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John A Raven

Showing results (71-80 of 165) with videos related to

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Physiologia Plantarum|April 15, 2008
Insights into the evolution of CCMs from comparisons with other resource acquisition and assimilation processesJohn A Raven, Mario Giordano, John Beardall
The New Phytologist|January 15, 2021
The maximum growth rate hypothesis is correct for eukaryotic photosynthetic organisms, but not cyanobacteriaT A V Rees, John A Raven
Journal of Experimental Botany|April 4, 2017
In Synechococcus sp. competition for energy between assimilation and acquisition of C and those of N only occurs when growth is light limitedZuoxi Ruan, John A Raven, Mario Giordano
Photosynthesis Research|January 7, 2014
Energy costs of carbon dioxide concentrating mechanisms in aquatic organismsJohn A Raven, John Beardall, Mario Giordano
Journal of Phycology|September 15, 2016
The relative availability of inorganic carbon and inorganic nitrogen influences the response of the dinoflagellate Protoceratium reticulatum to elevated CO<sub>2</sub>Mattia Pierangelini, John A Raven, Mario Giordano
The New Phytologist|March 23, 2017
Intraspecific chemical communication in microalgaeMarianna Venuleo, John A Raven, Mario Giordano
Current Biology : CB|March 4, 2014
A neoproterozoic transition in the marine nitrogen cyclePatricia Sánchez-Baracaldo, Andy Ridgwell, John A Raven
Journal of Experimental Botany|December 3, 2003
Global aspects of C/N interactions determining plant-environment interactionsJohn A Raven, Linda L Handley, Mitchell Andrews
Journal of Phycology|July 13, 2020
Inorganic carbon concentrating mechanisms in free-living and symbiotic dinoflagellates and chromeridsJohn A Raven, David J Suggett, Mario Giordano
Journal of Experimental Botany|May 16, 2017
The possible evolution and future of CO2-concentrating mechanismsJohn A Raven, John Beardall, Patricia Sánchez-Baracaldo
Pageof 17

Showing results (71-80 of 165) with videos related to

Sort By:
Pageof 17
Physiologia Plantarum|April 15, 2008
Insights into the evolution of CCMs from comparisons with other resource acquisition and assimilation processesJohn A Raven, Mario Giordano, John Beardall
The New Phytologist|January 15, 2021
The maximum growth rate hypothesis is correct for eukaryotic photosynthetic organisms, but not cyanobacteriaT A V Rees, John A Raven
Journal of Experimental Botany|April 4, 2017
In Synechococcus sp. competition for energy between assimilation and acquisition of C and those of N only occurs when growth is light limitedZuoxi Ruan, John A Raven, Mario Giordano
Photosynthesis Research|January 7, 2014
Energy costs of carbon dioxide concentrating mechanisms in aquatic organismsJohn A Raven, John Beardall, Mario Giordano
Journal of Phycology|September 15, 2016
The relative availability of inorganic carbon and inorganic nitrogen influences the response of the dinoflagellate Protoceratium reticulatum to elevated CO<sub>2</sub>Mattia Pierangelini, John A Raven, Mario Giordano
The New Phytologist|March 23, 2017
Intraspecific chemical communication in microalgaeMarianna Venuleo, John A Raven, Mario Giordano
Current Biology : CB|March 4, 2014
A neoproterozoic transition in the marine nitrogen cyclePatricia Sánchez-Baracaldo, Andy Ridgwell, John A Raven
Journal of Experimental Botany|December 3, 2003
Global aspects of C/N interactions determining plant-environment interactionsJohn A Raven, Linda L Handley, Mitchell Andrews
Journal of Phycology|July 13, 2020
Inorganic carbon concentrating mechanisms in free-living and symbiotic dinoflagellates and chromeridsJohn A Raven, David J Suggett, Mario Giordano
Journal of Experimental Botany|May 16, 2017
The possible evolution and future of CO2-concentrating mechanismsJohn A Raven, John Beardall, Patricia Sánchez-Baracaldo
Pageof 17