An allometry perspective on crops

Adrianus J. Westgeest; François Vasseur; Brian J. Enquist; Rubén Milla; Alicia Gómez-Fernández; David Pot; Denis Vile; Cyrille Violle

doi:10.1111/nph.20129

An allometry perspective on crops

Adrianus J. Westgeest, François Vasseur, Brian J. Enquist, Rubén Milla, Alicia Gómez-Fernández, David Pot, Denis Vile, Cyrille Violle

Ecology and Evolutionary Biology

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

Abstract

Understanding trait–trait coordination is essential for successful plant breeding and crop modeling. Notably, plant size drives variation in morphological, physiological, and performance-related traits, as described by allometric laws in ecology. Yet, as allometric relationships have been limitedly studied in crops, how they influence and possibly limit crop performance remains unknown. Here, we review how an allometry perspective on crops gains insights into the phenotypic evolution during crop domestication, the breeding of varieties adapted to novel conditions, and the prediction of crop yields. As allometry is an active field of research, modeling and manipulating crop allometric relationships can help to develop more resilient and productive agricultural systems to face future challenges.

Original language	English (US)
Pages (from-to)	1223-1237
Number of pages	15
Journal	New Phytologist
Volume	244
Issue number	4
DOIs	https://doi.org/10.1111/nph.20129
State	Published - Nov 2024

Keywords

allometry
crop modeling
evolution under cultivation
metabolic scaling theory
modern breeding
plant domestication
plant size
trait–size relationships

ASJC Scopus subject areas

Physiology
Plant Science

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10.1111/nph.20129

Cite this

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title = "An allometry perspective on crops",

abstract = "Understanding trait–trait coordination is essential for successful plant breeding and crop modeling. Notably, plant size drives variation in morphological, physiological, and performance-related traits, as described by allometric laws in ecology. Yet, as allometric relationships have been limitedly studied in crops, how they influence and possibly limit crop performance remains unknown. Here, we review how an allometry perspective on crops gains insights into the phenotypic evolution during crop domestication, the breeding of varieties adapted to novel conditions, and the prediction of crop yields. As allometry is an active field of research, modeling and manipulating crop allometric relationships can help to develop more resilient and productive agricultural systems to face future challenges.",

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language = "English (US)",

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AU - Westgeest, Adrianus J.

AU - Vasseur, François

AU - Enquist, Brian J.

AU - Milla, Rubén

AU - Gómez-Fernández, Alicia

AU - Pot, David

AU - Vile, Denis

AU - Violle, Cyrille

PY - 2024/11

Y1 - 2024/11

N2 - Understanding trait–trait coordination is essential for successful plant breeding and crop modeling. Notably, plant size drives variation in morphological, physiological, and performance-related traits, as described by allometric laws in ecology. Yet, as allometric relationships have been limitedly studied in crops, how they influence and possibly limit crop performance remains unknown. Here, we review how an allometry perspective on crops gains insights into the phenotypic evolution during crop domestication, the breeding of varieties adapted to novel conditions, and the prediction of crop yields. As allometry is an active field of research, modeling and manipulating crop allometric relationships can help to develop more resilient and productive agricultural systems to face future challenges.

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KW - evolution under cultivation

KW - metabolic scaling theory

KW - modern breeding

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KW - plant size

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An allometry perspective on crops

Abstract

Keywords

ASJC Scopus subject areas

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