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Acta Agron Sin ›› 2011, Vol. 37 ›› Issue (08): 1423-1431.doi: 10.3724/SP.J.1006.2011.01423

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY • Previous Articles     Next Articles

Effects of Interaction between Phosphorus Nutrition and Cultivation Methods on Grain Yield and Phosphorus Utilization of Upland Rice and Paddy Rice

ZHANG Ya-Jie,HUA Jing-Jing,LI Ya-Chao,CHEN Ying-Ying,YANG Jian-Chang*   

  1. Key Laboratory of Crop Genetics and Physiology of Jiangsu Province / Key Laboratory of Crop Physiology, Ecology and Cultivation in Middle and Lower Reaches of Yangtze River of Ministry of Agriculture, Yangzhou University, Yangzhou 225009, Jiangsu, China
  • Received:2010-11-22 Revised:2011-04-27 Online:2011-08-12 Published:2011-06-13
  • Contact: 杨建昌, E-mail: jcyang@yzu.edu.cn, Tel: 0514-87979317

Abstract: The objective of this study was to investigate the grain yield and the phosphorus utilization efficiency in responses to phosphorous (P) fertilizer and the interaction between cultivation methods and P levels in upland rice and paddy rice. One japonica upland rice cultivar Zhonghan 3 and one japonica paddy rice cultivar Yangfujing 8 were grown under the moist cultivation (MC, contro1) or bare dry-cultivation(DC) with low amount of P (LP, 45 kg ha-1), norma1 amount of P (NP, 90 kg ha-1), and high amount of P (HP, 135 kg ha-1). Under DC, with the increase of P level, both upland rice and paddy rice significantly increased grain yield and P accumulation, andupland rice showeda significant decrease and paddy rice had no difference in P use efficiency of matter production and P use efficiency of grain yield production. Under MC, there was no significant difference in grain yield, P accumulation amount, and P use efficiency of grain yield production. There was a significant decrease in P use efficiency of matter production between HP and NP for the upland rice, but the grain yield and P accumulation at HP were lower than at NP, there was no significant difference in P use efficiency of matter production and P use efficiency of grain yield production between HP and NP for paddy rice. When compared with MC, DC showed less number of adventitious roots, lower P accumulation amount, higher P use efficiency of matter production, lower P use efficiency of grain yield production, and lower grain yield for both upland and paddy rice with more reduction in grain yield for upland rice than for paddy rice. Compared with paddy rice, upland rice showed less number of adventitious roots, lower P accumulation amount, fewer panicles, higher seed setting rate and higher 1000-grain weight, lower grain yield,higher P use efficiency of matter production and higher P use efficiency of grain yield production. Upland rice showed a faster declining inchlorophyll content (SPAD value) of the flag leaf after anthesis. The cultivation methods and phosphorus nutritionhad significant or very significant effects on the P accumulation amount after anthesis, P use efficiency of grain yield production, and adventitious roots for both upland rice and paddy rice. The P accumulation amount after anthesis was very significantly and positively correlated with grain yield and adventitious roots, and very significantly and negatively correlated with P use efficiency. Increase in P levels could increase grain yield for both upland and paddy rice under DC, and the response of the two types of rice cultivars to P levels is different under either DC or MC.

Key words: Upland rice, Paddy rice, Dry cultivation, Phosphorus utilization, Grain yield

