All Issue

2022 Vol.55, Issue 1 Preview Page

Article

28 February 2022. pp. 27-37
Abstract
References
1
Badr, M.A., A.S. Taalab, and E.W.A. Tohamy. 2011. Nitrogen application rate and fertigation frequency for drip irrigated potato. Aust. J. Basic Appl. Sci. 5:817-825.
2
Baek, S., E. Jeon, K.S. Park, K.H. Yeo, and J. Lee. 2018. Monitoring of water transportation in plant stem with microneedle sap flow sensor. J. Microelectromech. Syst. 27(3):440-447. 10.1109/JMEMS.2018.2823380
3
Chauhdary, J.N., A. Bakhsh, M. Arshad, and M. Maqsood. 2017. Effect of different irrigation and fertigation strategies on corn production under drip irrigation. Pak. J. Agric. Res. 54:855-863. 10.21162/PAKJAS/17.5726
4
Ebrahimian, H. and E. Playan. 2014. Optimum management of furrow fertigation to maximize water and fertilizer application efficiency and uniformity. J. Agric. Sci. Technol. 16:591-607.
5
Ewais, M.A., A.A. Mahmoud, and A.A. Khalil. 2010. Effect of nitrogen fertigation in comparison with soil application on onion production in sandy soils. Alexandria J. Agric. Res. 55:75-83.
6
Ha, S.K., Y.K. Son, K.H. Jung, Y.J. Lee, M.J. Cho, H.J. Yun, and J.K. Sung. 2015. Estimation of growth stage-based nitrogen supply levels for greenhouse semi-forcing zucchini cultivation. CNU J. Agric. Sci. 42(4):319-324. 10.7744/cnujas.2015.42.4.319
7
Hagin, J., M. Sneh, and A.A. Lowengart. 2002. Fertigation. Fertilization through Irrigation. IPI Research Topics No. 23. Edited by A.E. Johnston. International Potash Institute, Basel, Switzerland.
8
Jeon, E., S. Choi, K.H. Yeo, K.S. Park, M.L. Rathod, and J. Lee. 2017. Development of electrical conductivity measurement technology for key plant physiological information using microneedle sensor. J. Micromech. Microeng. 27(8):085009. 10.1088/1361-6439/aa7362
9
Jung, B.G., Y.S. Song, H.J. Jun, Park, W.K., and K.S. Lee. 2006. Establishment of optimum nitrogen application rates in fertigation system for cucumber plastic film house cultivation. p. 185-186. In Proceedings of the Spring Congress on Korean Society of Soil Science and Fertilizer, Suncheon, Korea.
10
Jung, K.S., K.H. Jung, W.K. Park, Y.S. Song, and K.H. Kim. 2010. Establishment of the optimum nitrogen application rate for Oriental Melon at various growth stages with a fertigation system in a plastic film house. Korean J. Soil Sci. Fert. 43:349-355.
11
Kim, M.S., Y.H. Kim, M.Y. Roh, S.S. Kang, H.B. Yoon, and H.Y. Lee. 2012. Effect of chelating agents on the growth of Chinese cabbage and availability of nutrients in plastic film house soils. Korean J. Soil Sci. Fert. 45(6):949-954. 10.7745/KJSSF.2012.45.6.949
12
Kim, Y.C. 1970. Research on developing agricultural resources by fertigation cultivation. 1. Productivity by fertigation and composition for fertigation. Korean J. Hort. Sci. Technol. 8:93-105.
13
Kumar, A. and A.K. Singh. 2002. Improving nutrient and water use efficiency through fertigation. Water Manage. 10:42-48.
14
Lee, S.B., J.K. Sung, Y.J. Lee, J.E. Lim, Y.S. Sung, D.B. Lee, and S.Y. Hong. 2017a. Analysis of soil total nitrogen and inorganic nitrogen content for evaluating nitrogen dynamics. Korean J. Soil Sci. Fert. 50(2):100-105. 10.7745/KJSSF.2017.50.2.100
15
Lee, S.B., Y.M. Kim, J.K. Sung, Y.J. Lee, and D.B. Lee. 2018. Characteristics of growth-stage-based nutrient uptake of lettuce grown by fertigation supply in a greenhouse. Korean J. Soil Sci. Fert. 51(4):626-635.
16
Lee, S.B., Y.M. Kim, Y.J. Lee, Y.S. Song, D.B. Lee, and J. Sung. 2019a. Growth stage-based fertigation guideline for greenhouse spring Chinese cabbage. Korean J. Soil Sci. Fert. 52(4):429-437.
17
Lee, S.T., Y.B. Kim, Y.H. Lee, and S.D. Lee. 2006. Effect of fertigation concentration on yield of tomato and salts accumulation in soils with different EC level under PE film house. Korean J. Environ. Agric. 25:64-70. 10.5338/KJEA.2006.25.1.064
18
