Items/Page: Sort: |
| Understorey productivity in temperate grassy woodland responds to soil water availability but not to elevated [CO2] [期刊论文] Global Change Biology, 2018-01-01, 24 (6 Collins L.; Bradstock R.A.; Resco de Dios V.; Duursma R.A.; Velasco S.; Boer M.M.
View/Download:26/0 |
| Climate warming and land-use changes drive broad-scale floristic changes in Southern Sweden [期刊论文] Global Change Biology, 2018-01-01, 24 (6 Tyler T.; Herbertsson L.; Olsson P.A.; Fröberg L.; Olsson K.-A.; Svensson Å.; Olsson O.
View/Download:36/0 |
| 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:36/0 |
| Peak season plant activity shift towards spring is reflected by increasing carbon uptake by extratropical ecosystems [期刊论文] Global Change Biology, 2018-01-01, 24 (5 Gonsamo A.; Chen J.M.; Ooi Y.W.
View/Download:15/0 |
| New insights on plant phenological response to temperature revealed from long-term widespread observations in China [期刊论文] Global Change Biology, 2018-01-01, 24 (5 Zhang H.; Liu S.; Regnier P.; Yuan W.
View/Download:14/0 |
| Strong evidence for changing fish reproductive phenology under climate warming on the Tibetan Plateau [期刊论文] Global Change Biology, 2018-01-01, 24 (5 Tao J.; He D.; Kennard M.J.; Ding C.; Bunn S.E.; Liu C.; Jia Y.; Che R.; Chen Y.
View/Download:39/0 |
| Why decadal to century timescale palaeoclimate data are needed to explain present-day patterns of biological diversity and change [期刊论文] Global Change Biology, 2018-01-01, 24 (3 Fordham D.A.; Saltré F.; Brown S.C.; Mellin C.; Wigley T.M.L.
View/Download:22/0 |
| 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 |
| Responses of phenology and biomass production of boreal fens to climate warming under different water-table level regimes [期刊论文] Global Change Biology, 2018-01-01, 24 (3 Mäkiranta P.; Laiho R.; Mehtätalo L.; Straková P.; Sormunen J.; Minkkinen K.; Penttilä T.; Fritze H.; Tuittila E.-S.
View/Download:30/0 |
| The sensitivity of breeding songbirds to changes in seasonal timing is linked to population change but cannot be directly attributed to the effects of trophic asynchrony on productivity [期刊论文] Global Change Biology, 2018-01-01, 24 (3 Franks S.E.; Pearce-Higgins J.W.; Atkinson S.; Bell J.R.; Botham M.S.; Brereton T.M.; Harrington R.; Leech D.I.
View/Download:35/0 |