system with limited antlerless harvest, cumulative risk of harvest across the entire annual cycle (365 days) was significantly higher for males (0.16, 95% CI = 0.11 - 0.21); a 16% annual cumulative risk compared to just 3% for females (0.03, 95% CI = 0.01 - 0.05). In addition, cause-specific mortality by male age class during the period of highest hunting pressure (general Cascade rifle season) suggested that 2-year-old males had over twice the cumulative risk of legal harvest with 22% of this age class killed by hunters during the general rifle season (0.22, 95% CI = 0.12 - 0.33) compared to 10% of adults (0.10, 95% CI = 0.04 - 0.15). Most yearling males survived the harvest season as cumulative legal harvest risk for yearling males was low (0.02, 95% CI = -0.01 - 0.06) relative to 2-year-olds and adults. Cougars (Puma concolor) were the primary predator of marked black-tailed deer and there was no significant difference in annual cumulative predation risk between the sexes (males: 0.05, 95% CI = 0.02 - 0.08; females: 0.05, 95% CI = 0.03 - 0.08), with only 5% risk of predation each year for both males and females. There was strong evidence that cumulative predation risk for females was higher in winter (0.04, 95% CI = 0.02 - 0.06) compared to summer (0.01, 95% CI = -0.002 - 0.02), and an increase in cumulative risk from February to May provides supportive evidence that females are more susceptible to predation during these months. High survival rates of yearling males with dramatic declines in survival once many of these deer became 2-year olds or older suggest that harvest may have had an additive effect and been the primary cause of low survival rates observed for males. Observed variability in summer survival resulted in variable, and in some years very low, annual survival rates for adult females; a strong contrast to the generally stable annual survival rates reported for other populations of mule deer. The highest estimates of annual survival for yearling males and for females of all age classes (0.74) in 1997 are comparable to the low range of estimates observed in other populations, but in other years estimates are much lower than what has been previously reported for black-tailed deer. These low survival rates might suggest a mechanism resulting in population decline over time, but more information on other vital rates (fecundity, fawn survival, and recruitment), carrying capacity of the system and population size is necessary to understand the population dynamics of black-tailed deer in this region during the 1990's. Properties of the data relative to male age classes in particular (low sample sizes, high censoring rates) decreased precision of these estimates and might have resulted in biased estimates. Adult females had consistently sufficient sample sizes over the course of the study to generate more precise, reliable estimates of survival, particularly in the latter 3 years of the study; these estimates should therefore be viewed with more confidence. Cause-specific mortality rates should be viewed as minimums due to the high number of unknown mortalities (40% of total) in the study population, but they suggest that hunting is the primary source of mortality for adult males and predation has the highest impact on seasonal female mortality rates. Given the historical nature of these results, my estimates should be used as a baseline and foundation for comparison with results from current black-tailed deer research in Oregon. These results have raised potential questions regarding harvest levels on male black-tailed deer in addition to possible resource constraints affecting both sexes on seasonal ranges, and can therefore focus new research to address these concerns.

