Abstract
AbstractPhotosynthesis is an important driver of ecosystem sustainability in the face of climate change. Monocotyledonous crop species with C4 photosynthesis such as maize (Zea mays L; corn) and sugar cane are crucial for future food security and biofuel crop requirements, while C4 pasture grasses such as Paspalum are central to natural ecosystems. The global demand for corn will exceed that for wheat and rice by 2020, making it the world's most important crop. Light-driven photosynthesis supports plant biomass production, but plants have also evolved safety valve mechanisms that attenuate the absorption of potentially lethal levels of excess light. The array of survival responses that enables leaves to evade photoinhibition is complex and involves chloroplast and leaf movement as well as the molecular rearrangements that facilitate thermal energy dissipation. Here we report a novel morphological mechanism that allows C4 monocotyledonous leaves to regulate photosynthesis independently on each surface with respect to incident light allowing better adaptation to water deficits and light stress. We show that under abaxial illumination as occurs when monocotyledonous leaves curl in response to water stress the stomata close and photosynthetic metabolism shuts down on the adaxial surface of C4 leaves but these parameters increase in function to the abaxial surface. We discuss how this regulation confers a survival advantage to the C4 relative to C3 leaves which are unable to regulate their dorso-ventral functions in relation to light.
Highlights
Light absorptance, reflectance and transmission are similar in monocotyledonous C36 and C4 leaves as Paspalum[7] whether they are exposed to adaxial or abaxial illumination
The differential regulation of photosynthesis and stomatal function observed in the C4 leaves reveals the high degree of surface-dependent dorso-ventral regulation that serves to enhance the beneficial protective effects of leaf rolling in C4 grasses
We have studied the underlying mechanism that facilitates the asymmetry in the dorso-ventral regulation of photosynthesis in the leaves of C4 but not the C3 species
Summary
Absorptance, reflectance and transmission are similar in monocotyledonous C36 and C4 leaves as Paspalum[7] whether they are exposed to adaxial or abaxial illumination. Epidermis cell patterning on the adaxial and abaxial surfaces varied between the leaves of the different monocotyledonous species studied (data not shown).While wheat leaves have similar numbers of stomata on either side of the leaf, the leaves of the two C4 monocotyledonous species had higher stomatal densities on the abaxial surface (Fig. 1b). Whole leaf photosynthesis in wheat was independent of light orientation, i.e. to the adaxial or the abaxial surface (Fig. 2ai).
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