Self-thinning in early postfire chaparral succession: mechanisms, implications, and a combined approach

Self-thinning in early postfire chaparral succession: mechanisms, implications, and a combined approach

For two consecutive years (1995 and 1996), the self-thinning processes in nearly pure, even-aged stands of four dominant postfire chaparral species on Santa Monica Mountains, Southern California were quantified through the use of the "upper thinning boundary" and regression lines. During t...

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Bibliographic Details
Published in:Ecology (Durham) Vol. 79; no. 2; pp. 579 - 586
Main Authors: Guo, Qinfeng, Rundel, Philip W.
Format: Journal Article
Language:English
Published: Washington, DC Ecological Society of America 01-03-1998
Subjects:
Animal, plant and microbial ecology
Applied ecology
Biological and medical sciences
Biomass
CALIFORNIA
California chaparral
CALIFORNIE
Chaparral
Chaparral ecology
COMPETICION VEGETAL
competition
COMPETITION VEGETALE
Conservation, protection and management of environment and wildlife
ECOLOGICAL SUCCESSION
Ecology
Environmental degradation: ecosystems survey and restoration
FIRES
Forest & brush fires
Forest ecology
Fundamental and applied biological sciences. Psychology
Geometric lines
INCENDIE
INCENDIOS
MATORRAL
PLANT COMPETITION
Plant ecology
PLANT SUCCESSION
Plant thinning
Plants
Population
Population ecology
postfire succession
regression slopes
SCRUB
self-thinning law
Species
SUCCESSION ECOLOGIQUE
SUCESION ECOLOGICA
Trees
upper thinning boundary
California
United States
North America
America
Santa Monica Mountains
Vegetation type
Mountain
Interspecific competition
Regression analysis
Vegetation succession
Canopy gap
Canopy fire
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Summary:For two consecutive years (1995 and 1996), the self-thinning processes in nearly pure, even-aged stands of four dominant postfire chaparral species on Santa Monica Mountains, Southern California were quantified through the use of the "upper thinning boundary" and regression lines. During thinning, these species became less dense and more evenly distributed over space, but the total biomass significantly increased; the upper thinning boundaries (of total biomass) of all four species were better described by a slope of -1/2. In contrast, regression slopes of either total biomass or mean biomass per individual against density tended to be shallower than the upper thinning lines. The regression slopes were significantly shallower in 1995 than in 1996, indicating that self-thinning became more evident as biomass accumulated. The differences in regression slopes among species suggested that the stands of these four species were developing under different physical or biological regimes. Self-thinning was closely related to successional species replacement, and changes in canopy structure might be the main cause of variations in the biomass-density relationships. Use of both upper thinning line and regressions could greatly improve our understanding of self-thinning processes and their implications for chaparral succession.
Bibliography:1997059836
F40
Present address:Department of Forestry, Fisheries, and Wildlife, 102 Plant Industry, University of Nebraska, Lincoln, Nebraska 68583‐0814 USA.
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0012-9658
1939-9170
DOI:10.1890/0012-9658(1998)079[0579:STIEPC]2.0.CO;2