Global climatic drivers of leaf size

Ian J. Wright(Macquarie University), Ning Dong(University of Reading), Vincent Maire(Université du Québec à Trois-Rivières), I. Colin Prentice(Imperial College London), Mark Westoby(Macquarie University), Sandra Dı́az(Consejo Nacional de Investigaciones Científicas y Técnicas), Rachael V. Gallagher(Macquarie University), Bonnie F. Jacobs(Southern Methodist University), Robert M. Kooyman(Macquarie University), Elizabeth A. Law(The University of Queensland), Michelle R. Leishman(Macquarie University), Ülo Niinemets(Estonian University of Life Sciences), Peter B. Reich(University of Minnesota), Lawren Sack(University of California, Los Angeles), Rafael Villar(University of Córdoba), Han Wang(Institute of Soil and Water Conservation), Peter Wilf(Pennsylvania State University)
Science
August 31, 2017
10.1126/science.aal4760
Cited by 990Open Access
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Abstract

Leaf size varies by over a 100,000-fold among species worldwide. Although 19th-century plant geographers noted that the wet tropics harbor plants with exceptionally large leaves, the latitudinal gradient of leaf size has not been well quantified nor the key climatic drivers convincingly identified. Here, we characterize worldwide patterns in leaf size. Large-leaved species predominate in wet, hot, sunny environments; small-leaved species typify hot, sunny environments only in arid conditions; small leaves are also found in high latitudes and elevations. By modeling the balance of leaf energy inputs and outputs, we show that daytime and nighttime leaf-to-air temperature differences are key to geographic gradients in leaf size. This knowledge can enrich "next-generation" vegetation models in which leaf temperature and water use during photosynthesis play key roles.

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