Literature DB >> 25581061

Global variability in leaf respiration in relation to climate, plant functional types and leaf traits.

Owen K Atkin1, Keith J Bloomfield, Peter B Reich, Mark G Tjoelker, Gregory P Asner, Damien Bonal, Gerhard Bönisch, Matt G Bradford, Lucas A Cernusak, Eric G Cosio, Danielle Creek, Kristine Y Crous, Tomas F Domingues, Jeffrey S Dukes, John J G Egerton, John R Evans, Graham D Farquhar, Nikolaos M Fyllas, Paul P G Gauthier, Emanuel Gloor, Teresa E Gimeno, Kevin L Griffin, Rossella Guerrieri, Mary A Heskel, Chris Huntingford, Françoise Yoko Ishida, Jens Kattge, Hans Lambers, Michael J Liddell, Jon Lloyd, Christopher H Lusk, Roberta E Martin, Ayal P Maksimov, Trofim C Maximov, Yadvinder Malhi, Belinda E Medlyn, Patrick Meir, Lina M Mercado, Nicholas Mirotchnick, Desmond Ng, Ülo Niinemets, Odhran S O'Sullivan, Oliver L Phillips, Lourens Poorter, Pieter Poot, I Colin Prentice, Norma Salinas, Lucy M Rowland, Michael G Ryan, Stephen Sitch, Martijn Slot, Nicholas G Smith, Matthew H Turnbull, Mark C VanderWel, Fernando Valladares, Erik J Veneklaas, Lasantha K Weerasinghe, Christian Wirth, Ian J Wright, Kirk R Wythers, Jen Xiang, Shuang Xiang, Joana Zaragoza-Castells.   

Abstract

Leaf dark respiration (Rdark ) is an important yet poorly quantified component of the global carbon cycle. Given this, we analyzed a new global database of Rdark and associated leaf traits. Data for 899 species were compiled from 100 sites (from the Arctic to the tropics). Several woody and nonwoody plant functional types (PFTs) were represented. Mixed-effects models were used to disentangle sources of variation in Rdark . Area-based Rdark at the prevailing average daily growth temperature (T) of each site increased only twofold from the Arctic to the tropics, despite a 20°C increase in growing T (8-28°C). By contrast, Rdark at a standard T (25°C, Rdark (25) ) was threefold higher in the Arctic than in the tropics, and twofold higher at arid than at mesic sites. Species and PFTs at cold sites exhibited higher Rdark (25) at a given photosynthetic capacity (Vcmax (25) ) or leaf nitrogen concentration ([N]) than species at warmer sites. Rdark (25) values at any given Vcmax (25) or [N] were higher in herbs than in woody plants. The results highlight variation in Rdark among species and across global gradients in T and aridity. In addition to their ecological significance, the results provide a framework for improving representation of Rdark in terrestrial biosphere models (TBMs) and associated land-surface components of Earth system models (ESMs).
© 2015 The Authors. New Phytologist © 2015 New Phytologist Trust.

Entities:  

Keywords:  acclimation; aridity; climate models; leaf nitrogen (N); photosynthesis; plant functional types (PFTs); respiration; temperature

Mesh:

Substances:

Year:  2015        PMID: 25581061     DOI: 10.1111/nph.13253

Source DB:  PubMed          Journal:  New Phytol        ISSN: 0028-646X            Impact factor:   10.151


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