• Reference :1

    Ashraf, M., 2010. Inducing drought tolerance in plants: recent advances. Biotechnology Advances 28(1), 169–183. Doi:10.1016/j.biotechadv.2009.11.005.

    Bouslama, M., Schapaugh, W.T., 1984. Stress tolerance in soybean. Part 1: evaluation of three screening techniques for heat and drought tolerance. Crop Science 24, 933–937.

    Choukan, R., Taherkhani,T.,Ghannadha,M.R.,Khodarahmi, M., 2006. Evaluation of drought tolerance maize lines by drought stress tolerance indices. Iranian Journal of Agriculture Science 8, 2000–2010.

    Anonymous, 2020. Costat, 6.400, 1998. Copyright©1998-2008, CoHort Software798 Lighthouse Ave BMP 320, Montery, CA 93940, USA.URL  http://www.cohort.com .

    Everitt, B.S., Dunn, G., 1992. Applied Multivariate Data Analysis. Oxford University Press, New York, NY.

    Farshadfar, A., Zamani,M.,Matlabi,M., Imam Jome, A., 2001. Selection for drought tolerance in pea lines. Iranian Journal of Agriculture Science 32, 65–77.

    Fernandez, G.C.J., 1992. Effective selection criteria for assessing plant stress tolerance. In: C.G. Kuo, (Ed), Proceedings of the International Symposium on Adaptation of Vegetables and Other Food Crops in Temperature and Water Stress. Tainan Publication, Taiwan.

    Fischer, R.A., Maurer, R., 1978. Drought resistance in spring wheat cultivars. 1. Grain yield response. Australian Journal of Agricultural Research 29, 897–912.

    Golabadi, M., Arzani, A.,Maibody, S.A.M., 2006. Assessment of drought tolerance in segregating populations in durum wheat. African Journal of Agricultural Research 5, 162–171.

    Guendouz,A., Guessoum, S., Hafsi, M., 2012. Investigation and selection index for drought stress in durum wheat (Triticum durum Desf.) under Mediterranean condition Electronic Journal of Plant Breeding 3(2), 733–740 (June 2012).

    Guo, T.C., Feng,W., Zhao, H.J., 2004. Photosynthetic characteristics of flag leaves and nitrogen effects in two winter wheat cultivars with different spike type. Acta AgronomicaSinica 30, 115–121.

    Haffaf, A., Labdi, M., Hammou, M.,2003. Tolerance a la secheresse, une realite dans le développement de la cerealiculture et l utilisation des espaces productifs en zones semi-arides. Cerealiculture 40, 20–24.

    Hossain, A.B.S., Sears, A.G., Cox, T.S., Paulsen, G.M., 1990. Desiccation tolerance and its relationship to assimilate partitioning in winter wheat. Crop Science 30, 622-627.

    Kristin, A.S., Senra,R.R.,Perez,F.I.,Enriquez, B.C., Gallegos, J.A.A., Vallego, P.R., Wassimi, N., Kelley, J.D., 1997. Improving common bean performance under drought stress. Crop Science 37, 43–50.

    Ladoui, K.K., Mefti, M., Benkherbache, N., 2020. Selection de genotypes d’orge (HordeumvulgareL.) tolerants au stress hydrique par les indices de tolérance a la secheresse, Revue Agrobiologia (2020) 10(1), 1805–1812.

    Mitra, J., 2001. Genetics and genetic improvement of drought tolerance in crop plants. Current Science 80, 758-762.

    Ogbaga, C.C.,  Athar, H.R., Amir, M., Bano, H., Chater Caspar, C.C., Jellason, N.P., 2020. Clarity on frequently asked questions about drought measurements in plant physiology. Scientific African. 8, e00405. doi:10.1016/j.sciaf.2020.e00405.

    Passioura, J.B., 2007. The drought environment: physical, biological and agricultural perspectives, Journal of Experimental Botany 58, 113–117.

    Ramirez, P., Kelly, J.D., 1998. Traits related to drought tolerance in common bean. Euphytica 99, 127–136.

    Rosielle, A.A.,Hamblin, J., 1981. Theoretical aspects of selection for yield in stress and non - stress environment. Crop Science 21, 943–946.

    Royo, C., Michelena, A., Carrillo, J.M., Garcı´a, P., Juan -Aracil, J., Soler, C., 1998. Spanish durum wheat breeding program. In: Nachit, M.M., Baum, M., Porceddu, M., Picard, E. (eds). SEWANA (South Europe, West Asia and North Africa) durum research network. Proceedings of the SEWANA durum network workshop, 20 –23 March 1995. ICARDA: Aleppo, Syria, pp 80 –87.

    Sawyer, S.F., 2009. Analysis of Variance: The Fundamental concepts, ournal of Manual & Manipulative Therapy 17(2), 27E-38E.

    Simane, B., Struik,P.C.,Nachit, M.M., Peacock, J.M., 1993. Ontogenetic analysis of yield components and yield stability of durum wheat in water -limited environments. Euphytica 71, 211–219.

    Sio-Se Mardeh, A., Ahmadi, A., Poustini, K., Mohammadi, V., 2006. Evaluation of drought resistance indices under various environmental conditions. Field Crops Research 98, 222–228.

    Snedecor, G.W., Cochran, W.G., 1981. Statistical Methods, seventhed. Iowa State University Press, Iowa, USA.

People also read

Innovative Technology

High Intensity Transplanting Increases Yield in Indigenous Aromatic Rice, Tulaipanji- a Case Study

Dhiman Sen and N. C. Sarkar

Aromatic rice, tulaipanji, high intensity, transplanting, yield

Published Online : 07 Jun 2010


Steering Agriculture through the Concept of Triple S: Seed, Soil and Sustainability

C. S. Pawar

Sustainable agriculture, chemical agriculture, seed-soil-sustainability

Published Online : 07 Sep 2010

Variation in Ralstonia solanacearum Isolated from Brinjal Plants in West Bengal

B. Mondal, I. Bhattacharya, A. sarkar and D. C. Khatua

Brinjal, bacterial wilt, Ralstonia solanacearum, aggressiveness

Published Online : 07 Jun 2011