Ammonium nutrition increases photosynthesis rate under water stress at early development stage of rice (Oryza sativa L.) |
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Authors: | Shiwei Guo Gui Chen Yi Zhou Qirong Shen |
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Affiliation: | (1) College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing, 210095, China |
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Abstract: | An hydroponic experiment with a simulated water stress induced by PEG (6000) was conducted in a greenhouse to study the effects of nitrate (NO3 −), ammonium (NH4 +) and the mixture of NO3 − and NH4 +, on water stress tolerance of rice seedlings. Rice (Shanyou 63) was grown under non- or simulated water stress condition (10% (w/v) PEG, MW6000) with the 3 different N forms during 4 weeks. Under non-stressed condition no difference was observed among the N treatments. Under simulated water stress, seedlings grown on N-NO3 − were stunted. Addition of PEG did not affect rice seedling growth in the treatment of only NH4 + supply but slightly inhibited the rice seedling growth in the treatment of mixed supply of NO3 − and NH4 +. Simulated water stress, when only N-NH4 + was present, did not affect leaf area and photosynthesis rate, however, both parameters decreased significantly in the NO3 − containing solutions. Under water stress, Rubisco content in newly expanded leaves significantly increased in the sole NH4 + supplied plants as compared to that in plants of the other two N treatments. Under water stress, the ratio of carboxylation efficiency to Rubisco content was, respectively, decreased by 13 and 23% in NH4 + and NO3 − treatments, respectively. It is concluded that, water stress influenced the Rubisco activity than stomatal limitation, and this effects could be regulated by N forms. Responsible Editor: Herbert Johannes Kronzucker. Shiwei Guo and Gui Chen contributed equally to this paper. |
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Keywords: | Rice (Oryza sativa L.) Water stress Nitrogen form Photosynthesis |
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