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http://dx.doi.org/10.7740/kjcs.2022.67.4.342

Response of Yield and Quality in Major Domestic Rice (Oryza sativa L.) Varieties according to the Nitrogen Application Levels  

Jong-Seo Choi (Technology service Division, National Institute of Crop Science, Rural Development Administration)
Jinseok Lee (Crop Cultivation & Environment Research Division, Department of Central Area Crop Science, National Institute of Crop Science, Rural Development Administration)
Shingu Kang (Crop Cultivation & Environment Research Division, Department of Central Area Crop Science, National Institute of Crop Science, Rural Development Administration)
Dae-Woo Lee (Crop Cultivation & Environment Research Division, Department of Central Area Crop Science, National Institute of Crop Science, Rural Development Administration)
Woonho Yang (Crop Cultivation & Environment Research Division, Department of Central Area Crop Science, National Institute of Crop Science, Rural Development Administration)
Seuk-Ki Lee (Crop Cultivation & Environment Research Division, Department of Central Area Crop Science, National Institute of Crop Science, Rural Development Administration)
Su-Hyeon Sin (Crop Cultivation & Environment Research Division, Department of Central Area Crop Science, National Institute of Crop Science, Rural Development Administration)
Min-Tae Kim (Crop Cultivation & Environment Research Division, Department of Central Area Crop Science, National Institute of Crop Science, Rural Development Administration)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.67, no.4, 2022 , pp. 342-361 More about this Journal
Abstract
In order to evaluate the effect of nitrogen application levels on yield and quality of rice varieties, a field experiment was conducted at National Institute of Crop Science of Korea from 2018 to 2020. Five levels (0, 3, 5, 7, and 9 kg/10a) of nitrogen fertilizer were treated to 21 Korean rice varieties. Yield, yield component, appearance quality, and protein content in rice were analyzed. The average head rice yield for 3 years decreased by 28%, 22%, 11%, and 8%, respectively, when cultivated with 0, 3, 5, and 7 kg/10a nitrogen application compared to cultivation with a standard nitrogen application amount, 9 kg/10a. The number of panicles per hill increased as the amount of nitrogen application increased, but there was no significant change in the number of grains per panicle and 1000-grains weight, and the number of panicles per hill showed relatively small annual variation compared to other yield components. There was no significant difference in the head rice ratio according to the nitrogen application amount, the broken rice ratio slightly decreased, and the floury rice ratio increased. The protein content of rice decreased with increasing nitrogen application in 2018 and 2019, and was the lowest at 7 kg/10a of nitrogen application, and showed a tendency to increase again at 9 kg/10a. In the case of 2020, as the amount of nitrogen application increased, the protein content showed a tendency to continuously increase. In terms of varieties, 13 varieties, including Chilbo, seemed to be capable of low-nitrogen cultivation because loss of the head rice yield was less and the protein content could be lowered to 6% or less according to 7 kg/10a nitrogen application.
Keywords
application; nitrogen; quality; rice; yield;
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1 Ali, I., L. Tang, J. Dai, M. Kang, A. Mahmood, W. Wang, B. Liu, L. Liu, W. Cao, and Y. Zhu. 2021. Responses of Grain Yield and Yield Related Parameters to Post-Heading Low-Temperature Stress in Japonica Rice. Plants 10(7) : 1425.
2 Cha, K. H., Y. S. Kim, and D. K. Lee. 1982. Effects of application levels of fertilizer on the susceptibility to bacterial leaf blight, yield and quality of grains in nineteen rice cultivars in Jeonnam region. Korean J. Plant Prot. 21 : 216-221.
3 Choi, Y. K. 1996. Characteristics of quality with fidelity distribution and fidelity of rice grain under the different rice cultivars and cultivation environments. Graduate School, Jeonbuk National University. Jeonju, Korea.
4 Faraji, F., M. Espahani, M. Kavousi, M. Nahvi, And A. Forghani. 2013. Effect of nitrogen fertilizer levels on Fe and protein content, grain breakage and grain yield of rice (Oryza sativa L. cv. Khazar). Biharean Biologist 7(1) : 25-28.
5 Gewaily, E. E., A. M. Ghoneim, and M. M. A. Osman. 2018. Effects of nitrogen levels on growth, yield and nitrogen use efficiency of some newly released Egyptian rice genotypes. Open Agriculture 3 : 310-318.   DOI
6 Jacobs, B. C. and C. J. Pearson. 1999. Growth, Development and Yield of Rice in Response to Cold Temperature. J. Agron. Crop Sci. 182 : 79-88.   DOI
7 Kim, C. E., M. Y. Kang, and M. H. Kim. 2012. Comparison of Properties Affecting the Palatability of 33 Commercial Brands of Rice. Korean J. Crop Sci. 57(3) : 301-309.   DOI
8 Kim, J.-I., H.-C. Choi, K.-H. Kim, J.-K. Ahn, N.-B. Park, D.-S. Park, C.-S. Kim, J. Y. Lee, and J.-K. Kim. 2009. Varietal Response to Grain Quality and Palatability of Cooked Rice Influenced by Different Nitrogen Applications. Korean J. Crop Sci. 54(1) : 13-23.
