Leaf size of woody dicots predicts ecosystem primary productivity

Yaoqi Li; Peter B. Reich; Bernhard Schmid; Nawal Shrestha; Xiao Feng; Tong Lyu; Brian S. Maitner; Xiaoting Xu; Yichao Li; Dongting Zou; Zheng-Hong Tan; Xiangyan Su; Zhiyao Tang; Qinghua Guo; Xiaojuan Feng; Brian J. Enquist; Zhiheng Wang

doi:10.1111/ele.13503

Leaf size of woody dicots predicts ecosystem primary productivity

Yaoqi Li, Peter B. Reich, Bernhard Schmid, Nawal Shrestha, Xiao Feng, Tong Lyu, Brian S. Maitner, Xiaoting Xu, Yichao Li, Dongting Zou, Zheng-Hong Tan, Xiangyan Su, Zhiyao Tang, Qinghua Guo, Xiaojuan Feng, Brian J. Enquist, Zhiheng Wang

Western Sydney University

Research output: Contribution to journal › Article › peer-review

55 Citations (Scopus)

Abstract

A key challenge in ecology is to understand the relationships between organismal traits and ecosystem processes. Here, with a novel dataset of leaf length and width for 10 480 woody dicots in China and 2374 in North America, we show that the variation in community mean leaf size is highly correlated with the variation in climate and ecosystem primary productivity, independent of plant life form. These relationships likely reflect how natural selection modifies leaf size across varying climates in conjunction with how climate influences canopy total leaf area. We find that the leaf size-primary productivity functions based on the Chinese dataset can predict productivity in North America and vice-versa. In addition to advancing understanding of the relationship between a climate-driven trait and ecosystem functioning, our findings suggest that leaf size can also be a promising tool in palaeoecology for scaling from fossil leaves to palaeo-primary productivity of woody ecosystems.

Original language	English
Pages (from-to)	1003-1013
Number of pages	11
Journal	Ecology Letters
Volume	23
Issue number	6
DOIs	https://doi.org/10.1111/ele.13503
Publication status	Published - 2020

Open Access - Access Right Statement

© 2020 The Authors. Ecology Letters published by CNRS and John Wiley & Sons Ltd This is an open access article under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Keywords

China
ecosystems
evapotranspiration
leaves
measurement

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10.1111/ele.13503

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@article{047187428123465c80cb674e081c3b8f,

title = "Leaf size of woody dicots predicts ecosystem primary productivity",

abstract = "A key challenge in ecology is to understand the relationships between organismal traits and ecosystem processes. Here, with a novel dataset of leaf length and width for 10 480 woody dicots in China and 2374 in North America, we show that the variation in community mean leaf size is highly correlated with the variation in climate and ecosystem primary productivity, independent of plant life form. These relationships likely reflect how natural selection modifies leaf size across varying climates in conjunction with how climate influences canopy total leaf area. We find that the leaf size-primary productivity functions based on the Chinese dataset can predict productivity in North America and vice-versa. In addition to advancing understanding of the relationship between a climate-driven trait and ecosystem functioning, our findings suggest that leaf size can also be a promising tool in palaeoecology for scaling from fossil leaves to palaeo-primary productivity of woody ecosystems.",

keywords = "China, ecosystems, evapotranspiration, leaves, measurement",

author = "Yaoqi Li and Reich, {Peter B.} and Bernhard Schmid and Nawal Shrestha and Xiao Feng and Tong Lyu and Maitner, {Brian S.} and Xiaoting Xu and Yichao Li and Dongting Zou and Zheng-Hong Tan and Xiangyan Su and Zhiyao Tang and Qinghua Guo and Xiaojuan Feng and Enquist, {Brian J.} and Zhiheng Wang",

year = "2020",

doi = "10.1111/ele.13503",

language = "English",

volume = "23",

pages = "1003--1013",

journal = "Ecology Letters",

issn = "1461-023X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "6",

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TY - JOUR

T1 - Leaf size of woody dicots predicts ecosystem primary productivity

AU - Li, Yaoqi

AU - Reich, Peter B.

AU - Schmid, Bernhard

AU - Shrestha, Nawal

AU - Feng, Xiao

AU - Lyu, Tong

AU - Maitner, Brian S.

AU - Xu, Xiaoting

AU - Li, Yichao

AU - Zou, Dongting

AU - Tan, Zheng-Hong

AU - Su, Xiangyan

AU - Tang, Zhiyao

AU - Guo, Qinghua

AU - Feng, Xiaojuan

AU - Enquist, Brian J.

AU - Wang, Zhiheng

PY - 2020

Y1 - 2020

N2 - A key challenge in ecology is to understand the relationships between organismal traits and ecosystem processes. Here, with a novel dataset of leaf length and width for 10 480 woody dicots in China and 2374 in North America, we show that the variation in community mean leaf size is highly correlated with the variation in climate and ecosystem primary productivity, independent of plant life form. These relationships likely reflect how natural selection modifies leaf size across varying climates in conjunction with how climate influences canopy total leaf area. We find that the leaf size-primary productivity functions based on the Chinese dataset can predict productivity in North America and vice-versa. In addition to advancing understanding of the relationship between a climate-driven trait and ecosystem functioning, our findings suggest that leaf size can also be a promising tool in palaeoecology for scaling from fossil leaves to palaeo-primary productivity of woody ecosystems.

AB - A key challenge in ecology is to understand the relationships between organismal traits and ecosystem processes. Here, with a novel dataset of leaf length and width for 10 480 woody dicots in China and 2374 in North America, we show that the variation in community mean leaf size is highly correlated with the variation in climate and ecosystem primary productivity, independent of plant life form. These relationships likely reflect how natural selection modifies leaf size across varying climates in conjunction with how climate influences canopy total leaf area. We find that the leaf size-primary productivity functions based on the Chinese dataset can predict productivity in North America and vice-versa. In addition to advancing understanding of the relationship between a climate-driven trait and ecosystem functioning, our findings suggest that leaf size can also be a promising tool in palaeoecology for scaling from fossil leaves to palaeo-primary productivity of woody ecosystems.

KW - China

KW - ecosystems

KW - evapotranspiration

KW - leaves

KW - measurement

UR - http://hdl.handle.net/1959.7/uws:57170

U2 - 10.1111/ele.13503

DO - 10.1111/ele.13503

M3 - Article

SN - 1461-023X

VL - 23

SP - 1003

EP - 1013

JO - Ecology Letters

JF - Ecology Letters

IS - 6

ER -

Leaf size of woody dicots predicts ecosystem primary productivity

Abstract

Open Access - Access Right Statement

Keywords

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