Understory Plant Community Composition Is Associated with Fine-Scale Above- and Below-Ground Resource Heterogeneity in Mature Lodgepole Pine (Pinus contorta) Forests

Understory Plant Community Composition Is Associated with Fine-Scale Above- and Below-Ground Resource Heterogeneity in Mature Lodgepole Pine (Pinus contorta) Forests

Understory plant communities play critical ecological roles in forest ecosystems. Both above- and below-ground ecosystem properties and processes influence these communities but relatively little is known about such effects at fine (i.e., one to several meters within-stand) scales, particularly for...

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Published in:PloS one Vol. 11; no. 3; p. e0151436
Main Authors: McIntosh, Anne C S, Macdonald, S Ellen, Quideau, Sylvie A
Format: Journal Article
Language:English
Published: United States Public Library of Science 14-03-2016
Public Library of Science (PLoS)
Subjects:
Abies lasiocarpa
Animal behavior
Bacteria - metabolism
Biodiversity
Biology and Life Sciences
Biomarkers - metabolism
Boron
Canopies
Community composition
Coniferous forests
Disturbance
Ecological effects
Ecology
Ecology and Environmental Sciences
Ecosystem
Environmental aspects
Environmental changes
Fatty acids
Forest ecology
Forest ecosystems
Forest floor
Forests
Heterogeneity
Indicator species
Light
Litter
Measuring instruments
Microorganisms
Multivariate analysis
Nitrogen
Nutrient availability
Ordination
pH effects
Phospholipids
Phospholipids - metabolism
Physical Sciences
Pine trees
Pines
Pinus - physiology
Pinus contorta
Plant communities
Plant populations
Properties (attributes)
Redundancy
Renewable resources
Soil nutrients
Soil sciences
Species Specificity
Studies
Substrates
Terrestrial ecosystems
Understory
Variation
Wood
Canada
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Summary:Understory plant communities play critical ecological roles in forest ecosystems. Both above- and below-ground ecosystem properties and processes influence these communities but relatively little is known about such effects at fine (i.e., one to several meters within-stand) scales, particularly for forests in which the canopy is dominated by a single species. An improved understanding of these effects is critical for understanding how understory biodiversity is regulated in such forests and for anticipating impacts of changing disturbance regimes. Our primary objective was to examine the patterns of fine-scale variation in understory plant communities and their relationships to above- and below-ground resource and environmental heterogeneity within mature lodgepole pine forests. We assessed composition and diversity of understory vegetation in relation to heterogeneity of both the above-ground (canopy tree density, canopy and tall shrub basal area and cover, downed wood biomass, litter cover) and below-ground (soil nutrient availability, decomposition, forest floor thickness, pH, and phospholipid fatty acids (PLFAs) and multiple carbon-source substrate-induced respiration (MSIR) of the forest floor microbial community) environment. There was notable variation in fine-scale plant community composition; cluster and indicator species analyses of the 24 most commonly occurring understory species distinguished four assemblages, one for which a pioneer forb species had the highest cover levels, and three others that were characterized by different bryophyte species having the highest cover. Constrained ordination (distance-based redundancy analysis) showed that two above-ground (mean tree diameter, litter cover) and eight below-ground (forest floor pH, plant available boron, microbial community composition and function as indicated by MSIR and PLFAs) properties were associated with variation in understory plant community composition. These results provide novel insights into the important ecological associations between understory plant community composition and heterogeneity in ecosystem properties and processes within forests dominated by a single canopy species.
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Conceived and designed the experiments: ACSM SEM SAQ. Performed the experiments: ACSM. Analyzed the data: ACSM SEM. Contributed reagents/materials/analysis tools: SEM SAQ. Wrote the paper: ACSM SEM SAQ.
Competing Interests: The authors have declared that no competing interests exist.
Current address: Department of Science, Augustana Faculty, University of Alberta, Camrose, Alberta, Canada
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0151436