Relationship Between Lodging Resistance and Chemical Contents in Culms and Sheaths of Japonica Rice During Grain Filling

doi:10.1016/S1672-6308(09)60032-9

Abstract

Abstract: To understand the relationship between lodging resistance and chemical component contents in culms and leaf sheaths of rice, the physical strength and maximum bearing capacity of culm, and the contents and amounts of potassium (K), silicon (Si) and soluble sugars in culms and leaf sheaths were investigated using four japonica rice varieties with different lodging resistance characteristics during grain filling. There were significant differences in the total amounts of K, Si and soluble sugars in culms and leaf sheaths among the tested rice varieties. The difference in the total amount of Si was greater than that of K or soluble sugars. The physical strength and maximum bearing capacity of culm continuously decreased from heading to ripening, with a rapid decrease at the dough stage. However, the contents and total amounts of K and Si in culms and the Si content in leaf sheaths gradually increased and an accumulation of K and Si in culms was exhibited, whereas the content and total amount of K and the total amount of Si in leaf sheaths gradually decreased and an exportation of K and Si in leaf sheaths was presented. The physical strength was positively and significantly correlated with the total amounts of K and Si in culms during grain filling except that at the heading stage, the total amount of soluble sugars in culms at the heading and milky stages, the total amounts of Si and soluble sugars in leaf sheaths at the heading stage, the total amount of K in leaf sheaths at the heading and milky stages, and the maximum bearing capacity during grain filling. It is suggested that the lodging resistance of japonica rice would be improved by increasing the amount of soluble sugars in plants at the early filling stage, and enhancing the amount of Si in plants during grain filling through topdressing Si fertilizer at the early filling stage.

Key words: japonica rice, grain filling, lodging resistance, chemical component content, dynamic change

ZHANG Feng-zhuan, JIN Zheng-xun, MA Guo-hui, SHANG Wen-nan, LIU Hai-ying, XU Mei-lan, LIU Yan . Relationship Between Lodging Resistance and Chemical Contents in Culms and Sheaths of Japonica Rice During Grain Filling[J]. RICE SCIENCE, 2010, 17(4): 311-318 .

