Two species of Atriplex were grown under low temperature (8 C day/ 6 C night) and high temperature (28 C day/20 C night) regimes. The photosynthetic capacity of these plants was studied as a function of temperature in a leaf gas exchange cuvette. Both species showed substantial photosynthetic capacity between 4 and 10 C and this was not enhanced by growth at low temperatures but rather, was somewhat greater in plants grown at higher temperature. Photosynthetic capacity of low temperature-grown plants at high temperature was greater in Atriplex confertifolia (Torr. and Frem.) S. Watts., a native of cool deserts, than in Atriplex vesicaria (Hew. ex. Benth.) from warmer desert areas. Leaves of both species were also subjected to 4CO% pulsechase and steady-state feeding experiments under controlled temperature conditions. These experiments revealed that the kinetics of carbon assimilation through the intermediates of the C4 pathway is not substantially disrupted at low temperature in either species. There was, however, a substantial interchange of label between aspartate and malate at low temperature which was not evident at high temperature. There was also an increase in the pool sizes of the C4 acids involved in photosynthesis of A. confertifolia. Speculation as to the explanation of these changes and their possible significance in promoting low temperature C4 photosynthesis in these plants is presented.The C4 pathway of photosynthesis has been most commonly associated with plants of tropical or warm and environments, a notion supported by recent statistical evaluation of the percentage of C4 species in regional grass and dicotyledon floras in North America in relation to climatic factors (27,31). These studies indicate that the occurrence of C4 grasses is best correlated with night temperature during the growing season and that the occurrence of C4 dicotyledons is best correlated with summer pan evaporation. It would be difficult to assess the performance, as opposed to the occurrence, in such a comprehensive way, but the few published studies of C4 photosynthesis as a function of temperature further indicate that most of the grasses examined are low temperature-limited. Thus, several C4 tropical grasses show low temperature compensation points between 6.5 and 10 C (18) and many are chilling-sensitive, showing impaired photosynthesis and Chl breakdown after relatively brief exposure to temperatures to 10 C (20,24,30). A C4 dicotyledon,
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