Gino J. D'Angelo scite author profile

Social behavior of white-tailed deer (Odocoileus virginianus) can have important management implications. The formation of matrilineal social groups among female deer has been documented and management strategies have been proposed based on this well-developed social structure. Using radiocollared (n = 17) and hunter or vehicle-killed (n = 21) does, we examined spatial and genetic structure in white-tailed deer on a 7,000-ha portion of the Savannah River Site in the upper Coastal Plain of South Carolina, USA. We used 14 microsatellite DNA loci to calculate pairwise relatedness among individual deer and to assign doe pairs to putative relationship categories. Linear distance and genetic relatedness were weakly correlated (r = -0.08, P = 0.058). Relationship categories differed in mean spatial distance, but only 60% of first-degree-related doe pairs (full sibling or mother-offspring pairs) and 38% of second-degree-related doe pairs (half sibling, grandmother-granddaughter pairs) were members of the same social group based on spatial association. Heavy hunting pressure in this population has created a young age structure among does, where the average age is <2.5 years, and <4% of does are >4.5 years old. This-combined with potentially elevated dispersal among young does-could limit the formation of persistent, cohesive social groups. Our results question the universal applicability of recently proposed models of spatial and genetic structuring in white-tailed deer, particularly in areas with differing harvest histories. JOURNAL OF WILDLIFE MANAGEMENT 69(1):332-344; 2005

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Evaluation of Wildlife Warning Reflectors for Altering White-Tailed Deer Behavior Along Roadways

D'Angelo

D'angelo

Gallagher

et al. 2006

Wildlife Society Bulletin

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We evaluated the behavioral responses of white‐tailed deer (Odocoileus virginianus) to 4 colors of wildlife warning reflectors (red, white, blue‐green, and amber) that are purported to reduce the incidence of deer—vehicle collisions. We observed white‐tailed deer behaviors relative to roads before and after installation of wildlife warning reflectors using a forward‐looking infrared camera during 90 observation nights. We concluded that wildlife warning reflectors were ineffective in changing deer behavior such that deer—vehicle collisions might be prevented.

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Visual specialization of an herbivore prey species, the white-tailed deer

D'Angelo¹,

Glasser²,

Wendt³

et al. 2008

Can. J. Zool.

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To gain knowledge of visual specializations influencing the behavior of white-tailed deer ( Odocoileus virginianus (Zimmermann, 1780)), we examined gross eye characteristics, structural organization of the retina, and the density and distribution of cone photoreceptors. White-tailed deer possess ocular features similar to other ungulates including a horizontal slit pupil, reflective tapetum lucidum, typical retinal structure, and medium wavelength sensitive cone photoreceptors concentrated in a horizontal visual streak. The tapetum was found to cover the superior portion of the eye and overlapped the horizontal visual streak. Comparisons between fawns and adults did not reveal any differences in retinal thickness, retinal nuclei counts, or cone photoreceptor counts. While M-cones had increased density in the visual streak, S-cones were distributed evenly across the entire retina. Schematic eye calculations of a 0.5-year-old deer indicated a hyperopic eye (+7.96) with a F/# ranging from 5.55 to 1.39 for pupil diameters of 3 to 12 mm. As expected for a crepuscularly active prey species, the visual system of white-tailed deer is specialized for sensitivity in low-light conditions and detection of predators.

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Hearing Range of White‐Tailed Deer as Determined by Auditory Brainstem Response

et al. 2007

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: Basic knowledge of white‐tailed deer (Odocoileus virginianus) hearing can improve understanding of deer behavior and may assist in the development of effective deterrent strategies. Using auditory brainstem response testing, we determined that white‐tailed deer hear within the range of frequencies we tested, between 0.25–30 kilohertz (kHz), with best sensitivity between 4–8 kHz. The upper limit of human hearing lies at about 20 kHz, whereas we demonstrated that white‐tailed deer detected frequencies to at least 30 kHz. This difference suggests that research on the use of ultrasonic (frequencies >20 kHz) auditory deterrents is justified as a possible means of reducing deer—human conflicts.

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Gino J. D'Angelo

Fine-Scale Genetic Structure and Social Organization in Female White-Tailed Deer

Evaluation of Wildlife Warning Reflectors for Altering White-Tailed Deer Behavior Along Roadways

Visual specialization of an herbivore prey species, the white-tailed deer

Hearing Range of White‐Tailed Deer as Determined by Auditory Brainstem Response

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