1999
DOI: 10.1016/s0378-1127(98)00482-4
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Snag dynamics and cavity occurrence in the South Carolina Piedmont

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Cited by 78 publications
(63 citation statements)
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“…Jenkins et al (2004) found that mature stands had a relatively low basal area of standing dead wood compared to older silvicultural openings, which were still undergoing stem exclusion in hardwood forests. Similarly, Moorman et al (1999), who examined snags in plantations, found that snag density was lowest in the oldest loblolly pine plantations in South Carolina, USA, and suggested that regenerating stands may have high densities of small snags as a result of density-dependent tree mortality. Snags are mostly created by self-thinning during the stem-exclusion phase of stand development (Bobiec 2002, Norden et al 2004, Angers et al 2005.…”
Section: Discussionmentioning
confidence: 98%
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“…Jenkins et al (2004) found that mature stands had a relatively low basal area of standing dead wood compared to older silvicultural openings, which were still undergoing stem exclusion in hardwood forests. Similarly, Moorman et al (1999), who examined snags in plantations, found that snag density was lowest in the oldest loblolly pine plantations in South Carolina, USA, and suggested that regenerating stands may have high densities of small snags as a result of density-dependent tree mortality. Snags are mostly created by self-thinning during the stem-exclusion phase of stand development (Bobiec 2002, Norden et al 2004, Angers et al 2005.…”
Section: Discussionmentioning
confidence: 98%
“…Carmona et al (2002) found that snag density and volume were high in early successional areas, but low in old-growth areas in a temperate forest in Chile, whereas Spetich et al (1999) found that snag volume was greater in old-growth than in secondgrowth stands in a forest in the midwestern USA. However, studies of snags (Green and Peterken 1997, Moorman et al 1999, Gjerde et al 2005 and coarse woody debris (CWD; Kanowski et al 2003, McCay andKamoroski 2004) in plantations are limited. Although self-thinning processes of planted trees in plantations have been studied to develop the growth models and predict the yield (e.g., John and James 1977), such studies were focusing on how to minimize snags by management (e.g., thinning) and there were few studies focusing on snags of both planted and naturally regenerated trees in plantations.…”
Section: Introductionmentioning
confidence: 99%
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“…Independently of vegetation physiognomy and structure, the number of cavities increases with the age of trees; aging increases the amount of rotten wood available for the action of physical and biological agents (Moorman et al 1999). Eventually, forest senescence can reach an equilibrium, where the rate of cavity increase is compensated by the rate of cavity decrease due to the falling of trees and their further deterioration by the natural closing and filling of cavities by debris and organic matter.…”
Section: Origin and Availability Of Cavities In Woodmentioning
confidence: 99%
“…In temperate forests, the greater the biomass or volume of a tree, the longer it stands in deterioration (Newton 1994, Moorman et al 1999, Ganey & Vojta 2004, Spiering & Knight 2005.Therefore, the variability of cavity sizes and animals that explore these trees is greater. In periodically disturbed environments (e.g.…”
Section: Origin and Availability Of Cavities In Woodmentioning
confidence: 99%