Susan Power Bratton scite author profile

The ecological literature on eastern forest‐floor herbs and data collected in the southern Appalachians in Tennessee and North Carolina suggest five possible ecological mechanisms for reducing or limiting alpha diversity of vernal herbs in logged stands, three of which may also account for the slow recovery of some herbaceous species: (1) logging reduces populations of rarer herbs; (2) populations of forest‐floor species are further reduced during the successional stages following logging, either by inability to adapt to changed microclimate or by competition with r‐selected species that are better dispersers and better able to tolerate desiccation and increased radiation; (3) forest‐floor herbs have slow growth and reproduction rates, thus population densities increase slowly; (4) many forest‐floor herbs are clonal, ant‐dispersed, or gravity‐dispersed, thus they are slow to reoccupy suitable habitat once extirpated or greatly reduced in population numbers; and (5) logging results in less‐than‐optimal conditions for forest‐floor herb reproduction by modifying microhabitats on the forest floor and by temporarily eliminating gap‐phase succession. The data indicate some species of vernal herbs are far more tolerant of disturbance than others, and that sensitive species can be identified and utilized as indicators of community integrity and diversity.

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Urbanization is a major influence on microplastic ingestion by sunfish in the Brazos River Basin, Central Texas, USA

Peters

Bratton

2016

Environmental Pollution

366

130

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Resource Division in an Understory Herb Community: Responses to Temporal and Microtopographic Gradients

Bratton¹

1976

The American Naturalist

188

104

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The Effect of the European Wild Boar, Sus scrofa, on Gray Beech Forest in the Great Smoky Mountains

Bratton

1975

Ecology

172

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The European wild boar Sus scrofa L., an exotic species, entered the Great Smoky Mountains National Park during the 1940s. Because of their high reproductive potential and their adverse impact on the native flora and fauna, the wild hogs have become a major management problem within the park. During the summer of 1973, quadrat sampling of the canopy and understory of Gray Beech Forest was conducted in both the hog—free and hog—occupied sectors of the park. Removal of the herbaceous understory and other types of hog rooting damage showed no direct relationship to the importance of any individual canopy species, including beech Fagus grandifolia. Cover reduction was related, however, to the importance of mesic herbs in a plot. Polynomial and Gaussian regressions of cover against indirect ordination axes indicate that hog rooting within Gray Beech Forest is most intense in the mesic portion of the moisture gradient and decreases both on xeric, south—facing slopes and on more mesic, north—facing slopes. Understory cover in the most severely damaged plots was between 2% and 15%, while understory cover in hog—free plots in the same position on the moisture gradient was usually between 80% and 110%. Hog rooting significantly reduced the number of species in the most disturbed plots but had no effect on the H' values of the largest plot sizes sampled. High H' values for the damaged plots are related to the lack of succession after disturbance of the understory without removal of the canopy.

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