THE STORAGE PROCESS OF MUNG BEAN GRAINS UNDER WAREHOUSE CONDITIONS AND THE FACTORS INFLUENCING THEIR QUALITY

Aygul  Purhanova

Авторы

Aygul Purhanova PhD researcher at the Karakalpak Institute of Agriculture and Agrotechnologies

Ключевые слова:

mung bean, Vigna radiata, grain quality, permanent storage, temperature, relative humidity, ventilation, sanitary conditions, pest infestation, biochemical changes, postharvest preservation.

Аннотация

This study investigates the impact of permanent storage conditions on the quality of mung bean (Vigna radiata) grains. Key environmental factors—including temperature, relative humidity, ventilation, and sanitary status—were evaluated for their effects on the physical, biochemical, and technological attributes of the grain. The results demonstrate that maintaining optimal temperature–humidity regimes and ensuring sufficient aeration in permanent storage facilities effectively preserves the nutritional composition, germination ability, and overall visual quality of the grains. In contrast, inadequate storage conditions may lead to excessive heating, increased moisture levels, and infestation by pests and microorganisms, ultimately causing substantial deterioration in grain quality.

Библиографические ссылки

Ahmed, S., & Rahman, M. (2018). Postharvest physiology and storage behavior of pulses: A review. Journal of Food Science and Technology, 55(4), 1201–1212.

Anwar, F., Latif, S., Przybylski, R., Sultana, B., & Ashraf, M. (2007). Chemical composition and antioxidant activity of mung bean (Vigna radiata L.) seeds. Journal of Food Science, 72(9), 573–579.

Bhattacharya, K. R. (2010). Cereal grains: properties, processing, and nutritional attributes. CRC Press.

Dharmaputra, O. S., Retnowati, S., & Ambarwati, S. (2016). Effects of temperature and humidity on storage quality of mung bean seeds. Seed Science and Technology, 44(1), 145–157.

Hall, C., Hillen, C., & Garden-Robinson, J. (2017). Dry edible beans: Postharvest storage and handling. North Dakota State University Extension Bulletin, EB-76.

Jayas, D. S., White, N. D., & Muir, W. E. (1995). Stored-grain ecosystems. CRC Press.

Khalequzzaman, K. M., & Ahmad, M. U. (2006). Changes in biochemical quality of mung bean seeds during storage. Bangladesh Journal of Scientific and Industrial Research, 41(1–2), 63–68.

Magan, N., & Aldred, D. (2007). Post-harvest control strategies: minimizing mycotoxins in the food chain. International Journal of Food Microbiology, 119(1–2), 131–139.

McDonald, M. B., & Copeland, L. O. (2012). Seed storage, viability, and vigor. In Principles of Seed Science and Technology (pp. 175–210). Springer.

O‘zDST 663:2016 — Don va dukkakli ekinlar. Saqlash bo‘yicha umumiy talablar. Toshkent: O‘zbekiston standartlar agentligi.

O‘zDST 1025:2018 — Laboratoriya tahlili usullari: namlik, oqsil, kraxmalni aniqlash. Toshkent.

Singh, U., & Singh, B. (1992). Tropical grain legumes: structural and biochemical dynamics during storage. Journal of Stored Products Research, 28(3), 301–312.

White, N. D. G., Jayas, D. S., & Muir, W. E. (2008). Grain storage techniques: Evolution and trends in developing countries. FAO Agricultural Services Bulletin No. 140.

Yadav, R., & Yadav, S. (2020). Effect of storage conditions on quality parameters of mung bean seeds. International Journal of Current Microbiology and Applied Sciences, 9(5), 842–850.