Journal
AMERICAN JOURNAL OF BOTANY
Volume 94, Issue 3, Pages 382-399Publisher
BOTANICAL SOC AMER INC
DOI: 10.3732/ajb.94.3.382
Keywords
bundle sheath; C-3-C-4 photosynthesis; C-4 photosynthesis; C-4-like photosynthesis; interveinal distance; mesophyll; parallel evolution; vein density
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Kranz anatomy and C-4 vein pattern are required for C-4 biochemical functioning in C-4 plants; however, the evolutionary timing of anatomical and biochemical adaptations is unknown. From the genus Flaveria, 16 species (C-3, C-4, intermediates [C-3-C-4, C-4-like]) were analyzed, novel anatomical and vein pattern characters were analyzed and key anatomical differences among photosynthetic groups were highlighted. A stepwise acquisition of anatomical and vein pattern traits prior to derived biochemistry was outlined on the basis of the phylogeny of Flaveria. Increased vein density represents a potential precondition contributing to lower ratios of photosynthetic tissues (mesophyll, bundle sheath) and precedes further anatomical and biochemical modifications observed in derived C-3-C-4 intermediates. In derived Flaveria species, bundle sheath volume is modified through cell expansion, whereas mesophyll volume is altered through mesophyll cell expansion, reductions in the number of ground tissue layers, and increased vein density. Results demonstrated that key anatomical features of C-4 plants are also required for C-3-C-4 biochemical intermediacy, and anatomical and biochemical alterations acquired during evolution of intermediacy may predispose a species for evolution of C-4 photosynthesis. C-4-like species are similar to C-4 species, demonstrating that Kranz anatomy is fully evolved before complete C-4 biochemistry is achieved.
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