Lee, Y.J., J.K. Sung, S.B. Lee, J.E. Lim, Y.S. Sung, D.B. Lee, and S.Y. Hong. 2017b. Plant analysis methods for evaluating mineral nutrient. Korean J. Soil Sci. Fert. 50(2):93-99. 10.7745/KJSSF.2017.50.2.093
19
Lee, Y.J., S.B. Lee, and J. Sung. 2021. Optimal fertigation guide for greenhouse strawberry: development and validation. Korean J. Soil Sci. Fert. 54(3):322-330. 10.7745/KJSSF.2021.54.3.322
20
Lee, Y.J., S.B. Lee, Y.M. Kim, Y.S. Song, and D.B. Lee. 2019b. Relation of organic matter content and nitrogen mineralization of soils collected from pepper cultivated land. Korean J. Environ. Agric. 38(3):119-123. 10.5338/KJEA.2019.38.3.26
21
Lim, J.H., I.B. Lee, and H.L. Kim. 2001. A criteria of nitrate concentration in soil solution and leaf petiole juice for fertigation cucumber (Cucumis sativus L.) under greenhouse cultivation. Korean J. Soil Sci. Fert. 34(5):316-325.
22
MAFRA. 2018. Statistics of greenhouse facilities and vegetable productivity. Ministry of Agriculture, Food and Rural Affairs, Sejong, Korea.
23
Mattson, N.S. and M.W. van Iersel. 2011. Application of the “4R” nutrient stewardship concept to horticultural crops: Applying Nutrients at the “Right Time”. HortTechnology 21(6):667-673. 10.21273/HORTTECH.21.6.667
24
Moujabber, E.I., M. Atallah, and T. Darwish. 2002. Crop modeling and water use efficiency of protected cucumber. Int. Atomic Energy Agency Tech. Documents. 1266:61-67.
25
NAAS. 2000. Soil and plant analysis method. National Academy of Agricultural Science, RDA, Suwon, Korea.
26
NIAS. 2017. Fertilizer recommendation for crop production (3rd ed.). National Institute of Agricultural Science, RDA, Jeonju, Korea.
27
Park, B.G., T.H. Jeon, Y.H. Kim, and Q.S. Ho. 1994. Status of farmer’s application rates of chemical fertilizer and farm manure for major crops. Korean J. Soil Sci. Fert. 27:238-246.
28
Park, K.W. 1997. Trends in irrigation and fertilizer application techniques in Korea and in the world. p. 1-22. In Proceedings of the Symposium on Korean Society for Bio-Environment Control, Korea.
29
Sandal, K.S. and R. Kapoor. 2015. Fertigation technology for enhancing nutrient use and crop productivity; An overview. Himachal J. Agric. Res. 41(2):114-121.
30
Sinclair, T.R. and T.W. Rufty. 2012. Nitrogen and water resources commonly limit crop yield increases: not necessarily plant genetics. Global Food Secur. 1:94-98. 10.1016/j.gfs.2012.07.001
31
Sung, J., K.H. Jung, H.J. Yun, M.J. Cho, J.E. Lim, Y.J. Lee, S.B. Lee, and D.B. Lee. 2016. Optimal levels of additional N fertigation for greenhouse watermelon based on cropping pattern and growth stage. Korean J. Soil Sci. Fert. 49(6):699-704. 10.7745/KJSSF.2016.49.6.699
32
Sung, J., S.S. Kang, and C.H. Lee. 2015. Mitigation of abnormal environment-derived nutrient disorder in greenhouse. Research Report. National Institute of Agricultural Sciences, Wanju, Korea.
33
Wang, H., J. Li, M. Cheng, F. Zhang, X. Wang, J. Fan, L. Wu, D. Fang, H. Zou, and Y. Xiang. 2019. Optimal drip fertigation management improves yield, quality, water and nitrogen use efficiency of greenhouse cucumber. Sci. Hortic. 243:357-366. 10.1016/j.scienta.2018.08.050
34
Yadav, R.L. 1998. Factor productivity trends in a rice-wheat cropping system under long-term use of chemical fertilizers. Exp. Agric. 34(1):1-18. 10.1017/S0014479798001070
35
Zuo, H.J., Y.L. Bai, Y.L. Lu, L. Wang, H. Wang, and Z.Y. Wang. 2012. Fate of fertilizer nitrogen applied to winter wheat in North China plain based on high abundance of 15N. Scientia Agricultura Sinica. 15:3093-3099.
Information
  • Publisher :Korean Society of Soil Science and Fertilizer
  • Publisher(Ko) :한국토양비료학회
  • Journal Title :Korean Journal of Soil Science and Fertilizer
  • Journal Title(Ko) :한국토양비료학회 학회지
  • Volume : 55
  • No :1
  • Pages :27-37
  • Received Date :2021. 09. 29
  • Revised Date :2021. 11. 17
  • Accepted Date : 2022. 02. 21