[1]Benbi D K. Efficiency of nitrogen use by dry-land wheat in a sub-humid region in relation to optimizing the amount of available water. J Agric Sci, 1989, 115: 7-10
[2]Jin K(金轲), Wang D-S(汪德水), Cai D-X(蔡典雄), Zhou Y(周涌), Guo S-C(郭世昌), Huang F(黄峰), Wang C-L(王翠玲). Differences of root morphology and physiological characteristics between two rape genotypes with different P-efficiency. Plant Nutr Fert Sci (植物营养与肥料学报), 1999, 5(1): 1-7 (in Chinese with English abstract)
[3]Bekele T, Cino B J, Ehlert P A I, Van der Maas A A, Van Diest A. An evaluation of plant-borne factors promoting the solubilization of alkaline rock phosphates. Plant Soil, 1983, 75: 361-378
[4]Fageria N K, Barbosa Filho M P, Carvalho J R P. Response of upland rice to phosphorus fertilization on an oxisol of central Brazil. Am Soc Agron, 1982, 74: 51-56
[5]Li Y-L(李亚龙), Cui Y-L(崔远来), Lü G-A(吕国安), Liang Z-C(梁志宸), Li Y-H(李远华), Feng Y- H(冯跃华). Phosphorus efficiency and water productivity of aerobic rice under different water regimes. Water-Saving Irrigation (节水灌溉), 2005, (6): 1-7 (in Chinese with English abstract)
[6]Delaney K J, WeaverD K, Peterson R K. Photosynthesis and yield reductions from wheat stem Sawfly (Hymenoptera: Cephidae): Interactions with wheat solidness, water stress, and phosphorus deficiency. J Econ Entomol, 2010, 103(2). 516-524
[7]Li S-X(李生秀), Li S-Q(李世清). The effects of different treatments with water and fertilizer on available N and P in dryland soil. Agric Res Arid Areas (干旱地区农业研究), 1995, 13(1): 6-13(in Chinese with English abstract)
[8]He Y-Q(何圆球), Li C-L(李成亮), Wang X-X(王兴祥) , Xiong Y-S(熊又升), Shen Q-R(沈其荣). Effect of soil moisture content and phosphorus application on phosphorus uptake by rice cultivated in aerobic soil. Acta Pedol Sin (土壤学报), 2005, 42(4): 628-634(in Chinese with English abstract)
[9]Gu Q-R(谷秋荣), Yang Z-P(杨占平), Wang Q-J(王秋杰), Li R-P(李瑞萍), Gong R-X(龚瑞霞). Effect of irrigation on nutrient movement of N, P and K in soil. Agric Res Arid Areas (干旱地区农业研究), 2002, 20(4): 30-33(in Chinese with English abstract)
[10]Yin J-L(尹金来), Zhou C-L(周春霖), Shen Q-R(沈其荣), Hong L-Z(洪立洲), Wang K(王凯), Wang M-W(王茂文), Ding J-H(丁金海). Availabilities of phosphorus in soil and rice plant under waterlogged and aerobic conditions. J Nanjing Agric Univ (南京农业大学学报), 2002, 25(4): 53-56(in Chinese with English abstract)
[11]Liu M(刘铭), Wu L-H(吴良欢). Study on changes of soil fertility in rain fed paddy soils with mulching plastic film. Acta Agric Zhejiangensis (浙江农业学报), 2003, 15(1): 8-12(in Chinese with English abstract)
[12]He Y-Q(何圆球), Shen Q-R(沈其荣), Kong H-M(孔宏敏), Wang X-X(王兴祥), Xiong Y-S(熊又升). Effect of soil moisture and phosphorus contents of red soil under rice cultivation in aerobic soil condition. J Soil Water Conserv (水土保持学报), 2003, 17(2): 5-8 (in Chinese with English abstract)
[13]Zhao Q-Z(赵全志), Gao T-M(高桐梅), Yin C-Y(殷春渊), Ning H-F(宁慧峰), Lü Q(吕强). Effects of moisture on content of major nutrients in soil and upland rice plants. Agric Res Arid Areas (干旱地区农业研究), 2006, 24(2): 61-65 (in Chinese with English abstract)
[14]de Varennes A, de Melo-Abreu J P, Ferreira M E. Predicting the concentration and uptake of nitrogen, phosphorus and potassium by field-grown green beans under non-limiting conditions. Eur J Agron, 2002, 17: 63-72
[15]Jugsujinda A, Krairapanond A, Patrick Jr W H. Inflence of extractable iron, aluminum and management on P-sorption flooded acid sulfate soils. Biol Fertil Soils, 1995, 20:118-124
[16]Lou Y-S(娄运生), Li Z-P(李忠佩), Zhang T-L(张桃林). Change in available P content in paddy soils as affected by phosphate fertilization and soil moisture regime. Soils (土壤), 2005, 37(6): 640-644 (in Chinese with English abstract)