Download or read book Ecology and Social Behavior of a Population of the Columbian Black tailed Deer in California written by Raymond Fredric Dasmann and published by . This book was released on 1954 with total page 310 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Examining how Spatial temporal Interactions Between Predators Influence the Distribution Vigilance and Survival of White tailed Deer Odocoileus Virginianus Fawns written by Asia Murphy and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Predator-prey interactions are among one of the most important community-structuring interspecific relationships. It is well known that predators have direct (i.e., consumptive) effects (CEs), influencing population density [1] and survival [2, 3], and indirect (i.e., non-consumptive) effects (NCEs) on prey. Typically, NCEs are caused by the prey's antipredator behaviors, and can range from changes in distribution and habitat use [4-8] to changes in morphology [9] and decreased reproductive success and recruitment [10-13] to increased vigilance and group size [14, 15]. Based on their strength, CEs and NCEs can scale up to affecting entire ecosystems through trophic cascades [16, 17]. Antipredator behaviors are often tied to the prey's perception of predation risk, which is the probability of prey encountering a predator and/or being killed [7] and varies across space and time [18, 19]. Prey perception of predation risk is based on predator identity and hunting style [20-23], and prey often connect the risk of being killed by an ambush predator to specific habitat features [4], while the risk of being killed by a wide-ranging predator is often not tied to habitat features [17], although these types of predators might find more success in open habitats [24]. This suggests that prey will use different antipredator strategies to avoid different predators. Whereas prey might avoid risky habitats when avoiding ambush predators, prey might avoid being active and/or increase vigilance during risky hours when coursing predators might be active and hunting [25]. While many studies focus on the effect of a single predator on prey [i.e., 8], in most ecological communities, there are often multiple predators preying on the same species [26-28]. The number of predatory species in an ecological community can influence the strength of predator effects on prey [27, 29]. If the antipredator strategies that prey use to reduce predation risk by one predator indirectly increases its chance of being killed by another predator [i.e., predator faciliation; 30], predators can more effectively suppress prey populations [29, 31]. Prey in multi-predator systems often seem unable to completely avoid all predators, and instead focus their energies on using antipredator behaviors meant to avoid predators in order of lethality [32]. The interactions between predators, and the interactions between predators and humans, can also influence predation pressure on prey [33]. A comprehensive study on antipredator behavior and survival in a multi-predator system would determine not only the spatiotemporal distributions, antipredator behavior, and survival probability of the prey, but the spatiotemporal distributions of the predators. The white-tailed deer (Odocoileus virginianus) are culturally and economically important species across much of the United States [34] in Pennsylvania. The number one cause of mortality in white-tailed deer fawns is predation [3, 35]; in Pennsylvania, black bears (Ursus americanus), coyotes (Canis latrans), and bobcats (Lynx rufus; Vreeland et al. 2004, McLean et al. 2005) are all known to prey on fawns. All three predators use different habitats [37-39], can be active at different times [40-42], and have different hunting styles [43, 44], creating a landscape of predation risk that varies spatially and temporally [45]. In addition, these predators--particularly coyotes and bobcats [46-48]--can compete with and influence the habitat use and activity patterns of the other predators, further complicating the landscape that fawns must navigate to survive. While this landscape of multi-predator predation risk has been characterized before for white-tailed deer fawns [see 49, 50], no one has attempted to do so in Pennsylvania. In this dissertation, I examine how habitat relationships (Chapter 1) and spatiotemporal interactions of and between humans, fawns, black bears, coyotes, and bobcats influence the vigilance (Chapter 2) and survival (Chapter 3) of fawns during their first three months of life. In Chapter 1, I find that differing matrix types can influence the similarity of coyote and fawn habitat use. In Chapter 2, I posit that the risk allocation hypothesis can explain why a number of studies--including my own--have found that, in more anthropogenically disturbed habitats, species that would normally avoid spatiotemporal overlap with each other increase in spatiotemporal overlap. In Chapter 3, I estimate fawn survival, examine its relationship to fawn antipredator behavior and habitat, and find that data from camera trap surveys could be a feasible alternative to radio-collaring when the goal is to estimate fawn survival. My research provides new insights into species interactions are influenced by anthropogenic disturbance and a template for noninvasively and inexpensively examining these interactions.