References

Ai Z Y. 2006. Study on relationship between morphological and physiological traits and lodging resistance in super hybrid rice [PhD Thesis]. Changsha: Hunan Agricultural University. (in Chinese with English abstract)
Albrecht K A, Martin M J, Russel W A, Wedin W F, Buxton D R. 1986. Chemical and in vitro digestible dry matter composition of maize stalks after selection for stalk strength and stalk-rot resistance. Crop Sci, 26(5): 1051–1055.
Gong H J, Chen K M, Wang S M, Zhang C L. 2004. Advance in silicon nutrition of plants. Acta Bot Boreali-occidental Sin, 24(12): 2385–2392. (in Chinese with English abstract)
Guo Y H, Zhu S G, Zhang B L, Du H. 2003. Influence of different cultivation conditions on biochemistry components of rice culms. J Shenyang Agric Univ, 34(1): 4–7. (in Chinese with English abstract)
Ishimaru K, Togawa E, Ookawa T. 2008. New target for rice lodging resistance and its effect in typhoon. Planta, 227(3): 601–609.
Kashiwagi T, Ishimaru K. 2004. Identification and functional analysis of a locus for improvement of lodging resistance in rice. Plant Physiol, 134: 676–683.
Kashiwagi T, Togawa E, Hirotsu N, Ishimaru K. 2008. Improvement of lodging resistance with QTLs for stem diameter in rice (Oryza sativa L.). Theor Appl Genet, 117: 749–757.
Li H J, Zhang X J, Li W J, Xu Z J, Xu H. 2009. Lodging resistance in japonica rice varieties with different panicle types. Chin J Rice Sci, 23(2): 191–196. (in Chinese with English abstract)
Li Y H. 1979. Morphology and anatomy of cereal. Shanghai: Shanghai Science Press: 143–148. (in Chinese)
Liang Y C, Zhang Y C, Ma T S. 1993. Plant silicon nutrition. Soil Sci Prog, 21(3): 7–14. (in Chinese with English abstract)
Ma G H, Deng Q Y, Wan Y Z, Wang X H. 2000. Resistant physiology to lodging and morphological characters of super hybrid rice: I. Differences of Si, K and fiber contents of the plant between Pei’ai 64S/E32 and Shanyou 63. Hunan Agric Univ: Nat Sci, 26(5): 329–331. (in Chinese with English abstract)
Ma J, Ma W B, Tian Y H, Yang J D, Zhou K D, Zhu Q S. 2004. The culms lodging resistance of heavy panicle type of rice. Acta Agron Sin, 30(2): 143–148. (in Chinese with English abstract)
Ma J F, Yamaji N. 2006. Silicon uptake and accumulation in higher plants. Trends Plant Sci, 11: 392–397.
Ookawa T, Ishihara K. 1992. Varietal difference of physical characteristic of the culm related to lodging resistance in paddy rice. Jpn J Crop Sci, 61: 419–425.
Ookawa T, Ishihara K. 1993. Varietal difference of the cell wall components affecting the bending stress of the culm relating to the lodging resistance in paddy rice. Jpn J Crop Sci, 62: 378– 383.
Soil Science Society of China. 1983. Conventional Analysis Methods for Soil Agricultural Chemical. Beijing: Science Press: 274–286. (in Chinese)
Wan Y Z, Ma G H. 2003. A probe into the dynamic to lodging resistance of super hybrid rice. Hunan Agric Univ: Nat Sci, 29(2): 92–94. (in Chinese with English abstract)
Wang Q Y, Hu C H. 1991. Studies on the anatomical structures of the stalks of maize with different resistance to lodging. Acta Agron Sin, 17(1): 70–75. (in Chinese with English abstract)
Wang X Q. 2006. Principles and Techniques of Plant Physiological Biochemical Experiment. Beijing: Higher Education Press: 202– 204. (in Chinese)
Wu X J. 2000. Possible approaches to improve rice heterosis. Chin J Rice Sci, 14(1): 61–64. (in Chinese with English abstract)
Xiao Y H, Luo L H, Yan X Y, Gao Y H. 2005. Quantitative trait locus analysis of lodging index in rice (Oryza sativa L.). Acta Agron Sin, 31(3): 348–354. (in Chinese with English abstract)
Xu S X, Xu X B. 1984. Morphology and Anatomy of Rice. Beijing: Agricultural Press: 28–31. (in Chinese)
Yang C M, Yang L Z, Yan T M, Ou Y Z. 2004. Effects of nutrient and water regimes on lodging resistance of rice. Chin J Appl Ecol, 15(4): 646–650. (in Chinese with English abstract)
Yang H J, Yang R C, Li Y Z, Jiang Z W, Li J S. 2000. Relationship between culms traits and lodging resistance of rice cultivars. Fujian J Agric Sci, 15(2): 1–7. (in Chinese with English abstract)
Yang S M, Xie L, Zhen S L, Li J, Yuan J C. 2009. Effects of nitrogen rate and transplanting density on physical and chemical characteristics and lodging resistance of culms in hybrid rice. Acta Agron Sin, 35(1): 93–103. (in Chinese with English abstract)
Zhang Q Y, Ouyang Y N, Dai W M, Yu S M, Zhuang J Y, Jing Q Y, Cheng S H. 2005. Relationship between traits of basal elongation internodes and lodging and QTL mapping in rice. Acta Agron Sin, 31(6): 712–717. (in Chinese with English abstract)
Zhang X J, Li H J, Li W J, Xu Z J, Chen W F, Zhang W Z, Wang J Y. 2009. The lodging resistance of erect panicle japonica rice in northern China. Sci Agric Sin, 42(7): 2305–2313. (in Chinese with English abstract)
Zhang Z X, Sui G M, Hua Z T, Li Q Y, Chen W F, Hao X B, Zhu C B, Yao J P, Zhang L Y. 2008. Analysis on lodging resistance of japonica rice with higher stem and drooping panicles. Hybrid Rice, 23(4): 65–68. (in Chinese with English abstract)
Zheng A Z, Ren X P. 2004. The function of silicon in rice physiology. Agric & Tech, 24(1): 50–52. (in Chinese with English abstract)
Zhou L H. 2006. Effects of stem physiological properties on lodging resistance in hybrid rice. J Henan Agric Sci, (6): 20–23. (in Chinese with English abstract)
Zou D T, Qiu T Q, Zhao H W, Cui C H. 1997. Correlation and path analysis on the lodging index and other characters in rice. J Northeast Agric Univ, 28(2): 112–118. (in Chinese with English abstract)

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