[17]Zhang S-H(张书华), Yu C-S(余常水), Tang X-Q(唐相群), Wang H-X(王怀昕). Effects of applying amount of phosphoric fertilizer on rice quality and yield of non-pollution rice. Guizhou Agric Sci (贵州农业科学), 2005, 33(5): 43-44 (in Chinese with English abstract)
[18]Sun H-M(孙慧敏), Yu Z-W(于振文), Yan H(颜红), Shi G-P(史桂萍). Effect of phosphorus rate applied on quality, yield and nitrogen utilization in winter wheat. J Triticeae Crops (麦类作物学报), 2006, 26(2): 135-138 (in Chinese with English abstract)
[19]Wang L Z, Chen F J, Zhang F S, Mi G H. Two strategies for achieving higher yield under phosphorus deficiency in winter wheat grown in field conditions. Field Crops Res, 2010, 118: 36-42
[20]Zhang Y-J(张亚洁), Yang J-C(杨建昌), Du B(杜斌). Effects of cultivation methods on the absorption and use efficiency of phosphorus in upland rice and paddy rice. Acta Agron Sin (作物学报), 2008, 34(1): 126-132 (in Chinese with English abstract)
[21]Weng X Y, Xu H X, Yang Y, Peng H H. Water-water cycle involved in dissipation of excess photon energy in phosphorus deficient rice leaves. Biol Plant, 2008, 52: 307-313
[22]Lu R-K(鲁如坤). Methods of Agricultural Chemical Analysis in Soil (土壤农业化学分析方法). Beijing: China Agricultural Science and Technology Press, 1999. pp 181-182 (in Chinese)
[23]Baker D E, Jarrel A E, Marshall L E, Thomas W I. Phosphorus uptake from soils by corn hybrids selected for high and low phosphorus accumulation. Am Soc Agron, 1970, 62: 103-106
[24]Silva A E D, Gabelman W H. Screening maize inbred lines for tolerance to low-P stress condition. Plant Soil, 1992, 146: 181-187
[25]Liu J-Z(刘建中), Li Z-S(李振声). Utilization of plant potentialities to enhance the bio-efficiency of phosphorus in soil. Eco-agric Res (生态农业研究), 1994, 2(1):16-23.(in Chinese with English abstract)
[26]Feest Z, Delgado A, Miren M A. The effect of phosphorus on growth and cluster-root formation in the Chilean Proteaceae: Embothrium coccineum (R. et J. Forst.). Plant Soil, 2010, 334: 113-121
[27]Zhang Y-J(张亚洁), Chen H-J(陈海继), Diao G-H(刁广华), Lin Q-S(林强森), Yang J-C(杨建昌). Effects of cultivation methods on the growth characteristics and yield formation in upland and paddy rice. Jiangsu J Agric Sci (江苏农业研究), 2006, 22(3): 205-211 (in Chinese with English abstract)
[28]Tunney H, Kirwan L, Fu W, Culleton N, Black A D. Long-term phosphorus grassland experiment for beef production—impacts on soil phosphorus levels and live weight gains. Soil Use Manag, 2010, 26: 237-244
[29]Ling Q-H(凌启鸿). Crop Population Quality (作物群体质量). Shanghai: Shanghai Scientific and Technical Publishers, 2000. pp 154-178 (in Chinese)
[30]Wang S-L(王树亮), Tian Q-Z(田奇卓), Li N-N(李娜娜), Xie L-J(谢连杰), Pei Y-T(裴艳婷), Li H(李慧). Differences of phosphorus utilization efficiency among different wheat varieties. J Triticeae Crops (麦类作物学报), 2008, 28(3): 476-486 (in Chinese with English abstract)
[31]Ramaekers L, Remans R, Rao I M, Blairc M W, Vanderleyden J. Strategies for improving phosphorus acquisition efficiency of crop plants. Field Crops Res, 2010, 117: 169-176
[32]Messiga A J, Ziadi N, Plenet D, Parent L E, Morel C. Long-term changes in soil phosphorus status related to P budgets under maize monoculture and mineral P fertilization. Soil Use Manag, 2010, 26: 354-364
[33]Bremner J M. Nitrogen availability indices. In: Black C A, ed. Methods of Soil Analysis. Part 2: Chemical and Microbiological Properties. Madison, Wisconsin: American Soc Agron, 1983. pp 1324-1345
[34]Rhoads F M, Mansell R S, Hammond L C. Influence of water and fertilizer management on yield and water input efficiency of corn. Am Soc Agron, 1978, 70: 305-308
[35]Delaney K J, Weaver D K, Peterson R K. Photosynthesis and yield reductions from wheat stem sawfly (Hymenoptera: Cephidae): interactions with wheat solidness, water stress, and phosphorus deficiency. J Econ Entomol, 2010, 103: 516-524
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