The article presents data obtained from the study of the daily intensity of transpiration during the flowering stage of soybean varieties. According to the data on the diurnal variation of transpiration intensity, this process was accelerated in Vilana and Ustoz MM-60 varieties of soybeans, and a relative decrease in intensity was observed in Baraka and Tomaris man-60 varieties. Different variations in the intensity of transpiration in the cross section of the studied varieties may depend on the biological characteristics of the varieties as well as the air temperature and its relative humidity level.
Вавилов П.П. Ўсимликшунослик. –Тошкент: Ўқитувчи, 1980.- 630 б.
Медведев С.С. Физиология растений Изд-во С.-Петерб. ун-та, 2004.-336 с.
Kholliye, A, Norboyeva, U, & Adizova, K (2020). About the negative impact of salination on cotton. Збірник наукових праць ΛΌГOΣ, 50-52.
Малиновский В. И. Физиология растений.-Владивосток, 2004.-382 с.
Toshtemirovna, NU, & Ergashovich, KA (2019). Physiology, productivity and cotton plant adaptation under the conditions of soil salinity. International Journal of Recent Technology and Engineering 8 (2 S3), 1611-1613.
Toshtemirovna, NU, & Ergashovich, KA (2019). Regulation of the water balance of the cotton varieties under salting conditions. ACADEMICIA: An International Multidisciplinary Research Journal, 9(8), 5-9
Shah N.H., Paulsen G.M. Interaction of drought and high temperature on photosynthesis and grain-filling of wheat // Plant Soil. 2003. – V. 257. – P. 219-226.
Хўжаев Ж.Х. Маданий экинлар ҳосилдорлигини оширишнинг биологик асослари // Ўзбекистон флораси биохилма-хиллиги ва ундан оқилона фойдаланиш муаммолари: Республика илмий-амалий конф. материаллари. – Самарқанд, 2011. –Б. 69-72.
Toshtemirovna, NU, & Ergashovich, KA (2019). Regulation of the water balance of the cotton varieties under salting conditions. ACADEMICIA: An International Multidisciplinary Research Journal, 9(8), 5-9.
Ergashovich, KA, Azamatovna, BZ, Toshtemirovna, NU, & Rakhimovna, AK (2020). Ecophysiological effects of water deficiency on cotton varieties. Journal of Critical Reviews, 7(9), 244-246.
Kholliyev, A, & Boltayeva, Z (2020). Resistance of cotton varieties to water deficiency. Збірник наукових праць ΛΌГOΣ, 70-72.
Доспехов Б.А. Методика полевого опыта. – М., Агропромиздат, 1985. -347с.
Иванов Л.А., Силина А.А., Цельникер Ю.Л. О методике быстрого взвешивания для определения транспирации в естественных условиях // Ботан. Журнал.1950.Т. 35.№ 2. С.171-185.
Baloch M.J., Khan N.U., Jatoi W.A., Hassan G., Khakhwani A.A., Soomro Z.A., Veesar N.F. Drought tolerance studies through WSSI and stomata in upland cotton // Pak. J. Bot. 2011. – V. 43. – P. 2479-2484.
Kholliyev, A, Boltayeva, Z, & Norboyeva, U (2020). Cotton water exchange in water deficiency. Збірник наукових праць ΛΌГOΣ, 54-56.
Kholliyev, A, Norboyeva, U, & Adizova, K (2020). Methods of using microelements to increase salt resistance of cotton. Збірник наукових праць ΛΌГOΣ, 57-60.
A.E., NUT Kholliyev, & F.I., Nazarova (2021). Cotton resistance Indicators in the Conditions of Water deficiency. The riving force of science and trends in its development, 3, 7-9.
Ergashovich, KA, Toshtemirovna, NU, Rakhimovna, AK, & Abdullayevna, FF (2020). Effects of Microelements on Drought Resistance of Cotton Plant.. International Journal of Psychosocial Rehabilitation, 24(2).