SUV TANQISLIGI VA OPTIMAL SUG‘ORISH SHAROITIDAGI OTA-ONA SHAKLLARI VA F2 DURAGAYLARIDA XLOROFILL MIQDORINI ANIQLASH

1. Cramer, W.A., Zhang, H., Yan, J., Kurisu, G. and Smith, J. L. (2004) Evolution of photosynthesis, Time-independent structure of the cytochrome b f complex. Biochemistry 43, 5921-5929.

2. Odilov Z.S., Nabiyev S., Kaxxorov I. G‘o‘za usimligida irsiy va mavsumiy o’zgaruvchanlik - populyatsion gomeastazni tashkil etuvchi omillardir // Biologiya 2010 3 64-68 b.

3. Stiller, W.N., Read, J.J., Constable, G.A., Reid, P.E., 2005 Selection for water use efficiency traits in a cotton breeding program: cultivar differences. Crop Sci. 45, 1107–1113

4. Loka DM, Derrick M, Oosterhuis, Ritchie GL. Water-deficit stress in cotton. In: Oosterhuis DM, eds. Stress physiology in cotton. Number Seven The Cotton Foundation Book Series. 2011 p. 37-725.

5. Ackerson R.C. 1981 Osmoregulation in cotton in response to water stress. II. Leaf carbohydrate status in relation to osmotic adjustment. Plant Physiol. 67: 476-480

6. Berlin, J., J.E. Quisenberry, F. Bailey, M. Woodworth, and B.L. McMichael. 1982 Effect of water stress on cotton leaves : I. an electron microscopic stereological study of the palisade cells. Plant Physiol. 70:238-243.

7. Pettigrew W.T., Heitholt J..J, Vaughn K.C. 1993 Gas exchange differences and comparative anatomy among cotton leaftype isolines. // Crop Sci 33: p. 1295–1299.

8. Nepomuceno, A. L., D.M. Oosterhuis, and J.M. Stewart. 1998 Physiological responses of cotton leaves and roots to water deficit induced by polyethylene glycol. Environ. Exp. Bot. 40: 29-41.

9. Ting-ting Xie, Pei-xi Su, Li-zhe An, Li-shan Shan, Zi-juan Zhou & Zhong-ping Chai Physiological characteristics of high yield under cluster planting: photosynthesis and canopy microclimate of cotton Plant Production Science, 2016 Vol. 19, no. 1, 165–172. http://dx.doi.org/10.1080/1343943X.2015.1128088