Size matters for linking traits to ecosystem multifunctionality

Chao Guo; En Rong Yan; J. Hans C. Cornelissen

doi:10.1016/j.tree.2022.06.003

Size matters for linking traits to ecosystem multifunctionality

Chao Guo
, En Rong Yan^*
, J. Hans C. Cornelissen

^*Corresponding author for this work

School of Ecology and Environmental Sciences

Research output: Contribution to journal › Review article › peer-review

23 Scopus citations

Abstract

A priority research field addresses how to optimize diverse ecosystem services to people, including biodiversity support, regulatory, utilitarian and cultural services. This field may benefit from linking ecosystem services to the sizes of different body parts of organisms, with functional traits as the go-between. Using woody ecosystems to explore such linkages, we hypothesize that across stem diameter classes from trunk via branches to twigs, key wood and bark functional traits (especially those defining size-shape and resource economics spectra) vary both within individual trees and shrubs and across woody species, thereby together boosting ecosystem multifunctionality. While we focus on woody plants aboveground, we discuss promising extensions to belowground organs of trees and shrubs and analogs with other organisms, for example, vertebrate animals.

Original language	English
Pages (from-to)	803-813
Number of pages	11
Journal	Trends in Ecology and Evolution
Volume	37
Issue number	9
DOIs	https://doi.org/10.1016/j.tree.2022.06.003
State	Published - Sep 2022

Keywords

diameter variance
ecosystem functions
ecosystem services
plant economic spectrum
size and shape spectrum

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title = "Size matters for linking traits to ecosystem multifunctionality",

abstract = "A priority research field addresses how to optimize diverse ecosystem services to people, including biodiversity support, regulatory, utilitarian and cultural services. This field may benefit from linking ecosystem services to the sizes of different body parts of organisms, with functional traits as the go-between. Using woody ecosystems to explore such linkages, we hypothesize that across stem diameter classes from trunk via branches to twigs, key wood and bark functional traits (especially those defining size-shape and resource economics spectra) vary both within individual trees and shrubs and across woody species, thereby together boosting ecosystem multifunctionality. While we focus on woody plants aboveground, we discuss promising extensions to belowground organs of trees and shrubs and analogs with other organisms, for example, vertebrate animals.",

keywords = "diameter variance, ecosystem functions, ecosystem services, plant economic spectrum, size and shape spectrum",

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AU - Guo, Chao

AU - Yan, En Rong

AU - Cornelissen, J. Hans C.

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N2 - A priority research field addresses how to optimize diverse ecosystem services to people, including biodiversity support, regulatory, utilitarian and cultural services. This field may benefit from linking ecosystem services to the sizes of different body parts of organisms, with functional traits as the go-between. Using woody ecosystems to explore such linkages, we hypothesize that across stem diameter classes from trunk via branches to twigs, key wood and bark functional traits (especially those defining size-shape and resource economics spectra) vary both within individual trees and shrubs and across woody species, thereby together boosting ecosystem multifunctionality. While we focus on woody plants aboveground, we discuss promising extensions to belowground organs of trees and shrubs and analogs with other organisms, for example, vertebrate animals.

AB - A priority research field addresses how to optimize diverse ecosystem services to people, including biodiversity support, regulatory, utilitarian and cultural services. This field may benefit from linking ecosystem services to the sizes of different body parts of organisms, with functional traits as the go-between. Using woody ecosystems to explore such linkages, we hypothesize that across stem diameter classes from trunk via branches to twigs, key wood and bark functional traits (especially those defining size-shape and resource economics spectra) vary both within individual trees and shrubs and across woody species, thereby together boosting ecosystem multifunctionality. While we focus on woody plants aboveground, we discuss promising extensions to belowground organs of trees and shrubs and analogs with other organisms, for example, vertebrate animals.

KW - diameter variance

KW - ecosystem functions

KW - ecosystem services

KW - plant economic spectrum

KW - size and shape spectrum

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DO - 10.1016/j.tree.2022.06.003

M3 - 文献综述

C2 - 35810137

AN - SCOPUS:85133648635

SN - 0169-5347

VL - 37

SP - 803

EP - 813

JO - Trends in Ecology and Evolution

JF - Trends in Ecology and Evolution

IS - 9

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Size matters for linking traits to ecosystem multifunctionality

Abstract

Keywords

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