Article citationsMore>>
Myers-Smith, I.H., Elmendorf, S.C., Beck, P.S.A., Wilmking, M., Hallinger, M., Blok, D., Tape, K.D., Rayback, S.A., Macias-Fauria, M., Forbes, B.C., Speed, J.D.M., Boulanger-Lapointe, N., Rixen, C., Lévesque, E., Martin Schmidt, N., Baittinger, C., Trant, A.J., Hermanutz, L., Sieqwart Collier, L., Dawes, M.A., Lantz, T.C., Weijers, S., Halfdan Jorgensen, R., Buchwal, A., Buras, A., Naito, A.T., Ravolainen, V., Schaepman-Strub, G., Wheeler, J.A., Wipf, S., Guay, K.C., Hik, D.S. and Vellend, M. (2015) Climate Sensitivity of Shrub Growth across the Tundra Biome. Nature Climate Change.
http://dx.doi.org/10.1038/nclimate2697
has been cited by the following article:
-
TITLE:
Decoupling between Plant Productivity and Growing Season Length under a Warming Climate in Canada’s Arctic
AUTHORS:
Wenjun Chen, Paul Zorn, Lori White, Ian Olthof, Yu Zhang, Robert Fraser, Sylvain Leblanc
KEYWORDS:
Net Primary Productivity, Growing Season Length, Arctic Tundra, Decoupling, Remote Sensing, Soil Moisture Regime
JOURNAL NAME:
American Journal of Climate Change,
Vol.5 No.3,
August
16,
2016
ABSTRACT: Given the short duration of growing season in the Arctic, a strong correlation between plant productivity and growing season length (GSL) is conventionally assumed. Will this assumption hold true under a warming climate? In this study, we addressed the question by investigating the relationship between net primary productivity of leaves (NPPleaf) and GSL for various tundra ecosystems. We quantified NPPleaf and GSL using long-term satellite data and field measurements. Our results indicated that the relationship was not significant (i.e., decoupled) for 44% to 64% of tundra classes in the southern Canadian Arctic, but significant for all classes in the northern Canadian Arctic. To better understand the causes of the decoupling, we further decomposed the relationship into two components: the correspondence of interannual variations and the agreement of long- term trends. We found that the longer the mean GSL for a tundra class, the poorer the correspondence between their interannual variations. Soil moisture limitation further decoupled the relationship by deteriorating the agreement of long-term trends. Consequently, the decoupling between NPPleaf and GSL would be more likely to occur under a warming climate if the tundra class had a mean GSL > 116 (or 123) days with a dry (or moist) soil moisture regime.
Related Articles:
-
Adama Bamba, Fidèle Yoroba, Kouakou Kouadio, Alexandre Ainyankou, Gilles Niamketchi, N’Datchoh Evelyne Toure, Benjamin Pillot, Arona Diedhiou
-
Sarah Tasneem, Lester Lipsky, Reda Ammar, Howard Sholl
-
Jai Dev Chandel, Nand Lal Singh
-
Minzhi Wei, Yujian Gan, Shengqiang Tang
-
Du Thanh Hang, Than Thi Thanh Tra, Le Minh Tuan, Geoffrey Peter Savage