TY - JOUR
T1 - Shrub expansion in tundra ecosystems
T2 - Dynamics, impacts and research priorities
AU - Myers-Smith, Isla H.
AU - Forbes, Bruce C.
AU - Wilmking, Martin
AU - Hallinger, Martin
AU - Lantz, Trevor
AU - Blok, Daan
AU - Tape, Ken D.
AU - MacIas-Fauria, Marc
AU - Sass-Klaassen, Ute
AU - Lévesque, Esther
AU - Boudreau, Stéphane
AU - Ropars, Pascale
AU - Hermanutz, Luise
AU - Trant, Andrew
AU - Collier, Laura Siegwart
AU - Weijers, Stef
AU - Rozema, Jelte
AU - Rayback, Shelly A.
AU - Schmidt, Niels Martin
AU - Schaepman-Strub, Gabriela
AU - Wipf, Sonja
AU - Rixen, Christian
AU - Ménard, Cécile B.
AU - Venn, Susanna
AU - Goetz, Scott
AU - Andreu-Hayles, Laia
AU - Elmendorf, Sarah
AU - Ravolainen, Virve
AU - Welker, Jeffrey
AU - Grogan, Paul
AU - Epstein, Howard E.
AU - Hik, David S.
PY - 2011/12
Y1 - 2011/12
N2 - Recent research using repeat photography, long-term ecological monitoring and dendrochronology has documented shrub expansion in arctic, high-latitude and alpine tundra ecosystems. Here, we (1)synthesize these findings, (2)present a conceptual framework that identifies mechanisms and constraints on shrub increase, (3)explore causes, feedbacks and implications of the increased shrub cover in tundra ecosystems, and (4)address potential lines of investigation for future research. Satellite observations from around the circumpolar Arctic, showing increased productivity, measured as changes in greenness, have coincided with a general rise in high-latitude air temperatures and have been partly attributed to increases in shrub cover. Studies indicate that warming temperatures, changes in snow cover, altered disturbance regimes as a result of permafrost thaw, tundra fires, and anthropogenic activities or changes in herbivory intensity are all contributing to observed changes in shrub abundance. Alarge-scale increase in shrub cover will change the structure of tundra ecosystems and alter energy fluxes, regional climate, soilatmosphere exchange of water, carbon and nutrients, and ecological interactions between species. In order to project future rates of shrub expansion and understand the feedbacks to ecosystem and climate processes, future research should investigate the species or trait-specific responses of shrubs to climate change including: (1)the temperature sensitivity of shrub growth, (2)factors controlling the recruitment of new individuals, and (3)the relative influence of the positive and negative feedbacks involved in shrub expansion.
AB - Recent research using repeat photography, long-term ecological monitoring and dendrochronology has documented shrub expansion in arctic, high-latitude and alpine tundra ecosystems. Here, we (1)synthesize these findings, (2)present a conceptual framework that identifies mechanisms and constraints on shrub increase, (3)explore causes, feedbacks and implications of the increased shrub cover in tundra ecosystems, and (4)address potential lines of investigation for future research. Satellite observations from around the circumpolar Arctic, showing increased productivity, measured as changes in greenness, have coincided with a general rise in high-latitude air temperatures and have been partly attributed to increases in shrub cover. Studies indicate that warming temperatures, changes in snow cover, altered disturbance regimes as a result of permafrost thaw, tundra fires, and anthropogenic activities or changes in herbivory intensity are all contributing to observed changes in shrub abundance. Alarge-scale increase in shrub cover will change the structure of tundra ecosystems and alter energy fluxes, regional climate, soilatmosphere exchange of water, carbon and nutrients, and ecological interactions between species. In order to project future rates of shrub expansion and understand the feedbacks to ecosystem and climate processes, future research should investigate the species or trait-specific responses of shrubs to climate change including: (1)the temperature sensitivity of shrub growth, (2)factors controlling the recruitment of new individuals, and (3)the relative influence of the positive and negative feedbacks involved in shrub expansion.
KW - Arctic
KW - alpine
KW - climate change
KW - disturbance
KW - ecosystem function
KW - ecosystem structure
KW - feedbacks
KW - shrubs
KW - tundra
KW - vegetation
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U2 - 10.1088/1748-9326/6/4/045509
DO - 10.1088/1748-9326/6/4/045509
M3 - Article
AN - SCOPUS:84555202706
SN - 1748-9326
VL - 6
JO - Environmental Research Letters
JF - Environmental Research Letters
IS - 4
M1 - 045509
ER -