Salinity Effects on Photosynthesis in Isolated Mesophyll Cells of Cowpea Leaves

Abstract

Mesophyll cells from leaves of cowpea (Vigna unguiculata [L.] Walp.) plants grown under saline conditions were isolated and used for the determination of photosynthetic CO2 fixation. Maximal CO2 fixation rate was obtained when the osmotic potential of both cell isolation and CO2 fixation assay media were close to leaf osmotic potential, yielding a zero turgor pressure. Hypotonic and hypertonic media decreased the rate of photosynthesis regardless of the salinity level during plant growth. No decrease in photosynthesis was obtained for NaCl concentrations up to 87 moles per cubic meter in the plant growing media and only 30% decrease was found at 130 moles per cubic meter when the osmotic potential of cell isolation and CO2 fixation media were optimal. The inhibition was reversible when stress was relieved. At 173 moles per cubic meter NaCl, photosynthesis was severely and irreversibly inhibited. This inhibition was attributed to toxic effects caused by high Cl- and Na+ accumulation in the leaves. Uptake of sorbitol by intact cells was significant, and therefore not associated with cell volume changes. The light response curve of cells from low salinity grown plants was similar to the controls. Cells from plants grown at 173 moles per cubic meter NaCl were light saturated at a lower radiant flux density than were cells from lower salinity levels.