Forest disturbance in hurricane-related downbursts in the Appalachian mountains of North Carolina

We characterized five 0.2–1.1 ha gaps created by downbursts during Hurricane Opal in xeric oak forest at the Bent Creek Experimental Forest, Asheville, NC. Direction of windthrow was nonrandom in four of the five gaps, but differed among gaps suggesting that each was caused by an independent downbur...

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Bibliographic Details
Published in:Forest ecology and management 1998-05, Vol.104 (1), p.179-191
Main Authors: Greenberg, Cathryn H, McNab, W.Henry
Format: Article
Language:English
Subjects:
Animal, plant and microbial ecology
Applied ecology
Biological and medical sciences
CARACTERISTICAS DEL RODAL
CARACTERISTIQUE DU PEUPLEMENT
CAROLINA DEL NORTE
CAROLINE DU NORD
CICLONES
Conservation, protection and management of environment and wildlife
CYCLONE
CYCLONES
DANOS POR EL VIENTO
DEGAT DU AU VENT
Environmental degradation: ecosystems survey and restoration
Fundamental and applied biological sciences. Psychology
Gap dynamics
NORTH CAROLINA
Phytopathology. Animal pests. Plant and forest protection
QUERCUS
Soil disturbance
STAND CHARACTERISTICS
Treefall
Uproot
Weather damages
Weather damages. Fires
WIND DAMAGE
Wind disturbance
Windthrow
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Summary:We characterized five 0.2–1.1 ha gaps created by downbursts during Hurricane Opal in xeric oak forest at the Bent Creek Experimental Forest, Asheville, NC. Direction of windthrow was nonrandom in four of the five gaps, but differed among gaps suggesting that each was caused by an independent downburst. Windthrows reduced tree density by 19–39% and basal area (BA) by 30–53% within gaps. Most windthrows were uprooted (17–38% of all trees) versus broken below 1.8 m height (0–3%). Most species were uprooted in proportion to their abundance regardless of canopy position. Red oaks ( Quercus coccinea, Quercus rubra and Quercus velutina) were disproportionately uprooted, while Nyssa sylvatica and Acer rubrum were resistant to uprooting. As a group, Quercus lost 27–47% of individuals and 41–50% of BA. Q. coccinea lost ≥44% of trees and >55% of BA in sites where it occurred. Only minor shifts in canopy species dominance were evident. For several species, significantly more large-diameter individuals uprooted than their smaller counterparts. No relationship between dbh and number uprooted was detected for the red oaks, however. Canopy position appeared to have little bearing on this relationship. Uprooting disturbed 1.6–4.3% of the ground area and displaced 130–587 m 3 of root–soil–rock masses (rootmasses) per gap. We suggest that episodic, high-intensity wind is not uncommon, and has a substantial influence on forest structure, species composition, regeneration and microtopography of the southern Appalachian mountains at variable scales.
ISSN:0378-1127
1872-7042
DOI:10.1016/S0378-1127(97)00246-6