Effect of long-term H2S fumigation on photosynthesis in spinach. Correlation between CO2 fixation and chlorophyll a fluorescence

Spinach plunts (Spinacia oleracea L. cv. Monosa) were exposed to air with and without 0.25 μl l^-1 H₂S. Effects of H₂S exposure for up to 18 days on photosynthesis, dark respiration and on chlorophyll a fluorescence were studied. Dark respiration was not affected by H₂S fumigation. Photosynthetic CO₂ fixation decreased linearly with time in both control and fumigated plants. The rate of decrease in CO₂ fixation was faster in the fumigated plants; after 14 days of exposure the fumigated plants showed a decrease in CO₂ fixation of 23%äs compared with the control plants. The H₂S-induced decrease in CO₂ fixation was accompanied by a decrease in quenching of the chlorophyll fluorescence. The most characteristic change in chlorophyll fluorescence was a decreased difference between maximum and steady-state fluorescence [(P-T)/P), suggesting a reduced efficiency in the use of photochemical energy in photosynthesis. Differences in CO₂ fixation were more pronounced whcn measured at high light intensity; the maximum rate of CO₂ fixation at light saturation decreased significantly with time in the H₂S-exposed plants; after 14 days of H₂S exposure a decrease of more than 70% was noted. The decrease in CO₂ fixation could not be attributed to a decreased chlorophyll content; on the contrary, chlorophyll content even slightly increased during fumigation. The initial increase in CO₂ fixation rate with increasing light intensity was also reduced by prolonged H₂S fumigation, indicating an effect of H₂S fumigation on photosynthetic electron transport. Finally, the phytotoxicity of H₂S is discusscd in relation to the H₂S-induced changes in photosynthetic CO₂ fixation and chlorophyll a fluorescence, and the effect of H₂S on leaf development observed in earlier studies.