Your search keyword '"Ditchkoff, Stephen S."' showing total 4 results

1. Relative reproductive phenology and synchrony affect neonate survival in a nonprecocial ungulate.

Author

Michel, Eric S., Strickland, Bronson K., Demarais, Stephen, Belant, Jerrold L., Kautz, Todd M., Duquette, Jared F., Beyer, Dean E., Chamberlain, Michael J., Miller, Karl V., Shuman, Rebecca M., Kilgo, John C., Diefenbach, Duane R., Wallingford, Bret D., Vreeland, Justin K., Ditchkoff, Stephen S., DePerno, Christopher S., Moorman, Christopher E., Chitwood, M. Colter, Lashley, Marcus A., and Crocker, Daniel

Subjects

UNGULATES, COYOTE, WHITE-tailed deer, NEWBORN infants, SYNCHRONIC order, PREDATORY animals, PREY availability, BIRTH rate

Abstract

Degree of reproductive synchronization in prey is hypothesized as a predator defense strategy reducing prey risk via predator satiation or predator avoidance. Species with precocial young, especially those exposed to specialist predators, should be highly synchronous to satiate predators (predator satiation hypothesis), while prey with nonprecocial (i.e. altricial) young, especially those exposed to generalist predators, should become relatively asynchronous to avoid predator detection (predator avoidance hypothesis). The white‐tailed deer Odocoileus virginianus in North America is an example of a nonprecocial ungulate that uses the hider strategy early in life; its primary predator (coyote; Canis latrans) is a generalist, making white‐tailed deer a good model species to test the predator avoidance hypothesis.We used birth dates and known fates of white‐tailed deer neonates (n = 1,032) across nine study sites varying in relative synchrony and predator assemblages to test the predator avoidance hypothesis. We predicted that relative birthing asynchrony of the population would increase relative survival at the population level; therefore, at the individual scale, neonate birth date nearer to mean birthing date in a respective population would not influence individual survival.Coyotes were responsible for the majority of predation events, and survival of those neonates increased the closer the individual was born to peak birthing season in each respective population. Also, at the population level, reproductive asynchronization negatively affected survival.Contrary to the predator avoidance hypothesis, our data indicate patterns in neonate survival for white‐tailed deer better support the predator satiation hypothesis at the individual and population level. Additionally, coyotes may present a selective force great enough to shift reproductive synchrony such that predator satiation may become a feasible defense strategy for neonates at local spatial scales.Our results indicate that synchronizing reproduction may still be the most effective strategy to reduce individual predation risk from generalist predators, particularly when the window of heightened resource availability to the prey is narrow. A free Plain Language Summary can be found within the Supporting Information of this article. [ABSTRACT FROM AUTHOR]

Published

2020

2. Reproduction in a population of wild pigs ( Sus scrofa) subjected to lethal control.

Author

Ditchkoff, Stephen S., Jolley, D. Buck, Sparklin, Bill D., Hanson, Laura B., Mitchell, Michael S., and Grand, James B.

Subjects

*WILD boar, *ANIMAL reproduction, *ANIMAL population density, *WILDLIFE management

Abstract

The continued range expansion of wild pigs ( Sus scrofa) in North America is an increasing cause for concern because of the numerous negative impacts that wild pigs have on ecosystem structure and function. Once populations are established, wild pigs have proven to be extremely difficult to control, and close to impossible to eradicate. If effective control and removal techniques are to be developed, we must determine if wild pig populations respond to reductions in density by increasing reproductive output. This study was designed to examine if reproductive parameters of female wild pigs display a density-dependent response following a concentrated removal effort. We compared reproductive parameters and condition of adult sows that were collected between a control area and a treatment area where lethal removal occurred. From August 2004 to May 2006, we focused a concentrated removal effort within the treatment area. Although the population density was more than 65% greater in the control area than the treatment area during the study, we did not detect differences between areas for condition, litter size, ovarian mass, corpus luteum mass, or corpora lutea number. Several years of heavy mast production during the study may have negated any effect on condition and subsequent reproduction between the 2 study areas. These data suggest that reproductive parameters of wild pigs do not exhibit density-dependence during periods when pig populations are in good condition. © 2012 The Wildlife Society. [ABSTRACT FROM AUTHOR]

Published

2012

3. Host Reproductive Phenology Drives Seasonal Patterns of Host Use in Mosquitoes.

Author

Burkett-Cadena, Nathan D., McClure, Christopher J. W., Ligon, Russell A., Graham, Sean P., Guyer, Craig, Hill, Geoffrey E., Ditchkoff, Stephen S., Eubanks, Micky D., Hassan, Hassan K., and Unnasch, Thomas R.

