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| Larger temperature response of autumn leaf senescence than spring leaf-out phenology [期刊论文] Global Change Biology, 2018-01-01, 24 (5 Fu Y.H.; Piao S.; Delpierre N.; Hao F.; Hänninen H.; Liu Y.; Sun W.; Janssens I.A.; Campioli M. View/Download:34/0 |
| Impact of priming on global soil carbon stocks [期刊论文] Global Change Biology, 2018-01-01, 24 (5 Guenet B.; Camino-Serrano M.; Ciais P.; Tifafi M.; Maignan F.; Soong J.L.; Janssens I.A. View/Download:31/0 |
| Simulating the onset of spring vegetation growth across the Northern Hemisphere [期刊论文] Global Change Biology, 2018-01-01, 24 (3 Liu Q.; Fu Y.H.; Liu Y.; Janssens I.A.; Piao S. View/Download:17/0 |
| On the causes of trends in the seasonal amplitude of atmospheric CO2 [期刊论文] Global Change Biology, 2018-01-01, 24 (2 Piao S.; Liu Z.; Wang Y.; Ciais P.; Yao Y.; Peng S.; Chevallier F.; Friedlingstein P.; Janssens I.A.; Peñuelas J.; Sitch S.; Wang T. View/Download:36/0 |
| Phenological responses of Icelandic subarctic grasslands to short-term and long-term natural soil warming [期刊论文] Global Change Biology, 2017-01-01, Leblans N.I.W.; Sigurdsson B.D.; Vicca S.; Fu Y.; Penuelas J.; Janssens I.A. View/Download:23/0 |
| Strong impacts of daily minimum temperature on the green-up date and summer greenness of the Tibetan Plateau [期刊论文] Global Change Biology, 2016-01-01, 22 (9 Shen M.; Piao S.; Chen X.; An S.; Fu Y.H.; Wang S.; Cong N.; Janssens I.A. View/Download:13/0 |
| Delayed autumn phenology in the Northern Hemisphere is related to change in both climate and spring phenology [期刊论文] Global Change Biology, 2016-01-01, 22 (11 Liu Q.; Fu Y.H.; Zhu Z.; Liu Y.; Liu Z.; Huang M.; Janssens I.A.; Piao S. View/Download:16/0 |
| Increased heat requirement for leaf flushing in temperate woody species over 1980-2012: Effects of chilling, precipitation and insolation [期刊论文] Global Change Biology, 2015-01-01, 21 (7 Fu Y.H.; Piao S.; Vitasse Y.; Zhao H.; De Boeck H.J.; Liu Q.; Yang H.; Weber U.; Hänninen H.; Janssens I.A. View/Download:20/0 |
| Physiological, biochemical, and genome-wide transcriptional analysis reveals that elevated CO2 mitigates the impact of combined heat wave and drought stress in Arabidopsis thaliana at multiple organizational levels [期刊论文] Global Change Biology, 2014-01-01, 20 (12 Zinta G.; Abdelgawad H.; Domagalska M.A.; Vergauwen L.; Knapen D.; Nijs I.; Janssens I.A.; Beemster G.T.S.; Asard H. View/Download:27/0 |