To evaluate the role of methyl jasmonate (MeJA) on ozone (O
3: 0, 0.1, 0.3 cm
3 m
−3; abbreviated respectively as O
0, O
0.1 and O
0.3)-induced photosynthetic inhibition of rice leaves at different atmospheric carbon dioxide (CO
2) concentrations (400 and 800 cm
3 m
−3; abbreviated respectively as C
400 and C
800), MeJA solutions (0, 10, 100 μM; abbreviated respectively as M
0, M
10, and M
100) were applied one day before acute exposure (5 h) of O
3. Gas exchange, chlorophyll fluorescence and ascorbic acid were measured immediately before (BE), immediately after (AE-0), and 1 d and 3 d after (AE-1, AE-3) O
3 exposure. The net photosynthetic rate (
PN), and maximum (
Fv/
Fm) and operating (
Fq′/
Fm′) quantum efficiencies of photosystem II (PSII) were decreased by O
3 exposure at AE-0. However, MeJA ameliorated the O
3-inhibition of
Fv/
Fm and
Fq′/
Fm′ of PS II. Rapid recovery from O
3-inhibition of
PN was observed as a result of MeJA application, but MeJA decreased the
PN and stomatal conductance (
gs) at AE-0. The O
3 decreased the total ascorbic acid content, although the MeJA increased it. The effects of MeJA on the O
3-inhibition of PSII and ascorbic acid content at C
800 were less than at C
400.
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