[CHANDRKRACHANG, S. 2002. The applications of chitin and chitosan in agriculture in Thailand. In Advances in Chitin Science, 2002, no. 5, pp. 458-462.]Search in Google Scholar
[DZUNG, N.A. - THANG, N.T. 2004. Effect of oligoglucosamine on the growth and development of peanut (Arachis hypogea L.). In KHOR, E. - HUTMACHER, D. - YONG, L.L. (Eds.), Proceedings of the 6th Asia- Pacific on Chitin, Chitosan Symposium Singapore.]Search in Google Scholar
[DZUNG, N. A. 2005. Application of chitin, chitosan and their derivatives for agriculture in Vietnam. In Journal of Chitin and Chitosan Science, 2005, no. 10, pp. 109-113.]Search in Google Scholar
[DZUNG, N. A. 2007. Chitosan and their derivatives as prospective biosubstances for developing sustainable eco-agriculture (eds.]Search in Google Scholar
[SENEL, S. - VARUM, K. M. - SUMNU, M. M. - HINCAL, A. A.). In Advances in Chitin Science X, 2007, pp. 453-459.]Search in Google Scholar
[DZUNG, N. A. - PHUONG KHANH, V. T. - DZUNG, T. T. 2011. Research on impact of chitosan oligomers on biophysical characteristics, growth, development and drought resistance of coffee. In Carbohydrate Polymers, 2011, no. 84, pp. 751-755.]Search in Google Scholar
[ERSKINE, W. - SAXENA, M.C. 1993. Problems and prospects of stress resistance breeding in lentil (eds. SINGH, K.B. - SAXENA, M.C., John Wiley and Sons). In Breeding for Stress Tolerance in Cool-Season Food Legumes, 1993, pp. 51-62.]Search in Google Scholar
[FANG, X. - TURNER, N.C. - YAN, G. - LI, F. - SIDDIQUE, K. H. M. 2009. Flower numbers, pod production, pollen viability and pistil function are reduced and flower and pod abortion increased in chickpea (Cicer arietinum L.) under terminal drought. In Journal of Experimental Botany, 2009, no. 61, pp. 335-45.]Search in Google Scholar
[FAO. 2009. FAOSTAT, Food and Agriculture Organization of the United Nations Rome, Italy. Available at: http://faostat.fao.org ]Search in Google Scholar
[HADWIGER, L. A. 2013. Multiple effects of chitosan on plant systems: solid science or hype. In Plant Science, 2013, no. 208, pp. 42-49.]Search in Google Scholar
[HUSSAIN, M. A. - MUKHTAR, T. - IRFAN UL-HAQUE, M. - KAYANI, M. Z. 2007. Mycoflora associated with lentil (Lens esculenta Moench) seeds from five localities of Punjab, Pakistan. In Pakistan Journal of Botany, 2007, no. 39, pp. 903-906.]Search in Google Scholar
[KASSAM, A. H. 1981. Climate, soil and land resources in the West Asia and North Africa region. In Plant and Soil, 1981, no. 58, pp. 1-28.]Search in Google Scholar
[KIM, J. Y. - MAHE, A. - BRANGEON, J. - PRIOUL, J. L. 2000. A maize vacuolar invertase, IVR2, is induced by water stress. Organ/ tissue specificity and diurnal modulation of expression. In Plant Physiology, 2000, no. 124, pp. 71-84.]Search in Google Scholar
[LIMPANAVECH, P. - CHAIYASUTA, S. - VONGPROMEK, R. - PICHYANGKURA, R. - KHUNWASI, C. - CHADCHAWAN, S. - LOTRAKUL, P. 2008. Chitosan effects on floral production, gene expression, and anatomical changes in the Dendrobium orchid. In Scientia Horticulturae, 2008, no. 116, pp. 65-72.]Search in Google Scholar
[MILLER, P. R. - GAN, Y. - MCCONKEY, B. G. - MCDONALD, C. L. 2003. Pulse crops for the northern Great Plains: I. Grain productivity and residual effects on soil water and nitrogen. In Agronomy Journal, 2003, no. 95, pp. 972-979.]Search in Google Scholar
[REGLINSKI, T. - TAYLOR, J. T. - DICK, M. A. 2004. Chitosan induces resistance to pitch canker in Pinus radiata. In New Zealand Journal of Forestry Science, 2004, no. 34, pp. 49-58.]Search in Google Scholar
[ROBSON, M. C. - FOWLER, S. M. - LAMPKIN, N. H. - LEIFERT, C. - LEITCH, M. - ROBINSON, D. - WATSON, C. A. - LITTERICK, A. M. 2002. The agronomic and economic potential of break crops for ley/ arable rotations in temperate organic agriculture. In Advances in Agronomy, 2002, no. 77, pp. 369-427.]Search in Google Scholar
[SONG, S. Q. - SANG, Q. M. - GUO, S. R. 2006. Physiological synergisms of chitosan on salt resistance of cucumber seedlings. In Acta Botanica Boreali-Occidentalia Sinica, 2006, no. 26, pp. 435-441.]Search in Google Scholar
[TURNER, N. C. - WRIGHT, G. C. - SIDDIQUE, K. H. 2001. Adaptation of grain legumes pulses to water-limited environments. In Advances in Agronomy, 2001, no. 71, pp. 194-231.]Search in Google Scholar
[WANG, Y. - HE, H. G. - ZHOU, Y. 2006. Effect of different molecular weight chitosan on several physiological and biochemical characteristics related with plant defence reaction. In Plant Physiology, vol. 42, 2006, pp. 1109-1111.]Search in Google Scholar
[YE, Y. P. - LOU, Y. Q. 2009. Effect of chitosan with different concentration on drought resistance of sugarcane under drought stress. In Henan Agricultural Sciences, 2009, no. 11, pp. 47-50.]Search in Google Scholar
[ZENG, D. - LUO, S. - TU, R. 2012. Application of bioactive coating based on chitosan for soybean seed protection. In International Journal of Carbohydrate Chemistry, 2012, no. 12, pp. 1-5.]Search in Google Scholar
[ZENTNER, R. P. - WALL, D. D. - NAGY, C. N. - SMITH, E. G. - YOUNG, D. L. - MILLER, P. R. - CAMPBELL, C. A. - MCCONKEY, B. G. - BRANDT, S. A. 2002. Economics of crop diversification and soil tillage opportunities in the Canadian Prairies. In Agronomy Journal, 2002, no. 94, pp. 216-230.]Search in Google Scholar
