Christina Slover scite author profile

Christina Slover

3Publications

6Citation Statements Received

106Citation Statements Given

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105

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West Virginia University

Publications

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Analysis of wood thrush (Hylocichla mustelina) movement patterns to explain the spatial structure of American ginseng (Panax quinquefolius) populations

Elza

Slover

McGraw

2015

Ecological Research

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American ginseng (Panax quinquefolius) is America's premier wild‐harvested, medicinal plant that inhabits the forest understory of eastern deciduous forests. Recent research revealed that birds, particularly wood thrushes (Hylocichla mustelina), disperse ginseng seeds by regurgitating viable seeds 15–37 min after consuming the berries. We carried out two studies to examine the potential effect of thrushes on spatial dispersion patterns of ginseng. First, to analyze how far wood thrushes could disperse seeds, two wood thrushes were outfitted with radio transmitters and tracked for multiple days. Second, for 28 natural populations of ginseng, we created a clustering index to quantify to what degree populations were structured into spatially separated units. To further detect spatial impacts of thrushes, we analyzed inter‐cluster distances and the overall spread of ginseng populations. Over the time period in which wood thrushes retain ginseng in their guts, the seeds would be dispersed a mean distance of 15.2–21.7 m. The observed distances ranged from 0–96.6 m. These distances were comparable to the overall spread metric for ginseng populations with wood thrushes, which had increased spacing in comparison to those without wood thrushes. The mean dispersion index differed for populations with and without wood thrushes. It is imperative to understand the interaction between wood thrushes and ginseng to facilitate conservation, as both species are experiencing population declines. Dispersal of seeds by wood thrushes could play an important role in allowing species such as ginseng to respond to climate change, deer browse, overharvesting, and other environmental stresses.

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Eastern Whip-Poor-Wills (Antrostomus vociferus) Are Positively Associated With Low Elevation Forest In the Central Appalachians

Slover

Katzner

2016

The Wilson Journal of Ornithology

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Impacts of forest management and habitat change on declining avian species in West Virginia

Slover¹

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Understanding the impacts of forest management and severe storms on avian communities can assist decision making for specific wildlife and timber management goals. This is important because even carefully managed forests will be influenced by a combination of anthropogenic activities and non-anthropogenic forces. I studied the effects of prescribed burning and severe storm events on vegetation structure and avian community diversity and structure in the Monongahela National Forest in central West Virginia. I observed dramatic responses from vegetation structure to prescribed burning but few changes in avian abundances. I measured further impacts, particularly understory vegetation structure, in our forest stands after the occurrence of two severe storms. I also was able to measure a greater response by my aerial insectivore species to the combination of management and storm impacts. My results suggested that infrequent low-intensity prescribed burning did not cause dramatic changes to avian abundance. However, when severe storm impacts were added to the management regime, the impacts to vegetation became consequential enough that high priority and aerial insectivore bird species were also impacted. Populations of the eastern whip-poor-will (Antrostomus vociferus) are declining due to a range of potential factors including habitat loss, pesticide use and predation. However, because this species is nocturnal, it is poorly studied and neither its ecology nor its demographic status are well measured by traditional bird surveys like the Christmas Bird Count, Breeding Bird Surveys, and point count surveys. Therefore, I studied habitat associations and distribution of eastern whip-poor-wills, to better understand and contextualize their population status and to provide a framework for future research and management. Transect data were analyzed with occupancy models to associate presence of whip-poor-wills with habitat characteristics. I observed habitat associations of and annual differences in both presence and density of whippoor-wills. Whip-poor-wills most frequently occupied areas lower in elevation and mixed forest, herbaceous, as well as wetland cover types. In contrast, high elevation evergreen forest communities had substantially fewer whip-poor-wills. My results suggest that recent recovery of agricultural fields and clearings to forested habitat may be contributing factors to whip-poor-will declines.

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