Subjects

PHENOLOGY, MOSQUITOES, MAMMALS, EPIDEMICS, FORAGING behavior

Abstract

Seasonal shifts in host use by mosquitoes from birds to mammals drive the timing and intensity of annual epidemics of mosquito-borne viruses, such as West Nile virus, in North America. The biological mechanism underlying these shifts has been a matter of debate, with hypotheses falling into two camps: (1) the shift is driven by changes in host abundance, or (2) the shift is driven by seasonal changes in the foraging behavior ofmosquitoes. Here we explored the idea that seasonal changes in host use by mosquitoes are driven by temporal patterns of host reproduction. We investigated the relationship between seasonal patterns of host use by mosquitoes and host reproductive phenology by examining a seven-year dataset of blood meal identifications from a site in Tuskegee National Forest, Alabama USA and data on reproduction from the most commonly utilized endothermic (white-tailed deer, great blue heron, yellow-crowned night heron) and ectothermic (frogs) hosts. Our analysis revealed that feeding on each host peaked during periods of reproductive activity. Specifically, mosquitoes utilized herons in the spring and early summer, during periods of peak nest occupancy, whereas deer were fed upon most during the late summer and fall, the period corresponding to the peak in births for deer. For frogs, however, feeding on early- and lateseason breeders paralleled peaks in male vocalization. We demonstrate for the first time that seasonal patterns of host use by mosquitoes track the reproductive phenology of the hosts. Peaks in relative mosquito feeding on each host during reproductive phases are likely the result of increased tolerance and decreased vigilance to attacking mosquitoes by nestlings and brooding adults (avian hosts), quiescent young (avian and mammalian hosts), and mate-seeking males (frogs). [ABSTRACT FROM AUTHOR]

Published

2011

4. Cohabitation of pregnant white-tailed deer and cattle persistently infected with Bovine viral diarrhea virus results in persistently infected fawns

Author

Passler, Thomas, Walz, Paul H., Ditchkoff, Stephen S., Brock, Kenny V., DeYoung, Randy W., Foley, Aaron M., and Daniel Givens, M.

Subjects

*WHITE-tailed deer, *BOVINE viral diarrhea virus, *VETERINARY virology, *VIRUS isolation, *LIVESTOCK losses, *ENZYME-linked immunosorbent assay, *WILDLIFE research, *REPRODUCTION

Abstract

Abstract: Economic losses due to infection with Bovine viral diarrhea virus (BVDV) have prompted introduction of organized control programs. These programs primarily focus on the removal of persistently infected (PI) animals, the main source of BVDV transmission. Recently, persistent BVDV infection was demonstrated experimentally in white-tailed deer, the most abundant wild ruminant in North America. Contact of cattle and white-tailed deer may result in interspecific BVDV transmission and birth of persistently infected offspring that could be a threat to control programs. The objective of this study was to assess the potential for interspecific BVDV transmission from persistently infected cattle cohabitated with pregnant white-tailed deer. Seven female and one male white-tailed deer were captured and bred in captivity. At approximately 50 days of gestation, two cattle persistently infected with BVDV 1 were cohabitated with the deer. In a pen of approximately 0.8ha, both species shared food and water sources for a period of 60 days. Transmission of BVDV as indicated by seroconversion was demonstrated in all exposed adult deer. Of the seven pregnancies, four resulted in offspring that were infected with BVDV. Persistent infection was demonstrated in three singlet fawns by immunohistochemistry and ELISA on skin samples, PCR, and virus isolation procedures. Furthermore, two stillborn fetuses were apparently persistently infected. This is the first report of BVDV transmission from cattle to white-tailed deer using a model of natural challenge. Under appropriate circumstances, BVDV may efficiently cross the species barrier to cause transplacental infection and persistently infected offspring in a wildlife species. [Copyright &y& Elsevier]

Published

2009