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dc.contributor.authorJoswig, Julia S.
dc.contributor.authorWirth, Christian
dc.contributor.authorSchuman, Meredith C.
dc.contributor.authorKattge, Jens
dc.contributor.authorReu, Björn
dc.contributor.authorWright, Ian J.
dc.contributor.authorSippel, Sebastian
dc.contributor.authorRüger, Nadja
dc.contributor.authorRichter, Ronny
dc.contributor.authorSchaepman, Michael E.
dc.contributor.authorvan Bodegom, Peter M.
dc.contributor.authorCornelissen, J.H.C.
dc.contributor.authorDíaz, Sandra
dc.contributor.authorHattingh, Wesley N.
dc.contributor.authorKramer, Koen
dc.contributor.authorLens, Frederic
dc.contributor.authorNiinemets, Ülo
dc.contributor.authorReich, Peter B.
dc.contributor.authorReichstein, Markus
dc.contributor.authorRömermann, Christine
dc.contributor.authorSchrodt, Franziska
dc.contributor.authorAnand, Madhur
dc.contributor.authorBahn, Michael
dc.contributor.authorByun, Chaeho
dc.contributor.authorCampetella, Giandiego
dc.contributor.authorCerabolini, Bruno E. L.
dc.contributor.authorCraine, Joseph M.
dc.contributor.authorGonzalez-Melo, Andres
dc.contributor.authorGutiérrez, Alvaro G.
dc.contributor.authorHe, Tianhua
dc.contributor.authorHiguchi, Pedro
dc.contributor.authorJactel, Hervé
dc.contributor.authorKraft, Nathan J. B.
dc.contributor.authorMinden, Vanessa
dc.contributor.authorOnipchenko, Vladimir
dc.contributor.authorPeñuelas, Josep
dc.contributor.authorPillar, Valério D.
dc.contributor.authorSosinski, Ênio
dc.contributor.authorSoudzilovskaia, Nadejda A.
dc.contributor.authorWeiher, Evan
dc.contributor.authorMahecha, Miguel D.
dc.date.accessioned2022-07-22T10:28:07Z
dc.date.available2022-07-22T10:28:07Z
dc.date.created2022-05-09T12:54:43Z
dc.date.issued2021-12-23
dc.identifier.citationNature Ecology and Evolution. 2022, 6 (1), 36-50.en_US
dc.identifier.issn2397-334X
dc.identifier.urihttps://hdl.handle.net/11250/3007781
dc.description.abstractPlant functional traits can predict community assembly and ecosystem functioning and are thus widely used in global models of vegetation dynamics and land–climate feedbacks. Still, we lack a global understanding of how land and climate affect plant traits. A previous global analysis of six traits observed two main axes of variation: (1) size variation at the organ and plant level and (2) leaf economics balancing leaf persistence against plant growth potential. The orthogonality of these two axes suggests they are differently influenced by environmental drivers. We find that these axes persist in a global dataset of 17 traits across more than 20,000 species. We find a dominant joint effect of climate and soil on trait variation. Additional independent climate effects are also observed across most traits, whereas independent soil effects are almost exclusively observed for economics traits. Variation in size traits correlates well with a latitudinal gradient related to water or energy limitation. In contrast, variation in economics traits is better explained by interactions of climate with soil fertility. These findings have the potential to improve our understanding of biodiversity patterns and our predictions of climate change impacts on biogeochemical cycles.en_US
dc.language.isoengen_US
dc.publisherSpringer Natureen_US
dc.rightsNavngivelse 4.0 Internasjonal*
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/deed.no*
dc.titleClimatic and soil factors explain the two-dimensional spectrum of global plant trait variationen_US
dc.title.alternativeClimatic and soil factors explain the two-dimensional spectrum of global plant trait variationen_US
dc.typePeer revieweden_US
dc.typeJournal articleen_US
dc.description.versionpublishedVersionen_US
dc.rights.holder© The Author(s) 2021en_US
dc.source.pagenumber36-50en_US
dc.source.volume6en_US
dc.source.journalNature Ecology and Evolutionen_US
dc.source.issue1en_US
dc.identifier.doi10.1038/s41559-021-01616-8
dc.identifier.cristin2022661
cristin.ispublishedtrue
cristin.fulltextoriginal
cristin.qualitycode2


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