Implications of quantum yield differences on the distributions of C3 and C4 grasses

Abstract

The implications of a reduced quantum yield (initial slope of the photosynthetic light response curve) in C₄ plants and temperature dependence of quantum yield in C₃ plants on total canopy primary production were investigated using computer simulations. Since reduced quantum yield represents the only known disadvantage of the C₄ photosynthetic pathway, simulations were conducted with grass canopies (high LAI and hence photosynthesis in most leaves will be light-limited) to see if quantum yield is a significant factor in limiting the primary production and thus distributions of C₄ grasses. Simulations were performed for three biogeographical or environmental conditions: the Great Plains region of North America, the Sonoran Desert of North America, and shade habitats. For all three cases, the simulations predicted either spatial or temporal gradients in the abundances of C₄ grasses identical to the abundance patterns of C₄ grasses observed in the field. It is thus concluded that while the C₄ photosynthetic mechanism may be highly advantageous in specific environments, it may be disadvantageous in others.