Browse > Article
http://dx.doi.org/10.5322/JESI.2021.30.8.659

Application of Italian Ryegrass-Rice Double Cropping Systems to Evaluate the Physicochemical Properties of Soil and Yield and Quality of Rice in Paddy Field in Southern Parts of Korea  

Oh, Seo Young (Paddy Crop Research Division, Department of Southern Area Crop Science, National Institute of Crop Science)
Oh, Seong Hwan (Paddy Crop Research Division, Department of Southern Area Crop Science, National Institute of Crop Science)
Seo, Jong Ho (Paddy Crop Research Division, Department of Southern Area Crop Science, National Institute of Crop Science)
Choi, Jisu (Paddy Crop Research Division, Department of Southern Area Crop Science, National Institute of Crop Science)
Publication Information
Journal of Environmental Science International / v.30, no.8, 2021 , pp. 659-671 More about this Journal
Abstract
The physicochemical properties of soil and the yield and quality of rice (Oryza sativa L. cv. Sailmi) were assessed using Italian ryegrass (Lolium multiflorum Lam. cv. Kowinearly)-rice double cropping systems in the paddy fields at Goseong and Miryang in southern Korea. The average temperatures during the ripening period were approximately 1 ℃ higher than the optimal temperature for rice ripening and the sunshine duration was reduced by frequent rainfall. Consequently, it was slightly below the optimal conditions required for rice ripening. In the soil at Goseong, winter Italian ryegrass cropping increased the pH, electrical conductivity, and the contents of organic matter, total nitrogen (T-N), available P2O5, K, Ca, and Mg than winter fallowing. Particularly, the contents of T-N and available P2O5increased significantly. In the soil at Miryang, Italian ryegrass slightly increased the electrical conductivity and the T-N, Mg, and Na contents. Therefore, winter Italian ryegrass cropping improved the physicochemical properties of paddy soils; however, Italian ryegrass-rice double cropping slightly reduced the culm length at both Goseong and Miryang, without markedly changing the panicle length or number compared to fallow-rice cropping. Furthermore, at Goseong, Italian ryegrass-rice double cropping slightly decreased the spikelet number and milled rice yield, and increased the ripened grain rate; however, at Miryang, contrasting results were observed. In addition, fallow-rice cropping revealed no differences in the head rice or opaque rice rates. The protein content was slightly increased in Italian ryegrass-rice double cropping, without significant changes in the amylose content or Toyo value, compared to that in fallow-rice cropping. The peak and breakdown viscosities were slightly decreased. These results indicate that winter Italian ryegrass cropping might alter rice taste but may not exhibit remarkable negative effects on rice cultivation. Therefore, Italian ryegrass-rice double cropping system is recommended for paddy fields in southern Korea. Nevertheless, to increase the rice yield and quality, fertilization standards for rice cropping that consider the changes in the T-N and organic matter contents in paddy fields caused by winter Italian ryegrass cropping need to be established.
Keywords
Double cropping systems; Fertilization standard; Milled rice yield; Rice quality; Soil physico-chemical properties;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Prasad, P. V. V., Boote, K. J., Allen Jr, L. H., Sheehy, J. E., Thomas, J. M. G., 2006, Species, ecotype and cultivar differences in spikelet fertility and harvest index of rice in response to high temperature stress, Field Crop. Res., 95, 398-411.   DOI
2 Rural Development Administration (RDA), 2012, A basic manual for the agricultural technology dissemination: Stable production technology for high-quality rice, RDA, Suwon, Korea, 53.
3 Sang, W. G., Cho, H. S., Kim, J. H., Shin, P., Baek, J. K., Lee, Y. H., Cho, J. I., Seo, M. C., 2018, The change of grain quality and starch assimilation of rice under future climate conditions according to RCP 8.5 scenario, Korean J. Agric. Forest Meteo., 20, 296-304.   DOI
4 Son, J. R., Kim, J. H., Lee, J. I., Youn, Y. H., Kim, J. K., Hwang, H. G., Moon, H. P., 2002, Trend and further research of rice quality evaluation, Korean J. Crop Sci., 47, 33-54.
5 Ju, J. I., Kang, Y. S., Seong, Y. G., Ji, H. J., Lee, H. B., 2012, Study on high forage production in double cropping systems with barley and corn at paddy field in middle region, J. Korean Grassland Forage Sci. 32, 258-292.
6 Song, Y. S., Park, W. K., Lee, Y. J., Lee, J. S., Yun, H. B., 2011, Estimation of nitrogen optimum level for rice planting after italian ryegrass (Lolium multiflorum Lam.) cultivation, Korean J. Soil Sci. Fert., 44, 448-451.   DOI
7 Won, J. G., Lee, S. H., Choi, J. S., Park, S. G., Ahn, D. J., Park, S. D., Son, J. K., 2005, Yearly variation of rice quality in Gyeoungbuk province, Korean J. Crop Sci., 50, 69-76.
