| Literature DB >> 28079308 |
Janet Prevéy1,2, Mark Vellend3, Nadja Rüger4,5, Robert D Hollister6, Anne D Bjorkman4,7, Isla H Myers-Smith7, Sarah C Elmendorf8, Karin Clark9, Elisabeth J Cooper10, Bo Elberling11, Anna M Fosaa12, Gregory H R Henry13, Toke T Høye14, Ingibjörg S Jónsdóttir15,16, Kari Klanderud17, Esther Lévesque18, Marguerite Mauritz19, Ulf Molau20, Susan M Natali21, Steven F Oberbauer22, Zoe A Panchen23, Eric Post24, Sabine B Rumpf25, Niels M Schmidt14, Edward A G Schuur19, Phillip R Semenchuk10, Tiffany Troxler21, Jeffrey M Welker26, Christian Rixen1.
Abstract
Warmer temperatures are accelerating the phenology of organisms around the world. Temperature sensitivity of phenology might be greater in colder, higher latitude sites than in warmer regions, in part because small changes in temperature constitute greater relative changes in thermal balance at colder sites. To test this hypothesis, we examined up to 20 years of phenology data for 47 tundra plant species at 18 high-latitude sites along a climatic gradient. Across all species, the timing of leaf emergence and flowering was more sensitive to a given increase in summer temperature at colder than warmer high-latitude locations. A similar pattern was seen over time for the flowering phenology of a widespread species, Cassiope tetragona. These are among the first results highlighting differential phenological responses of plants across a climatic gradient and suggest the possibility of convergence in flowering times and therefore an increase in gene flow across latitudes as the climate warms.Entities:
Keywords: zzm321990Cassiope tetragonazzm321990; Arctic; International Tundra Experiment; climate change; climatic gradient; flowering; latitude; tundra
Mesh:
Year: 2017 PMID: 28079308 DOI: 10.1111/gcb.13619
Source DB: PubMed Journal: Glob Chang Biol ISSN: 1354-1013 Impact factor: 10.863