INFLUENCE OF PHOSPHORUS APPLICATION TO FLOODWATER ON OXYGEN CONCENTRATIONS AND SURVIVAL OF RICE DURING COMPLETE SUBMERGENCE

G. RAMA KRISHNAYYA; T. L. SETTER; R. K. SARKAR; P. KRISHNAN; I. RAVI

doi:10.1017/S0014479799002045

Abstract

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Low concentrations of phosphorous were added to the floodwater of submerged rice in an attempt to regulate algal growth, so as to increase floodwater O2 concentration and plant survival during submergence for up to 12 days. Increasing the phosphorus concentration of the floodwater by 1 ppm increased algal growth by at least 4-fold based on chlorophyll concentrations, and increased floodwater O2 concentrations to over twice air saturation. However, additions of phosphorus reduced rice plant survival during submergence by up to 35%. The adverse effects of a high phosphorus concentration in the floodwater were mainly attributed to competition between the algae and the submerged rice for CO2 and, perhaps, light. The importance of photosynthesis during the submergence of rice was supported by the results of experiments in which floodwater CO2 concentration was manipulated by altering pH. The survival of an intolerant rice cultivar during submergence increased from 0 to 17 and 62% at pH 8, 7 and 5 respectively, while floodwater CO2 concentrations at these pHs would have increased from 0.02 to 0.3 and 1.0 mol m−3 respectively. The results were used to question the importance of floodwater O2 concentrations above anoxia for submergence tolerance of rice.

Crossref Citations

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Panda, D. Rao, D. N. Sharma, S. G. Strasser, R. J. and Sarkar, R. K. 2006. Submergence effects on rice genotypes during seedling stage: Probing of submergence driven changes of photosystem 2 by chlorophyll a fluorescence induction O-J-I-P transients. Photosynthetica, Vol. 44, Issue. 1, p. 69.

Ella, Evangelina S. and Ismail, Abdelbagi M. 2006. Seedling Nutrient Status before Submergence Affects Survival after Submergence in Rice. Crop Science, Vol. 46, Issue. 4, p. 1673.

Son, J.E. Oh, M.M. Lu, Y.J. Kim, K.S. and Giacomelli, G.A. 2006. Nutrient-flow wick culture system for potted plant production: System characteristics and plant growth. Scientia Horticulturae, Vol. 107, Issue. 4, p. 392.

Singh, Sudhanshu Mackill, David J. and Ismail, Abdelbagi M. 2009. Responses of SUB1 rice introgression lines to submergence in the field: Yield and grain quality. Field Crops Research, Vol. 113, Issue. 1, p. 12.

Mackill, D.J. Ismail, A.M. Singh, U.S. Labios, R.V. and Paris, T.R. 2012. Vol. 115, Issue. , p. 299.

CrossRef

Panda, Debabrata and Sarkar, Ramani K. 2013. Characterization of Leaf Gas Exchange and Anti-oxidant Defense of Rice (Oryza sativa L.) Cultivars Differing in Submergence Tolerance Owing to Complete Submergence and Consequent Re-aeration. Agricultural Research, Vol. 2, Issue. 4, p. 301.

Gautam, Priyanka Nayak, A.K. Lal, B. Bhattacharyya, P. Tripathi, Rahul Shahid, Mohammad Mohanty, Sangita Raja, R. and Panda, B.B. 2014. Submergence tolerance in relation to application time of nitrogen and phosphorus in rice (Oryza sativa L.). Environmental and Experimental Botany, Vol. 99, Issue. , p. 159.

Colmer, T. D. Armstrong, W. Greenway, H. Ismail, A. M. Kirk, G. J. D. and Atwell, B. J. 2014. Progress in Botany. Vol. 75, Issue. , p. 255.

Gautam, Priyanka Lal, Banwari Raja, Rajagounder Baig, Mirza Jaynul Haldar, Deepika Rath, Liza Shahid, Mohammad Tripathi, Rahul Mohanty, Sangita Bhattacharyya, Pratap and Nayak, Amaresh Kumar 2014. Post–flood nitrogen and basal phosphorus management affects survival, metabolic changes and anti-oxidant enzyme activities of submerged rice (Oryza sativa). Functional Plant Biology, Vol. 41, Issue. 12, p. 1284.

