A comparative study on the photosynthetic parameters among intergeneric progenies derived from %Oryza sativa% L.×%Sorghum vulgare% L., its maternal parent Gui 630 and commercial 3|line hybrid rice Shanyou 63 in pot experiment in greenhouse was conducted. The morphological and photosynthetic characters of canopy leaves and chlorophyll fluorescence kinetic parameters including %F%-v/%F%-m, %F%-v/%F%-0, photochemical quenching coefficient and non|photochemical coefficient of canopy leaves of 3 varieties were measured. The results showed the progeny, Yuanyou 1, derived from an intergeneric cross of rice and sorghum possesses better canopy spatial architecture with thicker, heavier and bigger canopy leaf than its maternal parent Gui 630. Higher photosynthetic rate due to higher chlorophyll content, higher primary energy transformation efficiency, potential of PSII and non|photochemical quenching coefficient (%q%-E) were also measured in Yuanyou 1. These explain partly why the intergeneric progeny has higher biomass production, and better tolerance to adverse conditions and higher field yields even under stress conditions. A comparative study on the photosynthetic parameters among intergeneric progenies derived from % Oryza sativa % L. × % Sorghum vulgare % L., its maternal parent Gui 630 and commercial 3 | line hybrid rice Shanyou 63 in pot experiment in greenhouse was conducted. The morphological and photosynthetic characters of canopy leaves and chlorophyll fluorescence kinetic parameters including % F % - v / % F % - m, % F % - v / % F % - 0, photochemical quenching coefficient and non | photochemical coefficient of canopy leaves of 3 varieties were measured. The results showed the progeny, Yuanyou 1, derived from an intergeneric cross of rice and sorghum possesses better canopy spatial architecture with thicker, heavier and bigger canopy leaf than its maternal parent Gui 630. Higher photosynthetic rate due to higher chlorophyll content, higher primary energy transformation efficiency, potential of PSII and non | photochemical quenching coefficient (% q % - E) were also measured in Yuanyou 1 . These explained partly why the intergeneric progeny has higher biomass production, and better tolerance to adverse conditions and higher field yields even under stress conditions.