9 Kondo, T., T. Takayama, and H. Osanami. 2009. Nitrogen Fertilizer Application and Technological Progress in Rice Production in Japan [in Japanese]. The Japanese Journal of Rural Economics 2009. 139-143.
10 Korean Law Information Center. 2022. https://law.go.kr/lsSc.do?menuId=1&subMenuId=15&tabMenuId=81&query=%EC%96%91%EA%B3%A1%EA%B4%80%EB%A6%AC%EB%B2%95#liBgcolor0 (2022. 10. 6).
11 KOSIS (Korean Statistical Information Service). 2021. https://kosis.kr/statisticsList/statisticsListIndex.do?vwcd=MT_ZTITLE&menuId=M_01_01 (2022. 10. 6).
12 Leesawatwong, M., S. Jamjod, B. Rerkasem, and S. Pinjai. 2003. Determination of a premium priced, special quality rice. International Rice Research Notes 28(1) : 34.
13 Lee, C.-K., J. H. Kim, M.-K Choi, K.-S. Kwak, and J.-C. Shin. 2010. Nitrogen Applicaion Method for High Quality and Labor Saving in Rice Production under Amended Standard N Application Level. Korean J. Crop Sci. 55(1) : 70-75.
14 Lee, J. H. and Y. J. Oh. 1991. Yield and quality of rice by continuous application of NPK and organic matter. Korean J. Crop Sci. 36 : 332-339.
15 Lee, S., E. Son, S. Hong, S. Oh, J. Y. Lee, J. Park, S. Woo, and C. Lee. 2016. Growth and Yield Under Low Solar Radiation During the Reproductive Growth Stages of Rice Plants. Korean J. Crop Sci. 61(2) : 87-91.   DOI
16 Liu, W., T. Yin, Y. Zhao, X. Wang, K. Wang, Y. Shen, Y. Ding, and S. Tang. 2021. Effects of High Temperature on Rice Grain Development and Quality Formation Based on Proteomics Comparative Analysis Under Field Warming. Front. Flant Sci. 12.
17 RDA (Rural Development Administration). 2012. Agricultural Science Technology Standards for Investigation of Research. pp.317-337.
18 Sharma, N., V. B. Sinha, N. Gupta, S. Rajpal, S. Kuchi, V. Sitaramam, R. Parsad, and N. Raghuram. 2018. Phenotyping for Nitrogen Use Efficiency: Rice Genotypes Differ in NResponsive Germination, Oxygen Consumption, Seed Urease Activities, Root Growth, Crop Duration, and Yield at Low N. Front. Plant Sci. 9.
19 Song, Y.-S., K.-S. Lee, B.-G. Jung, H.-j. Jun, K.-S. Kwag, B.-Y. Yeon, and Y.-S. Yoon. 2006. Determination of Nitrogen Application Rates with Paddy Soil Types for Production of High Rice Quality. Korean J. Soil Sci. Fert. 39(2) : 86-94.
20 Zhao, C., G. Liu, Y. Chen, Y. Jiang, Y. Shi, L. Zhao, P. Liao, W. Wang, K. Xu, Q. Dai, and Z. Huo. 2022. Excessive Nitrogen Application Leads to Lower Rice Yield and Grain Quality by Inhibiting the Grain Filling of Inferior Grains. Agriculture 12 : 962.
21 Zhou, C., Y. Huang, B. Jia, Y. Wang, Y. Wang, Q. Xu, R. Li, S. Wang, and F. Dou. 2018. Effects of Cultivar, Nitrogen Rate, and Planting Density on Rice-Grain Quality. Agronomy 8 : 246.
22 Zhu, D., H.-C. Zhang, B.-W. Guo, K. Xu, Q.-G. Dai, H.-Y. Wei, H. Gao, Y.-J Hu, P.-Y Cui, and Z.-Y. Huo. 2017. Effects of nitrogen level on yield and quality of japonica soft super rice. Journal of Intergrative Agriculture 16(5) : 1018-1027.   DOI
23 Ahn, S. Y. and D. H. Kim. 1996. Effects of application rates on quality of rice. Institute of Agricultural Resources Research, Dong-A Univ., Korea. 3 : 9-16.