1994
DOI: 10.1139/x94-118
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Landscape-scale heterogeneity in lodgepole pine serotiny

Abstract: A 1992 study of serotiny in lodgepole pine (Pinuscontorta Dougl. ex Loud. var. latifolia Engelm.) in Yellowstone National Park asked four questions: (i) are there morphological characteristics that can be used to estimate pre-fire proportion of serotinous trees in forests that burned in 1988?; (ii) at what spatial scale does percent serotinous trees vary across the landscape?; (iii) which environmental factors are correlated with serotiny?; and (iv) what is the relationship between prefire serotiny and postfir… Show more

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Cited by 99 publications
(122 citation statements)
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“…At the community and ecosystem levels, the degree of prefire serotiny affects postfire seedling density. Following widespread fires in the GYE, lodgepole pine sapling density varied over several orders of magnitude (0-500,000+ seedlings per ha), and this variation was most strongly explained by the prefire frequency of serotiny (9)(10)(11)13). Unsurprisingly, this extreme variation in sapling density had significant community-and ecosystem-level consequences as well (9,(11)(12)(13).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…At the community and ecosystem levels, the degree of prefire serotiny affects postfire seedling density. Following widespread fires in the GYE, lodgepole pine sapling density varied over several orders of magnitude (0-500,000+ seedlings per ha), and this variation was most strongly explained by the prefire frequency of serotiny (9)(10)(11)13). Unsurprisingly, this extreme variation in sapling density had significant community-and ecosystem-level consequences as well (9,(11)(12)(13).…”
Section: Discussionmentioning
confidence: 99%
“…Following widespread fires in the GYE, lodgepole pine sapling density varied over several orders of magnitude (0-500,000+ seedlings per ha), and this variation was most strongly explained by the prefire frequency of serotiny (9)(10)(11)13). Unsurprisingly, this extreme variation in sapling density had significant community-and ecosystem-level consequences as well (9,(11)(12)(13). Sparse recovery may allow for the colonization of other ecosystem types that would otherwise be outcompeted, increasing landscape heterogeneity (12) processes (10), and postfire annual net primary productivity and total leaf area are strongly associated with lodgepole pine sapling density (13).…”
Section: Discussionmentioning
confidence: 99%
“…Variability in lodgepole pine cone serotiny among stands is striking, and many studies have examined its relationship to fire (e.g., Clements, 1910;Critchfield, 1957;Lotan, 1970Lotan, , 1975Pfister and Daubenmire, 1975;Muir and Lotan, 1985a,b;Koch, 1987;Tinker et al, 1994;Schoennagel et al, 2003). In the Intermountain and Rocky Mountain regions, the percentage of trees bearing serotinous cones increases with latitude (Koch, 1987).…”
Section: Introductionmentioning
confidence: 99%
“…Denitrification rates vary in response to changes in interstitial soil water content (Christensen et al 1990), and nutrient levels may reflect the spacing of individual plants (Schlesinger et al 1990;Jackson and Caldwell 1993) or the distribution of vegetation types across landscapes (Fan et al 1998;Ludwig et al 2000;Beedlow et al 2004). After disturbance, patterns of forest productivity and soil nutrient availability may vary spatially at fine and coarse scales (Tinker et al 1994;Turner et al 1997;Fraterrigo et al in press).…”
Section: Introductionmentioning
confidence: 99%