Download or read book White tailed Deer in Eastern Ecosystems written by William F. Porter and published by . This book was released on 1991 with total page 72 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Effects of Predation and Forage Availability on the Survival of Black tailed Deer Odocoileus Hemionus Columbianus in the Mendocino National Forest California written by Tavis Donahue Forrester and published by . This book was released on 2014 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Mule (Odocoileus hemionus) and black-tailed deer (O. h. columbianus) have exhibited marked population fluctuations throughout their range over the past century. The relative contributions of predation, forage availability, and weather to observed population changes remain unclear and controversial. I evaluated the effects of both predation and forage on the survival of mule and black-tailed deer though a literature review and extensive field research in the Mendocino National Forest from 2009-2013. I reviewed 48 studies on mule deer survival and predation from the past 30 years and quantified age-specific vital rates, population growth rates (lamda) and causes of mortality. I also evaluated the effect of environmental variables on variation in vital rates and the contribution of age-specific survival to population growth. Age-specific survival (Phi) was the most frequently studied population parameter. Mule deer have lower and more variable fawn survival than other ungulate species (Phi(summer)=0.44, CV=0.42; Phi(annual)=0.29, CV=0.67). Adult female survival conversely appeared to be high and stable throughout the geographical range of the species (Phi(annual)=0.84, CV=0.06). Observed low fawn survival appears to be compensated for by high fecundity rates. Predation was the primary proximate cause of mortality for all age classes, and was an important source of summer fawn mortality and of mortality in multi-prey, multi-predator systems. However, predator removal studies suggest that predation is compensatory, particularly at high deer densities, and that nutrition and weather shape population dynamics. I propose three models to explain local population dynamics of mule deer: a) populations are limited by forage availability and weather; b) adult females are limited by forage availability, fawns are limited by forage availability and predation, and population growth is constrained by fecundity and fawn predation; and c) large changes in the abundance of predators or alternative prey change predation risk and destabilize population dynamics. From 2009 to 2013, I led field crews that captured and monitored 135 black-tailed deer fawns in coastal California to study possible interactions between forage and predation on survival. I estimated seasonal and annual survival rates, assessed the cause of all mortalities (n=95), measured available forage, estimated relative abundances of predators on summer range (i.e., fawning areas) each year, and used remote sensing to quantify habitat on winter range. I then used cumulative incidence and proportional hazards functions to evaluate how environmental covariates were related to fawn survival. Summer survival rates averaged 0.40 across all years (SE=0.05) and the mean annual survival rate was 0.25 (SE=0.04). I found that most fawn mortality resulted from predation during summer, mainly by black bears (Ursus americanus) and coyotes (Canis latrans), and spatial differences in summer survival persisted until recruitment. Black bear predation, the single largest cause of mortality, was unrelated to forage availability. Observed spatial variation in mortality risk due to other causes was linked to the availability of oak forage but not predator abundance. Additionally, characteristics of deer including adult female condition and fawn birthweight, did not provide evidence for purely bottom-up limitation. Rather my results provided evidence that both bottom-up and top-down effects were influencing fawn survival in this declining population, and that predator identity and the timing of mortality affected these interactions. I also tracked 57 adult female black-tailed deer using GPS collars and radio-telemetry to determine seasonal movements and home ranges and monitor survival and cause of mortality. I used the seasonal home range as a measure of site familiarity and modeled how mortality risk varied with use of familiar areas, forage availability, age class, and elevational overlap with simultaneously collared pumas using Cox proportional hazards models. Adult female survival was low in our study area (0.70 vs. 0.84 species average), and predation was the largest cause of mortality. The use of familiar areas was the best predictor of mortality risk, and deer that had a 40% chance of leaving the home range in a given week were 4 times more likely to die. Puma predation was the largest cause of mortality and deer whose average weekly elevation was farther from the average elevation of pumas were less likely to die. While forage availability was not related to mortality risk, adult females with lower forage availability were more likely to leave their home range in both summer and winter. I found fitness benefits of using familiar areas and bottom-up effects on the use of familiar areas as a refuge from predation. The benefits of site familiarity are likely widespread in ungulates, especially when there are stable home ranges, complex habitats, and unclear cues of predation risk. My results provide evidence that both bottom-up and top-down effects were influencing black-tailed deer survival in this declining population, and that predator identity, the timing of mortality, and individual behavior affected these interactions.

