Browsing BC3 Basque Centre for Climate Change by Author "Jiang, M."
Now showing items 1-4 of 4
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A global agenda for advancing freshwater biodiversity research
Maasri, A.; Jähnig, S. C.; Adamescu, M. C.; Adrian, R.; Baigun, C.; Baird, D. J.; Batista-Morales, A.; Bonada, N.; Brown, M. L.; Cai, Q.; Campos-Silva, J. V.; Clausnitzer, V.; Contreras-MacBeath, T.; Cooke, S. J.; Datry, T.; Delacámara, G.; De Meester, L.; Dijkstra, D. K. B.; Do, V. T.; Domisch, S.; Dudgeon, D.; Erös, T.; Freitag, H.; Freyhof, J.; Friedrich, J.; Friedrichs-Manthey, M.; Geist, J.; Gessner, M. O.; Goethals, P.; Gollock, M.; Gordon, C.; Grossart, H. P.; Gulemvuga, V.; Gutiérrez-Fonseca, P. E.; Haase, P.; Hering, D.; Hahn, H. J.; Hawkins, C. P.; He, F.; Heino, J.; Hermoso, V.; Hogan, Z.; Hölker, F.; Jeschke, J. M.; Jiang, M.; Johnson, R. K.; Kalinkat, G.; Karimov, B. K.; Kasangaki, A.; Kimirei, I. A.; Kohlmann, B.; Kuemmerlen, M.; Kuiper, J. J.; Kupilas, B.; Langhans, S. D.; Lansdown, R.; Leese, F.; Magbanua, F. S.; Matsuzaki, S. i. S.; Monaghan, M. T.; Mumladze, L.; Muzon, J.; Mvogo Ndongo, P. A.; Nejstgaard, J. C.; Nikitina, O.; Ochs, S.; Odume, O.; Opperman, J. J.; Patricio, H.; Pauls, S.; Raghavan, R.; Ramírez, A.; Rashni, B.; Ross-Gillespie, V.; Samways, M. J.; Schäfer, R. B.; Schmidt-Kloiber, A.; Seehausen, O.; Shah, D. N.; Sharma, S.; Soininen, J.; Sommerwerk, N.; Stockwell, J. D.; Suhling, F.; Tachamo Shah, R. D.; Tharme, R. E.; Thorp, J. H.; Tickner, D.; Tockner, K.; Tonkin, J. D.; Valle, M.; Vitule, J.; Volk, M.; Wang, D.; Worischka, S.; Wolter, C. (Ecology Letters, 2022-02-01)... -
Low sensitivity of gross primary production to elevated CO2 in a mature eucalypt woodland
Yang, J.; Medlyn, B.E.; De, Kauwe, M.G.; Duursma, R.A.; Jiang, M.; Kumarathunge, D.; Crous, K.Y.; Gimeno, T.E.; Wujeska-Klause, A.; Ellsworth, D.S. (EGU Publications, 2020)The response of mature forest ecosystems to a rising atmospheric carbon dioxide concentration (span classCombining double low line"inline-formula"iC/ia/span) is a major uncertainty in projecting the future trajectory of ... -
Optimal stomatal theory predicts CO<inf>2</inf> responses of stomatal conductance in both gymnosperm and angiosperm trees
Gardner, A.; Jiang, M.; Ellsworth, D.S.; MacKenzie, A.R.; Pritchard, J.; Bader, M.K.F.; Barton, C.V.M.; Bernacchi, C.; Calfapietra, C.; Crous, K.Y.; Dusenge, M.E.; Gimeno, T.E.; Hall, M.; Lamba, S.; Leuzinger, S.; Uddling, J.; Warren, J.; Wallin, G.; Medlyn, B.E. (New Phytologist, 2023)Optimal stomatal theory predicts that stomata operate to maximise photosynthesis (Anet) and minimise transpirational water loss to achieve optimal intrinsic water-use efficiency (iWUE). We tested whether this theory can ... -
The fate of carbon in a mature forest under carbon dioxide enrichment
Jiang, M.; Medlyn, B.E.; Drake, J.E.; Duursma, R.A.; Anderson, I.C.; Barton, C.V.M.; Boer, M.M.; Carrillo, Y.; Castañeda-Gómez, L.; Collins, L.; Crous, K.Y.; De Kauwe, M.G.; Dos Santos, B.M.; Emmerson, K.M.; Facey, S.L.; Gherlenda, A.N.; Gimeno, T.E.; Hasegawa, S.; Johnson, S.N.; Kännaste, A.; Macdonald, C.A.; Mahmud, K.; Moore, B.D.; Nazaries, L.; Neilson, E.H.J.; Nielsen, U.N.; Niinemets, Ü.; Noh, N.J.; Ochoa-Hueso, R.; Pathare, V.S.; Pendall, E.; Pihlblad, J.; Piñeiro, J.; Powell, J.R.; Power, S.A.; Reich, P.B.; Renchon, A.A.; Riegler, M.; Rinnan, R.; Rymer, P.D.; Salomón, R.L.; Singh, B.K.; Smith, B.; Tjoelker, M.G.; Walker, J.K.M.; Wujeska-Klause, A.; Yang, J.; Zaehle, S.; Ellsworth, D.S. (Springer Nature, 2020)Atmospheric carbon dioxide enrichment (eCO2) can enhance plant carbon uptake and growth1 5, thereby providing an important negative feedback to climate change by slowing the rate of increase of the atmospheric CO2 ...