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Oecologia. 2011 Feb;165(2):477-87. doi: 10.1007/s00442-010-1741-y. Epub 2010 Aug 5.

Regeneration niche differentiates functional strategies of desert woody plant species.

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1
School of Life Sciences, Arizona State University, Tempe, AZ 85287-4601, USA. bjbutterfield@gmail.com

Abstract

Plant communities vary dramatically in the number and relative abundance of species that exhibit facilitative interactions, which contributes substantially to variation in community structure and dynamics. Predicting species' responses to neighbors based on readily measurable functional traits would provide important insight into the factors that structure plant communities. We measured a suite of functional traits on seedlings of 20 species and mature plants of 54 species of shrubs from three arid biogeographic regions. We hypothesized that species with different regeneration niches-those that require nurse plants for establishment (beneficiaries) versus those that do not (colonizers)-are functionally different. Indeed, seedlings of beneficiary species had lower relative growth rates, larger seeds and final biomass, allocated biomass toward roots and height at a cost to leaf mass fraction, and constructed costly, dense leaf and root tissues relative to colonizers. Likewise at maturity, beneficiaries had larger overall size and denser leaves coupled with greater water use efficiency than colonizers. In contrast to current hypotheses that suggest beneficiaries are less "stress-tolerant" than colonizers, beneficiaries exhibited conservative functional strategies suited to persistently dry, low light conditions beneath canopies, whereas colonizers exhibited opportunistic strategies that may be advantageous in fluctuating, open microenvironments. In addition, the signature of the regeneration niche at maturity indicates that facilitation expands the range of functional diversity within plant communities at all ontogenetic stages. This study demonstrates the utility of specific functional traits for predicting species' regeneration niches in hot deserts, and provides a framework for studying facilitation in other severe environments.

PMID:
20686787
PMCID:
PMC3021705
DOI:
10.1007/s00442-010-1741-y
[Indexed for MEDLINE]
Free PMC Article
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