• Reference :1

    Altikut, A., Kazan, K., Zeliha, I., Gozukirmizi, N., 2001. Tolerance to paraquat is correlated with the traits associated with water stress tolerance in segregating F2 populations of barley and wheat. Euphytica 121(1), 81–86.

    Bita, C.E., Gerats, T., 2013. Plant tolerance to high temperature in a changing environment: scientific fundamentals and production of heat stress-tolerant crops. Frontiers in Plant Science 4, 273.

    Blum, A., Ebercon, A., 1981. Cell membrane stability as a measure of drought and heat tolerance in wheat. Crop Science 21(1), 43–47.

    Farrell, T.C., Fox, K.M., Williams, R.L., Fukai, S., 2006. Genotypic variation for cold tolerance during reproductive development in rice: Screening with cold air and cold water. Field Crops Research 98(2-3), 178–194.

    Gosavi, G.U., Jadhav, A.S., Kale, A.A., Gadakh, S.R., Pawar, B.D., Chimote, V.P., 2014. Effect of heat stress on proline, chlorophyll content, heat shock proteins and antioxidant enzyme activity in sorghum (Sorghum bicolor) at seedling stage. Indian Journal of Biotechnology 14, 356–363.

    Han, F., Chen, H., Li, X.J., Yang, M.F., Liu, G.S., Shen, S.H., 2009. A comparative proteomic analysis of rice seedlings under various high temperature stresses. Biochimica et Biophysica Acta 1794(11), 1624–1634.

    Haque, M., Hasan, M., Rajib, M., Hasan, M., 2009. Identification of cultivable heat tolerant wheat genotypes suitable for Patuakhali district in Bangladesh. Journal of the Bangladesh Agricultural University 7(2), 241–246.

    Ibrahim, A.M.H., Quick, J.S., 2001. Genetic control of high temperature tolerance in wheat as measured by membrane thermal stability. Crop Science 41(5), 1405– 1407.

    Intergovernmental Panel on Climate Change (IPCC). 2012. Summary for policymakers. In : Change, Adaptation:A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change, Field, C. B., Barros, V., Stocker, T.  F., Qin, K. and Tignor, M.(eds.). Cambridge, UK and New York, USA. Cambridge University

    Kumar, S., Gupta, D and Nayyar, H. 2012. Comparitive response of maize and rice genotypes to heat stress: Status of oxidative stress and antioxidants. Acta Physiologiae Plantarum 34(1), 75–86.

    Ma, Q.L, Li, Y.S., Tian, X.H., Yan, S.Z., Lei, W.C., Noburu, N., 2009. Influence of high temperature stress on composition and accumulation configuration of storage protein in Rice. Scientia Agricultura Sinica 42, 714–718.

    Mathur, S., Agrawal, D., Jajoo A., 2014. Photosynthesis: limitations in response to high temperature stress. J Photochem Photobiol B Biol doi: 10.1016/j.jphotobiol.2014.01.010

    Mathur, S., Jajoo, A., Mehta, P., Bharti, S., 2011. Analysis of elevated temperature induced inhibition of photosystem II using chlorophyll a fluorescence induction kinetics in wheat leaves (Triticum aestivum). Plant Biology 13(1), 1–6.

    Matsui, T., Omasa, K., 2002. Rice (Oryza sativa L.) cultivars tolerant to high temperature at flowering: anther characteristics. Annals of Botany 89(6), 687–688.

    Matsui, T., Omasa, K., Horie, T., 2001. The difference in sterility due to high temperatures during the flowering period among japonica rice varieties. Plant Production Sciences 4(2), 90–93.

    Mohammadi, V., Mohammad- Reza, B., Abbas, A.Z., 2007. Evaluation of screening techniques for heat tolerance in Wheat. Pakistan Journal of Biological Sciences 10(6), 887–892.

    Peng, S., Huang, J., Sheeshy, J.E, Laza, R.C., Visperas, R.M., 2004. Rice yields decline with higher night temperature from global warming. Proceedings of the National Academy of Sciences 101(27), 9971–9975.

    Poli, Y., Ramana, K.B., Madhusmita, P., Vishnu Prasanth, V., Nageswara, R.D., Voleti, S.R., Subrahmanyam, D., Sarla, N., 2013. Characterization of a Nagina22 rice mutant for heat tolerance and mapping of yield traits. Rice6, 36.

    Prasad, P.V.V., Boote, K.J., Allen, L.H., Sheehy, J.E., Thomas, J.M.G., 2006. Species, ecotype and cultivar differences in spikelet fertility and harvest index of rice in response to high temperature stress. Field Crops Research 95(2-3), 398–411.

    Rasheed, R., 2009. Salinity and Extreme Temperature effects on sprouting buds of sugarcane (Saccharum officinarum L.): some histological and biochemical sudies. Ph.D. thesis, Department of Botany, University of Agriculture, Faisalabad.

    Rosegrant, M.W., Cline, S.A., 2003. Global food security: challenges and policies. Science 302 (5652), 1917–1999.

    Sabouri, H., Sabouri, A., Jafarzadeh, M. R., Mollashahi, M., 2011. Detection of QTLs controlling field blast resistance in rice (Oryza sativa L.). Plant Omics Journal 4(1), 1–5.

    Sailaja, B., Subrahmanyam, D., Sarla, N., Vishnukiran, T., Venkateswara Rao, Y., Vijayalakshmi, P., Voleti, S.R., Bhadana, V.P., Mangrauthia, S.K., 2015. Integrated physiological, biochemical and molecular analysis identifies important traits and mechanisms associated with differential response of rice genotypes to elevated temperature. Frontiers in Plant Science 6(1044), 1–13.

    Sarkar, N.K., Kim, Y.K., Grover, A., 2009. Rice sHsp genes: genomic organization and  expression profiling under stress and development. BMC Genomics 10, 393.

    Satya, P., Mitra, J., Kar, C. S., Sharma, H. K., 2010. Transgenic approaches to develop abiotic stress tolerant crop plants: Rice as the model example. International Journal of Bio-resource and Stress Management 1(2), 81–86.

    Sharkey T.D., Schrader, S.M., 2006. High temperature stress. Physiology and molecular biology of stress tolerance in plants. Springer, Berlin, 101–129

    Sharma, D.K., Andersen, S.B., Ottosen, C.O., Rosenqvist, E., 2012. Phenotyping of wheat cultivars for heat tolerance using chlorophyll a fluorescence. Functional Plant Biology 39(11), 936–947.

    Wahid, A., Gelani, S., Ashraf, M., Foolad, M.R., 2007. Heat tolerance in plants: An overview. Environmental and Experimental Botany 61(3), 199–223.

    Wassmann, R., Jagadish, S.V.K., Heuer, S., Ismail, A., Redona, E., Serraj, R., Singh, R.K.,Howell, G., Pathak, H., Sumfleth, K. 2009. Climate change affecting rice production: The physiological and agronomic basis for possible adaptation strategies. Advances in Agronomy 101, 59–122.

    Yin, X., Martin, K., Ellis, J., Richard, H., 1996. Rice flowering in response to diurnal temperature amplitude. Field Crops Research 48 (1), 1–9.

    Zhou, W.H., Xue, D.W., Zhang, G.P., 2012. Identification and physiological characterization of thermo-tolerant rice genotypes. Journal of Zhejiang University (Agriculture & Life Sciences) 38, 1–9.

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