Download or read book Escaping From Predators written by William E. Cooper, Jr and published by Cambridge University Press. This book was released on 2015-05-28 with total page 459 pages. Available in PDF, EPUB and Kindle. Book excerpt: When a predator attacks, prey are faced with a series of 'if', 'when' and 'how' escape decisions – these critical questions are the foci of this book. Cooper and Blumstein bring together a balance of theory and empirical research to summarise over fifty years of scattered research and benchmark current thinking in the rapidly expanding literature on the behavioural ecology of escaping. The book consolidates current and new behaviour models with taxonomically divided empirical chapters that demonstrate the application of escape theory to different groups. The chapters integrate behaviour with physiology, genetics and evolution to lead the reader through the complex decisions faced by prey during a predator attack, examining how these decisions interact with life history and individual variation. The chapter on best practice field methodology and the ideas for future research presented throughout, ensure this volume is practical as well as informative.

Download or read book Geographic Variation in Behavior written by Susan A. Foster and published by Oxford University Press. This book was released on 1999-03-04 with total page 337 pages. Available in PDF, EPUB and Kindle. Book excerpt: Studies of animal behavior often assume that all members of a species exhibit the same behavior. Geographic Variation in Behavior shows that, on the contrary, there is substantional variation within species across a wide range of taxa. Including work from pioneers in the field, this volume provides a balanced overview of research on behavioral characteristics that vary geographically. The authors explore the mechanisms by which behavioral differences evolve and examine related methodological issues. Taken together, the work collected here demonstrates that genetically based geographic variation may be far more widespread than previously suspected. The book also shows how variation in behavior can illuminate both behavioral evolution and general evolutionary patterns. Unique among books on behavior in its emphasis on geographic variation, this volume is a valuable new resource for students and researchers in animal behavior and evolutionary biology.

Download or read book Foraging Behavior Social Interactions and Predation Risk of White tailed Deer Odocoileus Virginianus at a Concentrated Resource written by David Bledsoe Stone and published by . This book was released on 2017 with total page 226 pages. Available in PDF, EPUB and Kindle. Book excerpt: Wildlife feeding is undertaken for a variety of reasons including increasing viewing opportunities, improving body condition, preventing starvation, and facilitating hunter harvest. I investigated anti-predator and foraging behavior at bait sites, the role of competition on bait site visitation, and spatio-temporal responses to baiting. During 2013 and 2014, I used global positioning system (GPS) telemetry and camera traps to assess white-tailed deer (Odocoileus virginianus) behavior at bait sites and implications for harvest susceptibility. Camera trap data indicated that foraging behavior was influenced by social interactions and breeding chronology. Co-occurrence of mature and immature males at a bait site negatively impacted feeding rates for immature males. I used a multi-state modeling approach to determine if deer temporally partitioned their use of bait sites based on dominance status and how the resulting patterns in bait site visitation would potentially expose deer to different sources of predation risk, depending on the activity patterns of the predator. I found that subordinate (yearling males and adult females) and dominant (adult males) cohorts avoided each other temporally at the patch level. Subordinates were more likely to use bait sites during diurnal hours during the pre- and post-breeding phases of the breeding season than dominants. Bait site visitation for dominants and subordinates did not differ during nocturnal hours in any phase of the breeding season. Lastly, I used dynamic Brownian bridge movement models and camera traps to assess harvest suscpetibility. I determined that hunters were less likely to encounter a deer at a bait site than non-baited areas in their home range, regardless of sex, age class, or phase of the breeding season. Although no sex-age class selected for bait sites over other portions of their home range during legal hunting hours, adult females were more susceptible to harvest at bait sites during the pre-breeding season than the breeding or post-breeding seasons. Conversely, adult and yearling males were more likely to visit a bait site during hunting hours in the post-breeding season than the pre- or breeding seasons. Social interactions, competitive status, and reproductive behaviors are important drivers of deer behavior and harvest susceptibility at bait sites.

Download or read book Mule and Black tailed Deer of North America written by Olof C. Wallmo and published by . This book was released on 1981 with total page 632 pages. Available in PDF, EPUB and Kindle. Book excerpt: Developed in co-operation with U.S. Department of Agriculture, Forest Service.