Journal of Bio-Environment Control ISSN:1229-4675(Print) 2765-3641(Online) 생물환경조절학회지

Bicamumakuba E., E. Habineza, K. Lee, and S.O. Chung 2024, Sensor technologies for remote monitoring of automated orchard irrigation: A review. Precis Agric Sci Technol 6:81-95. doi:10.22765/pastj.20240006

Chaves M.M., O. Zarrouk, R. Francisco, J.M. Costa, T. Santos, A.P. Regalado, M.L. Rodrigues, and C.M. Lopes 2010, Grapevine under deficit irrigation: hints from physiological and molecular data. Ann Bot 105:661-676. doi:10.1093/aob/mcq030

Choi K.O., Y.Y. Hur, S.J. Park, D.H. Lee, S.J. Kim, and D. Im 2022, Relationships between instrumental and sensory quality indices of Shine Muscat grapes with different harvesting times. Foods 11:2482. doi:10.3390/foods11162482

Choi S., S. Ban, and C. Choi 2023, The impact of plant growth regulators and floral cluster thinning on the fruit quality of ‘Shine Muscat’ grape. Horticulturae 9:392. doi:10.3390/horticulturae9030392

El-Ansary D.O., and G. Okamoto 2007, Vine water relations and quality of ‘Muscat of Alexandria’ table grapes subjected to partial root-zone drying and regulated deficit irrigation. J Japan Soc Hort Sci 76:13-19. doi:10.2503/jjshs.76.13

Escalona J.M., J. Flexas, J. Bota, and H. Medrano 2003, Distribution of leaf photosynthesis and transpiration within grapevine canopies under different drought conditions. Vitis 42:57-64.

Gambetta G.A., J.C. Herrera, S. Dayer, Q. Feng, U. Hochberg, and S.D. Castellarin 2020, The physiology of drought stress in grapevine: towards an integrative definition of drought tolerance. J Exp Bot 71:4658-4676. doi:10.1093/jxb/eraa245

García-Tejera O., Á. López-Bernal, F. Orgaz, L. Testi, and F.J. Villalobos 2021, The pitfalls of water potential for irrigation scheduling. Agric Water Manag 243:106522. doi:10.1016/j.agwat.2020.106522

Garofalo S.P., D.S. Intrigliolo, S. Camposeo, S. Alhajj Ali, L. Tedone, G. Lopriore, G.D. Mastro, and G.A. Vivaldi 2023, Agronomic responses of grapevines to an irrigation scheduling approach based on continuous monitoring of soil water content. Agronomy 13:2821. doi:10.3390/agronomy13112821

Glenn D.M., N. Cooley, R. Walker, P. Clingeleffer, and K. Shellie 2010, Impact of kaolin particle film and water deficit on wine grape water use efficiency and plant water relations. HortScience 45:1178-1187. doi:10.21273/HORTSCI.45.8.1178

Haghpanah M., S. Hashemipetroudi, A. Arzani, and F. Araniti 2024, Drought tolerance in plants: physiological and molecular responses. Plants 13:2962. doi:10.3390/plants13212962

Intergovernmental Panel on Climate Change (IPCC) 2023, Climate Change 2023: Synthesis Report. Contribution of Working Groups I, II and III to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. In Core Writing Team, H Lee, J Romero, eds, IPCC, Geneva, Switzerland.

Jiang X., and L. He 2021, Investigation of effective irrigation strategies for high-density apple orchards in Pennsylvania. Agronomy 11:732. doi:10.3390/agronomy11040732

Jin X.Q., M.X. Feng, S.H. Guo, X.Y. Chen, H.T. Zheng, X.Y. Dong, T.F. Xu, and J.F. Meng 2022, Evolution of aroma profiles and potential in Shine Muscat grape berries during ripening. S Afr J Enol Vitic 43:113-124. doi:10.21548/43-2-5103

Jones H.G. 2004, Irrigation scheduling: advantages and pitfalls of plant-based methods. J Exp Bot 55:2427-2436. doi:10.1093/jxb/erh213

Kim J.K., H. Kim, K.J. Kang, and J. Kim 2024, Comparison of soil moisture changes based on the installation position of soil moisture sensors in the Korean orchard field soils. J Bio-Environ Control 33:107-113. (in Korean) doi:10.12791/KSBEC.2024.33.2.107

Kim W., H. Kim, S. Kim, H. Lee, J. Kang, and J. Kim 2024, Chapter 14. fruit supply and demand trends and outlook. In Agricultural Outlook 2024, Korea Rural Economic Institute, pp 559-572. (in Korean)

Korean Statistical Information Service (KOSIS) 2025, Cultivated area of open-field fruit crops. Available via https://kosis.kr/statHtml/statHtml.do?sso=ok&returnurl=https%3A%2F%2Fkosis.kr%3A443%2FstatHtml%2FstatHtml.do%3FtblId%3DDT_1ET0014%26orgId%3D101%26 Accessed 30 June 2025

Lee G., and J. Kim 2024, Sufficient light intensity is required for the drought responses in sweet basil (Ocimum basilicum L.). Agronomy 14:2101. doi:10.3390/agronomy14092101

Lee K., J. Kim, J. Lee, and J. Kim 2022, Comparisons of soil water retention characteristics and FDR sensor calibration of field soils in Korean orchards. J Bio-Environ Control 31:401-408. (in Korean) doi:10.12791/KSBEC.2022.31.4.401

