Now showing items 1-2 of 2

    • Plant functional trait change across a warming tundra biome 

      Bjorkman A; Myers-Smith I; Elmendorf S; Normand S; Rüger N; Beck P; Blach-Overgaard A; Blok D; Cornelissen JHC; Forbes B; Georges D; Goetz S; Guay K; Henry G; Hollister R; Kattge J; Prevey J; HilleRisLambers J; Rixen C; Schaepman-Strub G; Thomas H; Vellend M; Wilmking M; Wipf S; Karger DN; Carbognani M; Hermanutz L; Lévesque E; Molau U; Petraglia A; Soudzilovskaia N; Spasojevic M; Tomaselli M; Vowles T; Alatalo J; Alexander H; Anadon-Rosell A; Angers-Blondin S; te Beest M; Berner L; Bjork R; Buchwal A; Buras A; Christie K; Siegwart Collier L; Cooper E; SDullinger; Elberling B; Eskelinen A; Frei E; Garcia M; Grau O; Grogan P; Hallinger M; Harper K; heijmans M; Hudson J; Hülber K; Iversen C; Jaroszynska F; Johnstone J; Jørgensen R; Kaarlejärvi E; Klady R; Kuleza S; Kulonen A; Lamarque L; Lantz T; Little C; Speed J; Michelsen A; Milbau A; Nabe-Nielsen J; Nielsen S; Ninot J; Oberbauer S; Olofsson J; Onipchenko V; Rumpf S; Semenchuk P; Shetti R; Street L; Suding K; Tape K; Trant; A Treier U; Tremblay JP; Tremblay M; Venn S; Weijers S; Zamin T; Boulanger-Lapointe N; Gould W; Hik D; Hofgaard A; Jónsdóttir I; Jorgenson J; Klein J; Magnusson B; Tweedie C; Wookey P; Bahn M; Blonder B; van Bodegom P; Bond-Lamberty B; Campetella G; Cerabolini B; Chapin III FS; Cornwell W; Craine J; Dainese M; de Vries F; Diaz S; Onoda Y; Ordonez J; Ozinga W; Penuelas J; Poorter H; Poschlod P; Enquist B; Green W; Manning P; Milla R; Niinemets Ü; Reich P; Sandel B; Schamp B; Sheremetev S; Weiher E (2018)
      The tundra is warming more rapidly than any other biome on Earth, and the potential ramifications are far-reaching because of global feedback effects between vegetation and climate. A better understanding of how environmental ...
    • Traditional plant functional groups poorly explain plant trait variation in the tundra biome 

      Thomas HD; Myers-Smith IH; Bjorkman AD; Elmendorf SC; Blok D; Cornelissen JHC; Forbes BC; Hollister R; Normand S; Prevéy JS; Rixen C; Schaepman-Strub G; Wilmking M; Wipf S; Cornwell W; Kattge J; Goetz S; Guay K; Alatalo J; Anadon-Rosell A; Angers-Blondin S; Berner LT; Björk RG; Buchwal A; Buras A; Carbognani M; Christie K; Collier LS; Cooper EJ; Frei ER; Grau O; Grogan P; Hallinger M; Heijmans MMPD; Hermanutz L; Hudson JMG; Hülber K; Iturrate-Garcia M; Iversen CM; Jaroszynska F; Johnstone J; Kaarlejärvi E; Kulonen A; Lamarque L; Levesque E; Little CJ; Michelsen A; Milbau A; Nabe-Nielsen J; Nielsen SS; Ninot JM; Oberbauer S; Olofsson J; Onipchenko V; Petraglia A; Rumpf; SB; Semenchuk PR; Soudzilovskaia N; Spasojevic M; Speed JDM; Tape K; Te Beest M; Tomaselli M; Trant A; Treier U; Venn S; Vowles T; Weijers S; Zamin T; Atkin O; Bahn M; Blonder B; Campetella G; Cerabolini BEL; Chapin FS; Dainese M; de Vries FT; Díaz S; Green W; Jackson R; Manning P; Niinemets Ü; Ozinga WA; Peñuelas J; Reich P; Schamp B; Sheremetev S; van Bodegom PM (2018)
      Aim Plant functional groups are widely used in community ecology and earth system modelling to describe trait variation within and across plant communities. However, this approach rests on the assumption that functional ...