Towards multivariate functional trait syndromes: Predicting foliar water uptake in trees

Author:

Chin Alana R. O.1ORCID,Guzmán‐Delgado Paula2,Görlich Anna1ORCID,HilleRisLambers Janneke1

Affiliation:

1. Plant Ecology Group Institute of Integrative Biology, ETH‐Zürich Zürich Switzerland

2. Department of Plant Sciences University of California, Davis Davis California USA

Abstract

AbstractAnalysis of functional traits is a cornerstone of ecology, yet individual traits seldom explain useful amounts of variation in species distribution or climatic tolerance, and their functional significance is rarely validated experimentally. Multivariate suites of interacting traits could build an understanding of ecological processes and improve our ability to make sound predictions of species success in our rapidly changing world. We use foliar water uptake capacity as a case study because it is increasingly considered to be a key functional trait in plant ecology due to its importance for stress‐tolerance physiology. However, the traits behind the trait, that is, the features of leaves that determine variation in foliar water uptake rates, have not been assembled into a widely applicable framework for uptake prediction. Focusing on trees, we investigated relationships among 25 structural traits, leaf osmotic potential (a source of free energy to draw water into leaves), and foliar water uptake in 10 diverse angiosperm and conifer species. We identified consistent, multitrait “uptake syndromes” for both angiosperm and conifer trees, with differences in key traits revealing suspected differences in the water entry route between these two clades and an evolutionarily significant divergence in the function of homologous structures. A literature review of uptake‐associated functional traits, which largely documents similar univariate relationships, provides additional support for our proposed “uptake syndrome.” Importantly, more than half of shared traits had opposite‐direction influences on the capacity of leaves to absorb water in angiosperms and conifers. Taxonomically targeted multivariate trait syndromes provide a useful tool for trait selection in ecological research, while highlighting the importance of micro‐traits and the physiological verification of their function for advancing trait‐based ecology.

Funder

Eidgenössische Technische Hochschule Zürich

Publisher

Wiley

Subject

Ecology, Evolution, Behavior and Systematics

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