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| Lower photorespiration in elevated CO 2 reduces leaf N concentrations in mature Eucalyptus trees in the field [期刊论文]
Global Change Biology, 2019-01-01, 25 (4
Wujeska-Klause A.; Crous K.Y.; Ghannoum O.; Ellsworth D.S.
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| Global photosynthetic capacity is optimized to the environment [期刊论文]
Ecology Letters, 2019-01-01, 22 (3
Smith N.G.; Keenan T.F.; Colin Prentice I.; Wang H.; Wright I.J.; Niinemets Ü.; Crous K.Y.; Domingues T.F.; Guerrieri R.; Yoko Ishida F.; Kattge J.; Kruger E.L.; Maire V.; Rogers A.; Serbin S.P.; Tarvainen L.; Togashi H.F.; Townsend P.A.; Wang M.; Weerasinghe L.K.; Zhou S.-X.
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| Photosynthetic capacity and leaf nitrogen decline along a controlled climate gradient in provenances of two widely distributed Eucalyptus species [期刊论文]
Global Change Biology, 2018-01-01, 24 (10
Crous K.Y.; Drake J.E.; Aspinwall M.J.; Sharwood R.E.; Tjoelker M.G.; Ghannoum O.
View/Download:22/0
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| Trees tolerate an extreme heatwave via sustained transpirational cooling and increased leaf thermal tolerance [期刊论文]
Global Change Biology, 2018-01-01, 24 (6
Drake J.E.; Tjoelker M.G.; Vårhammar A.; Medlyn B.; Reich P.B.; Leigh A.; Pfautsch S.; Blackman C.J.; López R.; Aspinwall M.J.; Crous K.Y.; Duursma R.A.; Kumarathunge D.; De Kauwe M.G.; Jiang M.; Nicotra A.B.; Tissue D.T.; Choat B.; Atkin O.K.; Barton C.V.M.
View/Download:28/0
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| Short-term carbon cycling responses of a mature eucalypt woodland to gradual stepwise enrichment of atmospheric CO2 concentration [期刊论文]
Global Change Biology, 2016-01-01, 22 (1
Drake J.E.; Macdonald C.A.; Tjoelker M.G.; Crous K.Y.; Gimeno T.E.; Singh B.K.; Reich P.B.; Anderson I.C.; Ellsworth D.S.
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| Canopy leaf area of a mature evergreen Eucalyptus woodland does not respond to elevated atmospheric [CO2] but tracks water availability [期刊论文]
Global Change Biology, 2016-01-01, 22 (4
Duursma R.A.; Gimeno T.E.; Boer M.M.; Crous K.Y.; Tjoelker M.G.; Ellsworth D.S.
View/Download:41/0
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| Using models to guide field experiments: a priori predictions for the CO2 response of a nutrient- and water-limited native Eucalypt woodland [期刊论文]
Global change biology, 2016-01-01, 22 (8
Medlyn B.E.; De Kauwe M.G.; Zaehle S.; Walker A.P.; Duursma R.A.; Luus K.; Mishurov M.; Pak B.; Smith B.; Wang Y.-P.; Yang X.; Crous K.Y.; Drake J.E.; Gimeno T.E.; Macdonald C.A.; Norby R.J.; Power S.A.; Tjoelker M.G.; Ellsworth D.S.
View/Download:32/0
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| The capacity to cope with climate warming declines from temperate to tropical latitudes in two widely distributed Eucalyptus species [期刊论文]
Global Change Biology, 2015-01-01, 21 (1
Drake J.E.; Aspinwall M.J.; Pfautsch S.; Rymer P.D.; Reich P.B.; Smith R.A.; Crous K.Y.; Tissue D.T.; Ghannoum O.; Tjoelker M.G.
View/Download:32/0
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| Forest water use and water use efficiency at elevated CO2: A model-data intercomparison at two contrasting temperate forest FACE sites [期刊论文]
Global Change Biology, 2013-01-01, 19 (6
De Kauwe M.G.; Medlyn B.E.; Zaehle S.; Walker A.P.; Dietze M.C.; Hickler T.; Jain A.K.; Luo Y.; Parton W.J.; Prentice I.C.; Smith B.; Thornton P.E.; Wang S.; Wang Y.-P.; Wårlind D.; Weng E.; Crous K.Y.; Ellsworth D.S.; Hanson P.J.; Seok Kim H.; Warren J.M.; Oren R.; Norby R.J.
View/Download:31/0
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| Photosynthesis of temperate Eucalyptus globulus trees outside their native range has limited adjustment to elevated CO2 and climate warming [期刊论文]
Global Change Biology, 2013-01-01, 19 (12
Crous K.Y.; Quentin A.G.; Lin Y.-S.; Medlyn B.E.; Williams D.G.; Barton C.V.M.; Ellsworth D.S.
View/Download:31/0
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