TY - JOUR
AU1 - Frank, D. C.
AU2 - Poulter, B.
AU3 - Saurer, M.
AU4 - Esper, J.
AU5 - Huntingford, C.
AU6 - Helle, G.
AU7 - Treydte, K.
AU8 - Zimmermann, N. E.
AU9 - Schleser, G. H.
AU1 - Ahlström, A.
AU1 - Ciais, P.
AU1 - Friedlingstein, P.
AU1 - Levis, S.
AU1 - Lomas, M.
AU1 - Sitch, S.
AU1 - Viovy, N.
AU1 - Andreu-Hayles, L.
AU1 - Bednarz, Z.
AU1 - Berninger, F.
AU2 - Boettger, T.
AU2 - D‘Alessandro, C. M.
AU2 - Daux, V.
AU2 - Filot, M.
AU2 - Grabner, M.
AU2 - Gutierrez, E.
AU2 - Haupt, M.
AU2 - Hilasvuori, E.
AU2 - Jungner, H.
AU2 - Kalela-Brundin, M.
AU3 - Krapiec, M.
AU3 - Leuenberger, M.
AU3 - Loader, N. J.
AU3 - Marah, H.
AU3 - Masson-Delmotte, V.
AU3 - Pazdur, A.
AU3 - Pawelczyk, S.
AU3 - Pierre, M.
AU3 - Planells, O.
AU3 - Pukiene, R.
AU4 - Reynolds-Henne, C. E.
AU4 - Rinne, K. T.
AU4 - Saracino, A.
AU4 - Sonninen, E.
AU4 - Stievenard, M.
AU4 - Switsur, V. R.
AU4 - Szczepanek, M.
AU4 - Szychowska-Krapiec, E.
AU4 - Todaro, L.
AU4 - Waterhouse, J. S.
AU5 - Weigl, M.
AB - Considering the combined effects of CO2 fertilization and climate change drivers on plant physiology leads to a modest increase in simulated European forest transpiration in spite of the effects of CO2-induced stomatal closure.
TI - Water-use efficiency and transpiration across European forests during the Anthropocene
JF - Nature Climate Change
DO - 10.1038/nclimate2614
DA - 2015-05-11
UR - https://www.deepdyve.com/lp/springer-journals/water-use-efficiency-and-transpiration-across-european-forests-during-qgbkbxuall
SP - 579
EP - 583
VL - 5
IS - 6
DP - DeepDyve
ER -