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Changes of soil characteristics, rice growth and lodging traits by different fertilization and drainage system in paddy soil  

Jeon, Weon-Tai (National Yeongnam Agricultural Experiment Station)
Park, Chang-Young (National Yeongnam Agricultural Experiment Station)
Park, Ki-Do (National Yeongnam Agricultural Experiment Station)
Cho, Young-Son (National Yeongnam Agricultural Experiment Station)
Lee, Jeom-Sig (National Yeongnam Agricultural Experiment Station)
Lee, Dong-Chang (National Yeongnam Agricultural Experiment Station)
Publication Information
Korean Journal of Soil Science and Fertilizer / v.35, no.3, 2002 , pp. 153-161 More about this Journal
Abstract
The installation of subsurface drainage equipment is required for generalized use of paddy field and to improve soil productivity. The internal drainage of paddy field has improved root condition from the increasing of oxygen supply and removing noxious elements. This experiment was carried out to determine the effects of fertilization and drainage system on soil characteristic, growth and lodging trait of rice in paddy soil. A subsurface drainage system was installed a depth of 0.8m. Three fertilizer treatments were applied : 1) Conventional fertilized plot, 2) Controlled-release fertilized plot, 3) No-fertilized plot. In conventional plot, 110 kg N (as urea 46%), 45 kg P (as fused phosphate 20%) and 57 kg K (as potassium chloride 60%) per hectare fertilizers were applied. Controlled-release fertilizer was applied by 70% of N compared to the conventional plot. During the rice cropping, the water depth decrease was two times higher in subsurface drainage(SD) plot than non-drained(ND) plot. After harvesting of rice, the bulk density of sub-soil(10-20cm depth) was lower in SD plot than ND plot. After the experiment, the surface soil pH was high at SD plot but sub-soil was high at ND plot. Organic matter content was higher in all soil layer for SD plot than fro ND plot. Available $P_2O_5$ was not different between SD and ND plot for surface soil, but was high for SD plot for sub soil. The $NH_4{^+}-N$ content of soil, shoot dry matter, total nitrogen and $K_2O$ of rice plant were greater after panicle formation stage in SD plot. Total nitrogen content, $P_2O_5$ and $K_2O$ of rice root were high in SD plot after heading. Though the gravity center and 3rd internode length were greater, pulling force of rice root was higher in SD plot than ND plot. Rice yield in SD plot were low at conventional and controlled-release fertilized plot because of the greater field lodging, but yield in SD plot was high at no-fertilized plot. This study indicates that the fertilization level should be decrease on subsurface drainage system for rice cropping.
Keywords
Paddy soil; Fertilization; Subsurface drainage; Lodging; Soil properties;
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  • Reference
1 Klute, A. 1986. Methods of soil analysis : part 1. physical and mineralogical methods. Amer. Soc. Agron. Inc. Madison USA pp 1188
2 Oh, J. S., K. S. You and Y. H. shin. 1974. Studies on percolation rate on main paddy soils. Res. Rept. RDA(S & F) 16 : 27-34
3 Ramasamy. S.. H. F. M. ten Berge and S. Purushothaman. 1997. Yield formation in rice in response to drainage and nitrogen application. Field crops research 51. 65-82   DOI   ScienceOn
4 Youn, K. H., J. S. Shin. D. C. Noh, Y. H. Kim. H. S. Lee and K. T. Um. 1991. The studies on the calculation of water consumption by soil characteristics in paddy soil. Res. Rept. RDA(S & F) 33(3):63-67
5 Chung, S. O. 1995. Analyses of subsurface drainage effects of farmland with respect to pipe and envelop material. Journal of the KSAE. Vol. 37 (5): 53-61
6 Chang, J. K.. H. Y. Kim. U. S, Yeo, S. J. Lim. K. Y. Lee, H. C. Choi. S. C. Kim and J. K. Sohn. 1999. Varietal difference and factor analysis of lodging tolerance in wet-seeded rice. Korean J. Breed 31(3):232-238
7 Kim. K. S. and Y. W. Kim. 1983. Studies on the leaching of the constituents in paddy soil. J. Korean Soc. Soil. Sci. Fert. Vol 16(4):311-317
8 RDA(Rural Development Administration). 1995. Standard methods for agricultural experiment
9 Houng, K.H. 1981. A theoretical evaluation of the influence of percolation rate on the thickness of the oxidizing zone of paddy soils. Proc. Natl. Sci. Counc. ROC(A). 5(4) : 274-278
10 RDA(Rural Development Administration). 1988. Methods of soil chemical analysis. National Institute of Agricultural Science and Technology. RDA. Suwon
11 RDA(Rural Development Administration). 1992. Report of soil survey in Korea, 2nd. edition. National Institute of AgricuItural Science and Technology, RDA. Suwon
12 O' Toole. J. C and Soemartono. 1981. Evaluation of a simple technique for characterizing rice root systems in relation to drought resistance. Euphytica 30 : 283-290   DOI
13 Kim, J. G., G. J. Park. G. Y. Kim and M. S. Han. 1996. Growth and yield performance of selected forage crops cultivated on imperfectly drained paddy field under subsurface drainage by PVC pipes. J. Korean Grassl. Sci. Vol. 13(3):219-224
14 Shin, W. K. 1984. Influence of percolation rate on nutrient uptake and yield of paddy rice. J. Korean Soc. Soil Sci. Fert. Vol. 17(3):218-223