Gautam, P. Lal, B. Raja, R. Baig, M.J. Mohanty, S. Tripathi, R. Shahid, M. Bhattacharyya, P. and Nayak, A.K. 2015. Effect of nutrient application and water turbidity on submergence tolerance of rice (Oryza sativa). Annals of Applied Biology, Vol. 166, Issue. 1, p. 90.

Ray, Anuprita Panda, Debabrata and Sarkar, Ramani Kumar 2017. Can rice cultivar with submergence tolerant quantitative trait locus (SUB1) manage submergence stress better during reproductive stage?. Archives of Agronomy and Soil Science, Vol. 63, Issue. 7, p. 998.

Sevanthi, Amitha Mithra Prakash, Chandra and Shanmugavadivel, P.S. 2019. Advances in Rice Research for Abiotic Stress Tolerance. p. 47.

Jiang, Yu Qian, Haoyu Huang, Shan Zhang, Xingyue Wang, Ling Zhang, Li Shen, Mingxing Xiao, Xiaoping Chen, Fu Zhang, Hailin Lu, Changying Li, Chao Zhang, Jun Deng, Aixing van Groenigen, Kees Jan and Zhang, Weijian 2019. Acclimation of methane emissions from rice paddy fields to straw addition. Science Advances, Vol. 5, Issue. 1,

Gautam, Priyanka Lal, B. Nayak, A. K. Tripathi, R. Shahid, M. Meena, B. P. Singh, Sudhanshu and Srivastava, A. K. 2019. Nutrient management and submergence-tolerant varieties antecedently enhances the productivity and profitability of rice in flood-prone regions. Journal of Plant Nutrition, Vol. 42, Issue. 16, p. 1913.

Sarkar, R.K. Chakraborty, K. Chattopadhyay, K. Ray, S. Panda, D. and Ismail, A.M. 2019. Advances in Rice Research for Abiotic Stress Tolerance. p. 281.

Banerjee, Aditya and Roychoudhury, Aryadeep 2020. Rice Research for Quality Improvement: Genomics and Genetic Engineering. p. 399.

Kumar, Anjani Nayak, A.K. Hanjagi, P.S. Kumari, Kavita S, Vijayakumar Mohanty, Sangita Tripathi, Rahul and Panneerselvam, P. 2021. Submergence stress in rice: Adaptive mechanisms, coping strategies and future research needs. Environmental and Experimental Botany, Vol. 186, Issue. , p. 104448.

Sarkar, Ramani K. Reddy, Jangi N. and Das, Satya R. 2021. Molecular Breeding for Rice Abiotic Stress Tolerance and Nutritional Quality. p. 75.

Li, Pengfei Zhang, Afeng Huang, Shiwei Han, Jiale Jin, Xiangle Shen, Xiaogang Hussain, Qaiser Wang, Xudong Zhou, Jianbin and Chen, Zhujun 2023. Optimizing Management Practices under Straw Regimes for Global Sustainable Agricultural Production. Agronomy, Vol. 13, Issue. 3, p. 710.

Zhang, Lian Jiang, Guoliang Xiao, Rusheng Hou, Kun Liu, Xin Liu, Xinyu Yuan, Pei Tian, Feng Yin, Lichu Zhu, Hongmei Tian, Chang Yang, Lan Yan, Xiaoyuan Rong, Xiangmin and Han, Yongliang 2024. An appropriate amount of straw replaced chemical fertilizers returning reduced net greenhouse gas emissions and improved net ecological economic benefits. Journal of Cleaner Production, Vol. 434, Issue. , p. 140236.

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INFLUENCE OF PHOSPHORUS APPLICATION TO FLOODWATER ON OXYGEN CONCENTRATIONS AND SURVIVAL OF RICE DURING COMPLETE SUBMERGENCE

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