Effects of positive interactions, size-symmetry of competition and abiotic stress on self thinning in simulated plant populations

Cheng-Jin  Chu; Jacob Weiner; Fernando T.  Maestre; Sa  Xiao; Jian-Li  Yuan; Guo-Zhen  Du; Gang  Wang

doi:10.1093/aob/mcq145

Effects of positive interactions, size-symmetry of competition and abiotic stress on self thinning in simulated plant populations

Cheng-Jin Chu, Jacob Weiner, Fernando T. Maestre, Sa Xiao, Jian-Li Yuan, Guo-Zhen Du, Gang Wang

38 Citationer (Scopus)

Abstract

Background and Aims: Competition drives self-thinning (density-dependent mortality) in crowded plant populations. Facilitative interactions have been shown to affect many processes in plant populations and communities, but their effects on self-thinning trajectories have not been investigated. Methods: Using an individual-based 'zone-of-influence' model, we studied the potential effects of the size symmetry of competition, abiotic stress and facilitation on self-thinning trajectories in plant monocultures. In the model, abiotic stress reduced the growth of all individuals and facilitation ameliorated the effects of stress on interacting individuals. Key Results: Abiotic stress made the log biomass - log density relationship during self-thinning steeper, but this effect was reduced by positive interactions among individuals. Size-asymmetric competition also influenced the self-thinning slope. Conclusions: Although competition drives self-thinning, its course can be affected by abiotic stress, facilitation and competitive symmetry.

Originalsprog	Engelsk
Tidsskrift	Annals of Botany
Vol/bind	106
Sider (fra-til)	647-652
Antal sider	6
ISSN	0305-7364
DOI	https://doi.org/10.1093/aob/mcq145
Status	Udgivet - okt. 2010

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10.1093/aob/mcq145

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title = "Effects of positive interactions, size-symmetry of competition and abiotic stress on self thinning in simulated plant populations",

abstract = "Background and Aims: Competition drives self-thinning (density-dependent mortality) in crowded plant populations. Facilitative interactions have been shown to affect many processes in plant populations and communities, but their effects on self-thinning trajectories have not been investigated. Methods: Using an individual-based 'zone-of-influence' model, we studied the potential effects of the size symmetry of competition, abiotic stress and facilitation on self-thinning trajectories in plant monocultures. In the model, abiotic stress reduced the growth of all individuals and facilitation ameliorated the effects of stress on interacting individuals. Key Results: Abiotic stress made the log biomass - log density relationship during self-thinning steeper, but this effect was reduced by positive interactions among individuals. Size-asymmetric competition also influenced the self-thinning slope. Conclusions: Although competition drives self-thinning, its course can be affected by abiotic stress, facilitation and competitive symmetry.",

author = "Cheng-Jin Chu and Jacob Weiner and Maestre, {Fernando T.} and Sa Xiao and Jian-Li Yuan and Guo-Zhen Du and Gang Wang",

year = "2010",

month = oct,

doi = "10.1093/aob/mcq145",

language = "English",

volume = "106",

pages = "647--652",

journal = "Annals of Botany",

issn = "0305-7364",

publisher = "Oxford University Press",

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TY - JOUR

T1 - Effects of positive interactions, size-symmetry of competition and abiotic stress on self thinning in simulated plant populations

AU - Chu, Cheng-Jin

AU - Weiner, Jacob

AU - Maestre, Fernando T.

AU - Xiao, Sa

AU - Yuan, Jian-Li

AU - Du, Guo-Zhen

AU - Wang, Gang

PY - 2010/10

Y1 - 2010/10

N2 - Background and Aims: Competition drives self-thinning (density-dependent mortality) in crowded plant populations. Facilitative interactions have been shown to affect many processes in plant populations and communities, but their effects on self-thinning trajectories have not been investigated. Methods: Using an individual-based 'zone-of-influence' model, we studied the potential effects of the size symmetry of competition, abiotic stress and facilitation on self-thinning trajectories in plant monocultures. In the model, abiotic stress reduced the growth of all individuals and facilitation ameliorated the effects of stress on interacting individuals. Key Results: Abiotic stress made the log biomass - log density relationship during self-thinning steeper, but this effect was reduced by positive interactions among individuals. Size-asymmetric competition also influenced the self-thinning slope. Conclusions: Although competition drives self-thinning, its course can be affected by abiotic stress, facilitation and competitive symmetry.

AB - Background and Aims: Competition drives self-thinning (density-dependent mortality) in crowded plant populations. Facilitative interactions have been shown to affect many processes in plant populations and communities, but their effects on self-thinning trajectories have not been investigated. Methods: Using an individual-based 'zone-of-influence' model, we studied the potential effects of the size symmetry of competition, abiotic stress and facilitation on self-thinning trajectories in plant monocultures. In the model, abiotic stress reduced the growth of all individuals and facilitation ameliorated the effects of stress on interacting individuals. Key Results: Abiotic stress made the log biomass - log density relationship during self-thinning steeper, but this effect was reduced by positive interactions among individuals. Size-asymmetric competition also influenced the self-thinning slope. Conclusions: Although competition drives self-thinning, its course can be affected by abiotic stress, facilitation and competitive symmetry.

U2 - 10.1093/aob/mcq145

DO - 10.1093/aob/mcq145

M3 - Journal article

C2 - 20643802

SN - 0305-7364

VL - 106

SP - 647

EP - 652

JO - Annals of Botany

JF - Annals of Botany

ER -

Effects of positive interactions, size-symmetry of competition and abiotic stress on self thinning in simulated plant populations

Abstract

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