8 Lee, J. H., Choi, J. H., Kim, S. Y., Lee, J. Y., Kim, C. S., Yeo, U. S., Song, Y. C., Sohn, Y. B., Oh, M. K., Kang, H. W., Nam, M. H., 2012, Correlation analysis between head rice ratio and agronomic traits in RILs for developing a promising rice cultivar adaptable to the early-transplanting cultivation, Korean J. Crop Sci., 57, 1-6.   DOI
9 Heu, M. H., Moon, H. P., 1974, Basic studies for the breeding of high protein rise IV. Effect of short-day and high-temperature treatment on the amylose and crude protein content of rice, Korean J. Crop Sci., 14, 129-133.
10 Jeon, W. T., Park, H. M., Chung, J. B., Park, K. D., Park, C. Y., Yang, W. H., 2005, Effect of reduced fertilization considering residual soil nutrients on rice yield and salt removal in greenhouse vegetables and rice cropping system, Korean J. Soil Sci. Fert., 38, 85-91.
11 Juliano, B. O., 1985, Physicochemical properties of rice, American Association of Cereal Chemists, St. Paul, MN, USA. 539.
12 Kim, C. E., Kang, M. Y., Kim, M. H., 2012, Comparison of properties affecting the palatability of 33 commercial brands of rice, Korean J. Crop Sci., 57, 301-309.   DOI
13 Choi, H. C., Hong, H. C., Nahm, B. H., 1997, Physicochemical and structural characteristics of grain associated with palatability in japonica rice, Korean J. Breed., 29, 15-27.
14 Shin, J. H., Han, C. M., Kwon, J. B., Kim, S. K., 2019, Effect of climate on the yield of different maturing rice in the Yeongnam inland area over the past 20 years, Korean J. Crop Sci., 64, 193-203.
15 Kim, H. J., Chung, I. H., 2020, Locational characteristics and shrinking prediction of rice paddy fields in south Korea, J. Agric. Ext. Comm. Develop., 27, 75-87.   DOI
16 Kim, T. H., Hur, Y. J., Oh, S. H., Lee, J. Y., Cho, J. H., Han, S. I., Lee, J. H., Baek, D., Song, Y. C., Choi, W. Y., Nam, M. H., Park, D. S., Kwon, Y. U., Shin, D., 2016, Analysis of growth characteristics and yield components according to rice varieties between on irrigated and partially irrigated rice paddy field, Korean J. Crop Sci., 61, 17-24.   DOI
17 Lee, J. C., Ahn, S. B., 1984, The climatic influence on spikelet formation and yield of lowland rice II. Climatic consumptive effect for spikelet formation, Korean J. Crop Sci., 29, 366-375.
18 Kim, M. H., Fu, J. D., Lee, B. W., 2006, Yield response to nitrogen topdress rate at panicle initiation stage under different growth and nitrogen nutrition status of rice plant, Korean J. Crop Sci., 51, 571-583.
19 Ahn, E. K., Jeong, E. G., Park, H. M., Jung, K. H., Hyun, U. J., Ku, J. H., 2019, Double cropping productivity of main whole-crop silage rice and winter feed crops in the central plains of Korea, Korean J. Crop. Sci., 64, 311-322.
20 Bao, J. S., Sun, M., Corke, H., 2002, Analysis of genetic behavior of some starch properties in indica rice (Oryza sativa L.): Thermal properties, gel texture, swelling volume, Theor. Appl. Genet., 104, 408-413.   DOI
21 Diker, K., Bausch, W. C., 2003, Radiometric field measurements of maize for estimating soil and plant nitrogen, Biosys. Engineer., 86, 411-420.   DOI
22 National Academy of Agricultural Science (NAAS), 2010, Fertilization standard on crops, NAAS, Suwon, Korea, 16-23.
23 Lee, J. H., Lee, J. Y., Yoon, Y. N., Kim, S. Y., Hur, Y. J., Yeo, U. S., Sohn, Y. B., Song, Y. C., Park, D. S., Nam, M. H., Cho, J. H., 2015, Enhancement of panicle blast resistance in Korean rice cultivar 'Saeilmi' by marker assisted backcross breeding, Plant Breed Biotechnol., 3, 1-10.   DOI
24 Lee, M. H., 2002, Rice quality and eating quality evaluation, Rural Development Administration, Suwon, Korea, 75-102.
25 Lee, M. H., Kang, S. G., Sang, W. G., Ku, B. I., Kim, Y. D., Park, H. K., Lee, J. H., 2014, Change of photosynthetic efficiency and yield by low light intensity on ripening stage in japonica rice, Korean J. Agri. Sci., 41, 327-334.   DOI
26 Oh, D., Ryu, J. H., Cho, Y., Kim, W., Cho, J., 2018, Evaluation of yield and growth responses on paddy rice under the extremely high temperature using temperature gradient field chamber, Korean J. Agric. Forest Meteo., 20, 135-143.   DOI
27 Rural Development Administration (RDA), 2001, Production method on high-quality rice, RDA, Suwon, Korea, 14.