Lee K., S.K. An, K.M. Ku, and J. Kim 2024, The optimum substrate moisture level to enhance the growth and quality of arugula (Eruca sativa). Horticulturae 10:483. doi:10.3390/horticulturae10050483

Lee S., L. Seymour, and J. Kim 2025, Adequate irrigation amount per application is required to secure uniform water management in drip irrigation systems. Agronomy 15:1639. doi:10.3390/agronomy15071639

Li T., and J. Zhang 2017, Effect of pit irrigation on soil water content, vigor, and water use efficiency within vineyards in extremely arid regions. Sci Hortic 218:30-37. doi:10.1016/j.scienta.2017.01.050

Li Y.L., S.Q. Zhang, W.Z. Guo, W.G. Zheng, Q. Zhao, W.Y. Yu, and J.S. Li 2024, Effects of irrigation scheduling on the yield and irrigation water productivity of cucumber in coconut coir culture. Sci Rep 14:2944. doi:10.1038/s41598-024-52972-x

Lim S.J., S.G. Jeon, S.C. Hwang, and M.K. Jang 2015, Analysis of distributional changes in production efficiency of greenhouse grape farms. J Rural Dev 38:93-114. (in Korean) doi:10.22004/ag.econ.330681

Lim Y., and H. Jung 2024, Chapter 8. agricultural sector response measures in the climate crisis era. In Agricultural Outlook 2024, Vol 1. Korea Rural Economic Institute, pp 222. (in Korean)

Lobo F.A., M.P. de Barros, H.J. Dalmagro, Â.C. Dalmolin, W.E. Pereira, E.C. de Souza, G.L. Vourlitis, and C.E. Rodríguez Ortíz 2013, Fitting net photosynthetic light-response curves with Microsoft Excel—a critical look at the models. Photosynthetica 51:445-456. doi:10.1007/s11099-013-0045-y

Ma X., P.W. Jacoby, and K.A. Sanguinet 2020, Improving net photosynthetic rate and rooting depth of grapevines through a novel irrigation strategy in a semi-arid climate. Front Plant Sci 11:572400. doi:10.3389/fpls.2020.575303

Myburgh P.A., and C.L. Howell 2022, Determining a midday stem water potential threshold for irrigation of table grapes. S Afr J Enol Vitic 43:96-102. doi:10.21548/43-2-4700

Nam S., S. Kang, and J. Kim 2020, Maintaining a constant soil moisture level can enhance the growth and phenolic content of sweet basil better than fluctuating irrigation. Agric Water Manag 238:106203. doi:10.1016/j.agwat.2020.106203

Park H., H. Kim, S. Kim, and J. Kang 2025, Chapter 6. fruit supply and demand trends and outlook. In Agricultural Outlook Conference 2025, Korea Rural Economic Institute, pp 248-258. (in Korean)

Pérez-Álvarez E.P., D.S. Intrigliolo Molina, G.A. Vivaldi, M.J. García-Esparza, V. Lizama, and I. Álvarez 2021, Effects of the irrigation regimes on grapevine cv. Bobal in a Mediterranean climate: I. Water relations, vine performance and grape composition. Agric Water Manag 248:106772. doi:10.1016/j.agwat.2021.106772

Rural Development Administration (RDA) 2012, Manual for agriculture investigation. RDA, Suwon, Korea, pp 651-655. (in Korean)

Rural Development Administration (RDA) 2020, Manual for grape cultivation. RDA, Wanju, Korea, pp 112-114, 119-129. (in Korean)

Shellie K.C., and B.A. King 2020, Application of a daily crop water stress index to deficit irrigate malbec grapevine under semi-arid conditions. Agriculture 10:492. doi:10.3390/agriculture10110492

Shin S., G. Park, H. Kim, M. Kim, S. Lee, Y. Choi, and J. Kim 2023, Development of an approach for predicting spatio-temporal distribution of soil moisture and providing sufficient irrigation water in orchard areas. J Agric Life Environ Sci 35:1-13. (in Korean) doi:10.22698/jales.20230001

Villalobos-Soublett E., G. Gutiérrez-Gamboa, C. Balbontín, A. Zurita-Silva, A. Ibacache, and N. Verdugo-Vásquez 2021, Effect of shading nets on yield, leaf biomass and petiole nutrients of a Muscat of Alexandria vineyard growing under hyper-arid conditions. Horticulturae 7:445. doi:10.3390/horticulturae7110445

Vox G., E. Schettini, G. Scarascia-Mugnozza, L. Tarricone, G. Gentilesco, and L. Palma 2014, Crimson seedless table grape grown under plastic film: Ecophysiological parameters and grape characteristics as affected by the irrigation volume. In Proceedings of the International Conference of Agricultural Engineering—AgEng.

Yamada M., H. Yamane, A. Sato, N. Hirakawa, H. Iwanami, K. Yoshinaga, and I. Nakajima 2008, New grape cultivar ‘Shine Muscat’. Bull Natl Inst Fruit Tree Sci 7:21-38.

Yoon J., S. Noh, S. Yoon, S. Hong, and M. Kim 2021, Chapter 16. trends and outlook of fruit supply and demand. In Agricultural Outlook 2021, Korea Rural Economic Institute, pp 607-619. (in Korean)