Temporal and Ecological Patterns of Flowering Dogwood Mortality in the Mixed Mesophytic Forest of Eastern Kentucky

Document Type

Article

Publication Date

7-1-2000

Publication Source

Journal of the Torrey Botanical Society

Abstract

Temporal and ecological patterns of flowering dogwood mortality in the mixed mesophytic forest of eastern Kentucky (J. Torrey Bot. Soc. 127:221-229. 2000). Since its discovery in 1977, the fungal pathogen Discula destructiva (Redlin) has depressed flowering dogwood (Cornus florida L.) populations throughout most of its native range. We examined the impacts of the Cornus florida-Discula destructiva disease complex in an old-growth forest and a second-growth forest focusing on long-term trends in flowering dogwood mortality and how those trends were manifested across a range of ecological communities. The study sites were located on the Cumberland Plateau of southeastern Kentucky and were similar in terms of climate and topography. In the second-growth forest flowering dogwood stem density declined significantly from 120 stems/ha in 1992 to 62 stems/ha in 1998 (48%, 8% per year), coincident with our expectations for dogwood anthracnose-related mortality. However, in the old-growth forest, flowering dogwood stem density declined uniformly over a much longer period: 106 stems/ha (1979), 68 stems/ha (1989), and 42 stems/ha (1998; 60%, 3.1% per year). Dogwood anthracnose was not known to be present in eastern Kentucky between 1979 and 1989; therefore, it cannot be implicated as the agent individually responsible for all of the flowering dogwood mortality in the old-growth forest. In both forests, dogwood stem density and mortality were concentrated in the xeric forest communities. This concentration of mortality in drier communities and the long-term trend in mortality contradict prevailing ideas about the impacts and site characteristics of dogwood anthracnose. Observations of the degree of anthracnose infection among mature stems, saplings and seedlings suggest that the current decline in the flowering dogwood population will continue into the next generation. This study demonstrates that seemingly clear trends in anthracnose-related mortality may be blurred by long-term mortality trends.

Inclusive pages

221-229

ISBN/ISSN

Print ISSN: 1095-5674; Online ISSN: 1940-0616

Publisher

Torrey Botanical Society

Volume

127

Peer Reviewed

yes

Issue

3

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