Philip W. Rundel

Fire in Southern Australia

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Fire-adaptive trait evolution

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Plant diversity and fire

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Fire management of Mediterranean landscapes

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Evolution of CAM and C<sub>4</i> carbon-concentrating mechanisms

Mechanisms for concentrating carbon around the Rubisco enzyme, which drives the carbon-reducing steps in photosynthesis, are widespread in plants; in vascular plants they are known as crassulacean acid metabolism (CAM) and C4 photosynthesis. CAM is common in desert succulents, tropical epiphytes, and aquatic plants and is characterized by nighttime fixation of CO2. The proximal selective factor driving the evolution of this CO2-concentrating pathway is low daytime CO2, which results from the unusual reverse stomatal behavior of terrestrial CAM species or from patterns of ambient CO2 availability for aquatic CAM species. In terrestrials the ultimate selective factor is water stress that has selected for increased...

Categories: Publication; Types: Citation; Tags: International Journal of Plant Sciences