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Colin P Osborne

Showing results (1-10 of 112) with videos related to

Pageof 12
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Nature Plants|September 6, 2016
Crop yields: CO2 fertilization dries upColin P Osborne
Journal of Experimental Botany|November 23, 2013
Evolution of physiological processesColin P Osborne
The Journal of Ecology|September 12, 2008
Atmosphere, ecology and evolution: what drove the Miocene expansion of C(4) grasslands?Colin P Osborne
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|January 11, 2012
Evolution of C4 plants: a new hypothesis for an interaction of CO2 and water relations mediated by plant hydraulicsColin P Osborne, Lawren Sack
Annals of Botany|January 9, 2024
Diversification of quantitative morphological traits in wheatYixiang Shan, Colin P Osborne
Plant, Cell & Environment|July 22, 2024
Stomatal dynamics in Alloteropsis semialata arise from the evolving interplay between photosynthetic physiology, stomatal size and biochemistryYanmin Zhou, Colin P Osborne
Journal of Experimental Botany|December 16, 2014
Water relations traits of C4 grasses depend on phylogenetic lineage, photosynthetic pathway, and habitat water availabilityHui Liu, Colin P Osborne
Nature Plants|May 14, 2021
Crop origins explain variation in global agricultural relevanceRubén Milla, Colin P Osborne
Plant Physiology|September 16, 2003
The penalty of a long, hot summer. Photosynthetic acclimation to high CO2 and continuous light in "living fossil" conifersColin P Osborne, David J Beerling
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|March 24, 2006
Nature's green revolution: the remarkable evolutionary rise of C4 plantsColin P Osborne, David J Beerling
Pageof 12

Showing results (1-10 of 112) with videos related to

Sort By:
Pageof 12
Nature Plants|September 6, 2016
Crop yields: CO2 fertilization dries upColin P Osborne
Journal of Experimental Botany|November 23, 2013
Evolution of physiological processesColin P Osborne
The Journal of Ecology|September 12, 2008
Atmosphere, ecology and evolution: what drove the Miocene expansion of C(4) grasslands?Colin P Osborne
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|January 11, 2012
Evolution of C4 plants: a new hypothesis for an interaction of CO2 and water relations mediated by plant hydraulicsColin P Osborne, Lawren Sack
Annals of Botany|January 9, 2024
Diversification of quantitative morphological traits in wheatYixiang Shan, Colin P Osborne
Plant, Cell & Environment|July 22, 2024
Stomatal dynamics in Alloteropsis semialata arise from the evolving interplay between photosynthetic physiology, stomatal size and biochemistryYanmin Zhou, Colin P Osborne
Journal of Experimental Botany|December 16, 2014
Water relations traits of C4 grasses depend on phylogenetic lineage, photosynthetic pathway, and habitat water availabilityHui Liu, Colin P Osborne
Nature Plants|May 14, 2021
Crop origins explain variation in global agricultural relevanceRubén Milla, Colin P Osborne
Plant Physiology|September 16, 2003
The penalty of a long, hot summer. Photosynthetic acclimation to high CO2 and continuous light in "living fossil" conifersColin P Osborne, David J Beerling
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|March 24, 2006
Nature's green revolution: the remarkable evolutionary rise of C4 plantsColin P Osborne, David J Beerling
Pageof 12