Fig. 1. Treatment of interrow space and planting distance.
Fig. 2. Measurement of growth characteristics of peppers. L1, length of body; L2, length of calyx;D1, maximum diameter of body; D2, minimum diameter of body.
Table 1. Experimental treatments varying interrow spacing and planting distance.
Table 2. Growth characteristics of the pepper plants.
Table 3. Growth characteristics of the pepper fruits.
Table 4. Chromaticity characteristics of the red pepper fruits.
참고문헌
- An CH, Lim JH, Kim YH, Jung BK, Kim JW, Kim SD. 2012. Effects on the soil microbial diversity and growth of red pepper by treated microbial agent in the red pepper field. Korean Journal of Microbiology and Biotechnology 40:30-38. [in Korean] https://doi.org/10.4014/kjmb.1110.10007
- Choi Y, Jun HJ, Lee CK, Lee CS, Yoo SN, Suh SR, Choi YS. 2010. Development of a mechanical harvesting system for red pepper(I)-Surveys on conventional pepper cultivation and mechanization of pepper harvesting-. Journal of Biosystems Engineering 35:367-372. [in Korean] https://doi.org/10.5307/JBE.2010.35.6.367
- Chae SY, Park DK, Lee HJ, Kwak JH, Lee WM, Cho MC, Chun H, Yang EY. 2014. Evaluation of proper environmental condition, seedling production method, and planting distance for pepper in rain shelter greenhouse. Journal of Agriculture & Life Sciences 45:79-83. [in Korean]
- Decoteau DR, Graham HAH. 1994. Plant spatial arrangement affects growth, yield, and pod distribution of cayenne peppers. Horticulture Science 29:149-151.
- Hong SJ, Kim SH. 2013. The analysis on the production and consumption of red-pepper in Korea. CNU Journal of Agricultural Science 40:405-410. [in Korean]
- Kim HS, Pae DH, Choi DJ, Jang KS, Cho JL, Kim T. 1999. Growth, yield and quality of tunnel-cultured red pepper (Capsicum annuum L.) as affected by plant spatial arrangement. Horticulture Environment and Biotechnology 40:657-661. [in Korean]
- Locascio SJ, Stall WM. 1994. Bell pepper yield as influenced by plant spacing and row arrangement. Journal of the American Society for Horticultural Science 119:899-902. https://doi.org/10.21273/JASHS.119.5.899
- Lee SG, Choi CS, Lee JG, Jang YA, Nam CW, Lee HJ, Suh JM, Kang JS. 2013. Influence of daytime temperature on the time required for fruit harvest and yield of hot pepper. Journal of Environment Science International 22:1181-1186. [in Korean] https://doi.org/10.5322/JESI.2013.22.9.1181
- Lee TK, La WJ, Lee SK, Song DB. 2000. Physical properties of red pepper. Journal of Agriculture and Biosystems Engineering 5:285-290. [in Korean]
- Manchanda AK, Bhopal S, Singh B. 1988. Effect of plant density and nitrogen on growth and fruit yield of bell pepper (Capsicum annuum L.). Indian Journal Agriculture 33:445-447.
- Mwamba DK, Itulya FM, Waithaka K. 1995. Influence of spacing and phosphorus fertilization on fresh yields of sweet peppers. East African Agriculture and Forestry Journal 61:191-197. https://doi.org/10.1080/00128325.1995.11663270
- Shim SW, Kim HJ, Park JY, Bae TM, Min JH, Lee JS, Kim SJ, Hwang YS. 2018. Effect of natural anti-microbe chemicals, chitosan and stevia, on the growth, yield, and quality of chili peppers. Korean Journal of Agricultural Science 45:19-27. [in Korean]
- RDA (Rural Development Administration). 2008. Standard Cultivation Guidebook. RDA, Jeonju, Korea. [in Korean]
피인용 문헌
- Field performance analysis of a card cleaner type separating system for a self-propelled pepper harvester vol.47, pp.4, 2018, https://doi.org/10.7744/kjoas.20200076