Acknowledgement
본 연구는 중소벤처기업부 중소기업기술개발지원사업(과제명: 탈플라스틱 농업용 생분해 신소재/제품 기술 개발; 과제번호: S3303663) 지원으로 수행된 것임.
References
- Bourtoom, T. and M. S. Chinnan. 2008. Preparation and properties of rice starch-chitosan blend biodegradable film. LWT-Food Science and Technology 41(9) : 1633-1641.
- Brault, D. and K. A. Stewart. 2002. Optical properties of paper and polyethylene mulches used for weed control in lettuce. HortScience 37(1) : 87-91.
- Cho, Y. M. 2022. Analysis of recent international legal discourse for the end of plastic era. The Korean Journal International Law 67(3) :225-264.
- Dias, A. B., C. M. O. Muller, F. D. S. Larotonda, and J. B. Laurindo. 2010. Biodegradable films based on rice starch and rice flour. Journal of Cereal Science 51 : 213-219.
- Ha, J. S., S. T. Jeong, H. O. Kim, S. G. Lee, D. W. Jeong, J. I. Cho, S. H. Shin, K. J. Kim, D. K. Kim, and J. M. Yeom. 2023. The introduction of Naju ground observation site measurement data and web service for validation of satellite value-added products. GEO DATA 5(2) : 103-109.
- Han, S. I., H. W. Kang, D. W. Byun, K. C. Jang, W. D. Seo, J. E. Ra, and K. J. Choi. 2011. Mechanical properties and degradability of bio-degradable agricultural transplanting pot containing rice by-product. Korean J. Crop Sci. 56(1) : 44-49.
- Han, S. I., H. W. Kang, K. C. Jang, W. D. Seo, J. E. Ra, S. H. Oh, H. U. Lee, M. N. Chung, and K. J. Choi. 2012. Studies on the bio-degradability and chacateristics of mulching film containing rice by-products applied to upland crops. Korean J. Crop Sci. 57(1) : 99-105.
- Jeon, W. T., W. H. Yang, S. W. Roh, M. T. Kim, K. Y. Seong, and J. K. Lee. 2007. Changes of soil redox potential, weed control and rice growth in paddy on paper mulching transplanting by organic matter application. Korean J. Soil Sci. Fert. 40(6) : 495-500.
- Jung, J. S., D. W. Park, and H. S. Choi. 2023. Effect of biodegradable film mulching on soil environment and onion growth and yield. Korean J. Crop Sci. 68(3) : 99-105.
- Korea Environment Corporation (KECO). 2023. 2022 Agricultural waste statistics survey. KECO. Incheon. Korea. pp. 11-31.
- Kim, H. S., J. S. Lee, and M. N. Chung. 2011. Effect of harvesting system on labor-saving in sweetpotato cultivation. Korean J. Crop Sci. 56(4) : 400-403.
- Kim, S. J. 2020. Thermal and mechanical properties of rice husk flour reinforced recycled polystyrene composites. Polym. Korea 44(2) : 192-200.
- Kim, Y. G., Y. H. Woo, H. H. Park, D. J. Lee, and Y. I. Kuk. 2024. Effects of various biodegradable mulching films on growth, yield, and soil environment in soybean cultivation. Korean J. Crop Sci. 69(1) : 34-48.
- Korean Statistical Information Service (KOSIS). 2024. https://kosis.kr/index/index.do.
- Lee, J. H., M. J. Kim, H. L. Kim, Y. B. Kwack, J. K. Kwon, K. S. Park, H. G. Choi, and B. Khoshimkhujae. 2015. Effects of biodegradable mulching fim application on cultivation of garlic. Protected Horticulture and Plant Factory 24(4) : 326-332.
- Lee, J. S., K. H. Jeong, H. S. Kim, J. J. Kim, Y. S. Song, and J. K. Bang. 2009. Bio-degradable plastic mulching in sweetpotato cultivation. Korean J. Crop Sci. 54(2) : 35-142.
- Lim, S. J., M. B. Lee, S. W. Kim, J. S. Kim, S. J. Heo, S. C. Choi, B. S. Yoon, and I. J. Kim. 2016. Effects of bio-degradable mulches on the yield of maize and the density of soil microbe. Korean J. Soil Sci. Fert. 49(4) : 375-380.
- Liu, Q., Y. Wang, J. Liu, X. Liu, Y. Dong, X. Huang, Z. Zhen, J. Lv, and W. He. 2022. Degradability and properties of PBAT-based biodegradable mulch films in field and their effects on cotton planting. Polymers 14 : 1-15.
- Ministry of Agriculture, Food and Rural Affairs (MAFRA). 2023. Grain policy data. MAFRA. Sejeong. Korea. pp. 36-182.
- Rural Development Administration (RDA). 2012. Standards of research, investigation, analysis in agricultural science and technology. RDA. Suwon. Korea. pp. 459-467.
- Rural Development Administration (RDA). 2018. Sweet potato-Agriltural technology guide. RDA. Jeonju. Korea. pp. 10-32.
- Rhim, J. W. and J. H. Kim. 2004. Preparation of bio-degradable films using various marine algae powder. Korean J. Food Sci. Technol. 36(1) : 69-74.
- Souza, A. G., R. R. Ferreira, J. Harada, and D. S. Rosa. 2021. Field performance on lettuce crops of poly(butylene adipate-co-terephthalate)/polylactic acid as alternative biodegradable composites mulching films. Journal of Applied Polymer Science 138(11) : 1-13.
- Woggum, T., P. Sirivongpaisal, and T. Wittaya. 2014. Properties and characteristics of dual-modified rice starch based biodegradable films. International Journal of Biological Macromolecules 67 : 490-502.
- Yang, H. S., and K. B. Song. 2020. Cahracterization of biodegradable antioxidant films based on maca root polysaccharides and chestnut inner shell extract. J. Korean Soc. Food Sci. Nutr 49(11) : 1268-1274.
- Yap, S. Y., S. Sreekantan, M. Hassan, K. Sudesh, and M. T. Ong. 2021. Characterization and biodegradability of rice gusk-filled polymer composites. Polymers 13, 104.
- Yun, K. G. 2020. Searching for a better plastic waste policy. Modern Society and Public Administration 30(4) : 1-28.