Optimal Planting Time for Summer Tomatoes (Lycopersicon esculentum Mill.) Cropping in Korea: Growth, Yield, and Photosynthetic Efficiency in a Semi-Closed Greenhouse
Author:
Bae Hyo Jun12ORCID, Kim Seong-Hoon3ORCID, Jeong Yuseok1, Park Sungjin1, Ochar Kingsley3, Hong Youngsin1, Seo Yun Am4, Ko Baul2, Bae Jeong Hyang2, Lee Dong Soo5, Choi Inchan1
Affiliation:
1. Division of Agricultural Engineering, National Institute of Agricultural Sciences, Rural Development Administration, Jeonju 54875, Republic of Korea 2. Department of Horticulture Industry, Wonkwang University, Iksan 54538, Republic of Korea 3. National Agrodiversity Center, National Institute of Agricultural Sciences, Rural Development Administration, Jeonju 54875, Republic of Korea 4. Department of Data Science, Jeju National University, Jeju 63243, Republic of Korea 5. National Institute of Horticultural & Herbal Science, Wanju 55365, Republic of Korea
Abstract
In Korea, greenhouses are traditionally used for crop cultivation in the winter. However, due to diverse consumer demands, climate change, and advancements in agricultural technology, more farms are aiming for year-round production. Nonetheless, summer cropping poses challenges such as high temperatures, humidity from the monsoon season, and low light conditions, which make it difficult to grow crops. Therefore, this study aimed to determine the best planting time for summer tomato cultivation in a Korean semi-closed greenhouse that can be both air-conditioned and heated. The experiment was conducted in the Advanced Digital Greenhouse, built by the National Institute of Agricultural Sciences. The tomato seedlings were planted in April, May, and June 2022. Growth parameters such as stem diameter, flowering position, stem growth rate, and leaf shape index were measured, and harvesting was carried out once or twice weekly per treatment from 65 days to 265 days after planting. The light use efficiency and yield per unit area at each planting time was measured. Tomatoes planted in April showed a maximum of 42.9% higher light use efficiency for fruit production and a maximum of 33.3% higher yield. Furthermore, the growth form of the crops was closest to the reproductive growth type. Therefore, among April, May, and June, April is considered the most suitable planting time for summer cultivation, which is expected to contribute to reducing labor costs due to decreased workload and increasing farm income through increased yields. Future research should explore optimizing greenhouse microclimates and developing crop varieties tailored for summer cultivation to further enhance productivity and sustainability in year-round agricultural practices.
Funder
The Research Program for Agricultural Science and Technology Development
Reference37 articles.
1. Kil, S.-H., Park, H.-M., Park, M., Kim, Y.I., and Lee, E. (2023). Location Selection of Urban Rooftop Greenhouses in Seoul Based on AHP and GIS. Land, 12. 2. Kim, C.-G., Lee, S.-M., Jeong, H.-K., Jang, J.-K., Kim, Y.-H., and Lee, C.-K. (2010). Impacts of Climate Change on Korean Agriculture and Its Counterstrategies, Korean Rural Economic Institute. Research Report R593. 3. Energy efficiency and energy homeostasis as genetic and epigenetic components of plant performance and crop productivity;Curr. Opin. Plant Biol.,2011 4. Growth and cut-flower productivity of spray rose as affected by shading method during high temperature period;Cheong;Hortic. Sci. Technol.,2015 5. Effect of temperature on the rate of photorespiration in several plants;Walker;Plant Physiol.,1983
|
|