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Global plant trait relationships extend to the climatic extremes of the tundra biome

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Thomas , H J D , Bjorkman , A D , Myers-Smith , I H , Elmendorf , S C , Kattge , J , Diaz , S , Vellend , M , Blok , D , Cornelissen , J H C , Forbes , B C , Henry , G H R , Hollister , R D , Normand , S , Prevéy , J S , Rixen , C , Schaepman-Strub , G , Wilmking , M , Wipf , S , Cornwell , W K , Beck , P S A , Georges , D , Goetz , S J , Guay , K C , Rüger , N , Soudzilovskaia , N A , Spasojevic , M J , Alatalo , J M , Alexander , H D , Anadon-Rosell , A , Angers-Blondin , S , te Beest , M , Berner , L T , Björk , R G , Buchwal , A , Buras , A , Carbognani , M , Christie , K S , Collier , L S , Cooper , E J , Elberling , B , Eskelinen , A , Frei , E R , Grau , O , Grogan , P , Hallinger , M , Heijmans , M M P D , Hermanutz , L , Hudson , J M G , Johnstone , J F , Hülber , K , Iturrate-Garcia , M , Iversen , C M , Jaroszynska , F , Kaarlejarvi , E , Kulonen , A , Lamarque , L J , Lantz , T C , Lévesque , E , Little , C J , Michelsen , A , Milbau , A , Nabe-Nielsen , J , Nielsen , S S , Ninot , J M , Oberbauer , S F , Olofsson , J , Onipchenko , V G , Petraglia , A , Rumpf , S B , Shetti , R , Speed , J D M , Suding , K N , Tape , K D , Tomaselli , M , Trant , A J , Treier , U A , Tremblay , M , Venn , S E , Vowles , T , Weijers , S , Wookey , P A , Zamin , T J , Bahn , M , Blonder , B , van Bodegom , P M , Bond-Lamberty , B , Campetella , G , Cerabolini , B E L , Chapin , F S , Craine , J M , Dainese , M , Green , W A , Jansen , S , Kleyer , M , Manning , P , Niinemets , Ü , Onoda , Y , Ozinga , W A , Peñuelas , J , Poschlod , P , Reich , P B , Sandel , B , Schamp , B S , Sheremetiev , S N & de Vries , F T 2020 , ' Global plant trait relationships extend to the climatic extremes of the tundra biome ' , Nature Communications , vol. 11 , no. 1 , 1351 . https://doi.org/10.1038/s41467-020-15014-4

Title: Global plant trait relationships extend to the climatic extremes of the tundra biome
Author: Thomas, H. J. D.; Bjorkman, A. D.; Myers-Smith, I. H.; Elmendorf, S. C.; Kattge, J.; Diaz, S.; Vellend, M.; Blok, D.; Cornelissen, J. H. C.; Forbes, B. C.; Henry, G. H. R.; Hollister, R. D.; Normand, S.; Prevéy, J. S.; Rixen, C.; Schaepman-Strub, G.; Wilmking, M.; Wipf, S.; Cornwell, W. K.; Beck, P. S. A.; Georges, D.; Goetz, S. J.; Guay, K. C.; Rüger, N.; Soudzilovskaia, N. A.; Spasojevic, M. J.; Alatalo, J. M.; Alexander, H. D.; Anadon-Rosell, A.; Angers-Blondin, S.; te Beest, M.; Berner, L. T.; Björk, R. G.; Buchwal, A.; Buras, A.; Carbognani, M.; Christie, K. S.; Collier, L. S.; Cooper, E. J.; Elberling, B.; Eskelinen, A.; Frei, E. R.; Grau, O.; Grogan, P.; Hallinger, M.; Heijmans, M. M. P. D.; Hermanutz, L.; Hudson, J. M. G.; Johnstone, J. F.; Hülber, K.; Iturrate-Garcia, M.; Iversen, C. M.; Jaroszynska, F.; Kaarlejarvi, E.; Kulonen, A.; Lamarque, L. J.; Lantz, T. C.; Lévesque, E.; Little, C. J.; Michelsen, A.; Milbau, A.; Nabe-Nielsen, J.; Nielsen, S. S.; Ninot, J. M.; Oberbauer, S. F.; Olofsson, J.; Onipchenko, V. G.; Petraglia, A.; Rumpf, S. B.; Shetti, R.; Speed, J. D. M.; Suding, K. N.; Tape, K. D.; Tomaselli, M.; Trant, A. J.; Treier, U. A.; Tremblay, M.; Venn, S. E.; Vowles, T.; Weijers, S.; Wookey, P. A.; Zamin, T. J.; Bahn, M.; Blonder, B.; van Bodegom, P. M.; Bond-Lamberty, B.; Campetella, G.; Cerabolini, B. E. L.; Chapin, F. S.; Craine, J. M.; Dainese, M.; Green, W. A.; Jansen, S.; Kleyer, M.; Manning, P.; Niinemets, Ü.; Onoda, Y.; Ozinga, W. A.; Peñuelas, J.; Poschlod, P.; Reich, P. B.; Sandel, B.; Schamp, B. S.; Sheremetiev, S. N.; de Vries, F. T.
Contributor organization: Organismal and Evolutionary Biology Research Programme
Research Centre for Ecological Change
Date: 2020-03-12
Language: eng
Number of pages: 12
Belongs to series: Nature Communications
ISSN: 2041-1723
DOI: https://doi.org/10.1038/s41467-020-15014-4
URI: http://hdl.handle.net/10138/321419
Abstract: The majority of variation in six traits critical to the growth, survival and reproduction of plant species is thought to be organised along just two dimensions, corresponding to strategies of plant size and resource acquisition. However, it is unknown whether global plant trait relationships extend to climatic extremes, and if these interspecific relationships are confounded by trait variation within species. We test whether trait relationships extend to the cold extremes of life on Earth using the largest database of tundra plant traits yet compiled. We show that tundra plants demonstrate remarkably similar resource economic traits, but not size traits, compared to global distributions, and exhibit the same two dimensions of trait variation. Three quarters of trait variation occurs among species, mirroring global estimates of interspecific trait variation. Plant trait relationships are thus generalizable to the edge of global trait-space, informing prediction of plant community change in a warming world.
Subject: 1181 Ecology, evolutionary biology
1172 Environmental sciences
FOLIAR NITROGEN ISOTOPES
LEAF ECONOMICS SPECTRUM
RELATIVE GROWTH-RATE
FUNCTIONAL TRAITS
WIDE-RANGE
INTRASPECIFIC VARIABILITY
LITTER DECOMPOSITION
COMMUNITY-LEVEL
ELEVATED CO2
WOODY-PLANTS
Peer reviewed: Yes
Rights: cc_by
Usage restriction: openAccess
Self-archived version: publishedVersion


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