Abstract
Plant trait variation drives plant function, community composition and ecosystem processes. However, our current understanding of trait variation disproportionately relies on aboveground observations. Here we integrate root traits into the global framework of plant form and function. We developed and tested an overarching conceptual framework that integrates two recently identified root trait gradients with a well-established aboveground plant trait framework. We confronted our novel framework with published relationships between above- and belowground trait analogues and with multivariate analyses of above- and belowground traits of 2510 species. Our traits represent the leaf and root conservation gradients (specific leaf area, leaf and root nitrogen concentration, and root tissue density), the root collaboration gradient (root diameter and specific root length) and the plant size gradient (plant height and rooting depth). We found that an integrated, whole-plant trait space required as much as four axes. The two main axes represented the fast–slow ‘conservation’ gradient on which leaf and fine-root traits were well aligned, and the ‘collaboration’ gradient in roots. The two additional axes were separate, orthogonal plant size axes for height and rooting depth. This perspective on the multidimensional nature of plant trait variation better encompasses plant function and influence on the surrounding environment.
Original language | English |
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Pages (from-to) | 42-59 |
Number of pages | 18 |
Journal | New Phytologist |
Volume | 232 |
Issue number | 1 |
DOIs | |
State | Published - Oct 2021 |
Funding
This paper is a joint effort of the working group sROOT supported by sDiv, the Synthesis Centre of the German Centre for Integrative Biodiversity Research (iDiv) Halle‐Jena‐Leipzig, funded by the German Research Foundation (FZT 118, 02548816). The sROOT workshops and LM were also supported by NWO‐Vidi grant 864.14.006. We thank Nathan Armistead (ORNL Graphics) for the artwork of Fig. 1 , Martin Freiberg for help with phylogenetic relationships and Ronny Richter for help with Fig. 2 . CMI was supported by the Biological and Environmental Research program within the Department of Energy’s Office of Science. JB acknowledges support by the DFG grant BE 7123/1‐1. GTF was supported by the ‘Laboratoires d’Excellences (LABEX)’ TULIP (ANR‐10‐LABX‐41). NG‐R thanks the Dorothea Schlözer Postdoctoral Programme of the Georg‐August‐Universität Goettingen for their support. This paper is a joint effort of the working group sROOT supported by sDiv, the Synthesis Centre of the German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig, funded by the German Research Foundation (FZT 118, 02548816). The sROOT workshops and LM were also supported by NWO-Vidi grant 864.14.006. We thank Nathan Armistead (ORNL Graphics) for the artwork of Fig.?1, Martin Freiberg for help with phylogenetic relationships and Ronny Richter for help with Fig.?2. CMI was supported by the Biological and Environmental Research program within the Department of Energy?s Office of Science. JB acknowledges support by the DFG grant BE 7123/1-1. GTF was supported by the ?Laboratoires d?Excellences (LABEX)? TULIP (ANR-10-LABX-41). NG-R thanks the Dorothea Schl?zer Postdoctoral Programme of the Georg-August-Universit?t Goettingen for their support.
Funders | Funder number |
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NWO-Vidi | |
NWO‐Vidi | 864.14.006 |
Synthesis Centre of the German Centre for Integrative Biodiversity Research | |
U.S. Department of Energy | |
Office of Science | |
Biological and Environmental Research | |
Deutsche Forschungsgemeinschaft | 02548816, BE 7123/1‐1, FZT 118 |
Labex | ANR‐10‐LABX‐41 |
iDiv |
Keywords
- collaboration gradient
- conservation gradient
- economic gradient
- functional plant strategies
- plant size
- trade-offs
- trait economics