Enhancement of rice seedlings’ tolerance to submergence by silver nitrate
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Armstrong W., 1979. Aeration in higher plants. Advance in Botanical Research 7: 225–332.
Bailey-Serres J., Fukao T., Ronald P., Ismail A., Heuer S., and Mackill D., 2010. Submergence tolerant rice: SUB1’s journey from landrace to modern cultivar. Rice 3: 138–147.
Brandão A. D. and Sodek L., 2009. Nitrate uptake and metabolism by roots of soybean plants under oxygen deficiency. Brazilian Society of Plant Physiology 21: 13–23.
Dey M. M and Upadhyaya H. K., 1996. Yield loss due to drought, cold and submergence in Asia. In: Everson R. E., Herdt R. W., Hossain M., eds. Rice research in Asia: progress and priorities. IRRI. pp: 291–303.
Dubois M., Gilles K., Hamilton J., Rebers P., and Smith F., 1956. Colorimetric method for determination of sugars and related substances. Analytical Chemistry 28: 350–356.
Ella E. S., Dionisio-Sese M. L., Ismail A. M., 2011. Seed pre-treatment in rice reduces damage, enhances carbohydrate mobilization and improves emergence and seedling establishment under flooded conditions. AoB Plants/DOI:10.1093/aobpla/plr007.
Fukao T. and Bailey-Serres J., 2008. Submergence tolerance conferred by Sub1A is mediated by SLR1 and SLRL1 restriction of gibberellin responses in rice. Proceedings of the National Academy of Sciences USA 105: 16814–16819.
Fukao T., Yeung E., and Bailey-Serres J., 2012. The submergence tolerance gene, SUB1A, delays leaf senescence under prolonged darkness through hormonal regulation in rice. Plant Physiology 160: 1795–1807.
Garcia-Novo F. and Crawford R. M. M. 1973. Soil aeration, nitrate reduction and flooding tolerance in higher plants. New Phytologist 72: 1031–1039.
Grierson C. S., Barnes S. R., Chase M. W., Clarke M., Grierson D., Edwards K. J., Jellis G. J., Jones D. J., Knapp S., Oldroyd G., Poppy G., Temple P., Williams R., and Bastow R., 2011. One hundred important questions facing plant science research. New Phytologist 192: 6–12.
Hattori Y., Nagai K., and Ashikari M., 2011. Rice growth adapting to deepwater. Current Opinion in Plant Biology 14: 100–105.
Hattori Y., Nagai K., Furukawa S., Song X. J., Kawano R., Sakakibara H., Wu J., Matsumoto T., Yoshimura A., Kitano H., Matsuoka M., Mori H., and Ashikari M., 2009. The ethylene response factors SNORKEL1 and SNORKEL2 allow rice to adapt to deep water. Nature 460: 1026–1030.
Ismail A. M, Ella E. S, Vergara G. V., and Mackill D. J., 2009. Mechanisms associated with tolerance to flooding during germination and early seedling growth in rice (Oryza sativa). Annals of Botany 103: 197–209.
Jackson M. B., 2008. Ethylene-promoted elongation: an adaptation to submergence stress. Annals of Botany 101: 229–248.
Jackson M. B. and Drew M. C., 1984. Effects of flooding on growth and metabolism of herbaceous plants. In: Kozlowski T.T. (ed.): Flooding and Plant Growth. pp: 47–128. Academic Press.
Justin S. H. F. W. and Armstrong W., 1991. Evidence for the involvement of ethylene in aerenchyma formation in adventitious roots of rice (Oryza sativa). New Phytologist 118: 49–62.
Kazemi M. and Ameri A, 2012. Extending the vase life of carnation with different preservatives. International Journal of Botany 8: 50–53.
Lewitt J., 1980. Responses of Plants to Environmental Stresses. Volume 1. 2nd Edition. Academic Press, New York.
Marschner H., 1995. Mineral Nutrition of Higher Plants. 2nd Edition. Academic Press. London, U.K.
Mor Y., Hardenburg R. E., Kofranek A. M., and Reid M. S., 1981. Effect of silver-thiosulfate pretreatment on vase life of cut standard carnations, spray carnations, and gladiolus, after a transcontinental truck shipment. HortScience 16: 766–768.
Nagai K., Hattori E., and Ashikari M., 2010. Stunt or elongate? Two opposite strategies by which rice adapts to floods. Journal of Plant Research 123: 303–309.
Nilsen E. T. and Orcutt D. M., 1996. The Physiology of Plants under Stress. Volume 1: A biotic factors. Wiley Publisher.
Nishiuchi S., Yamauchi T., Takahashi H., Kotula L., Nakazono M., 2012. Mechanisms for coping with submergence and waterlogging in rice. Rice 5:2.
Ponnamperuma F.N., 1972. The chemistry of submerged soils. Advance in Agronomy 24: 29–96.
Rezvani N., Sorooshzadeh A., and Farhadi N., 2012. Effect of nano-silver on growth of saffron in flooding stress. World Academy of Science, Engineering and Technology 6: 519–524.
Sairam R. K., Kumutha D., Ezhilmathi K., Deshmukh P. S., and Srivastava G. C., 2008. Physiology and biochemistry of waterlogging tolerance in plants. Biologia Plantarum 52: 401–412.
Stoimenova M. and Kaiser W., 2004. The role of nitrate reduction in plant flooding survival. Progress in Botany 65: 357–371.
Subhashini R. M. B., Amarathunga N. L. K., Krishnarajah S. A., and Aeswara J. P., 2011. Effect of Benzylaminopurine, Gibberellic Acid, Silver Nitrate and Silver Thiosulphate, on postharvest longevity of cut leaves of Dracaena. Ceylon Journal of Science 40: 157–162.
Timmer C. P., 2010. Behavioral dimensions of food security. Proceedings of the National Academy of Sciences of USA. Early Edition 1–6.
Voesenek L. A. C. J. and Bailey-Serres J., 2009. Genetics of high-rise rice. Nature 460: 959–960.
Xu K., Xu X., Fukao T., Canlas P., Maghirang-Rodriguez R., Heuer S., Ismail A. M., Bailey-Serres J., Ronald P. C., and Mackill D. J., 2006. Sub1A is an ethylene-response-factor-like gene that confers submergence tolerance to rice. Nature 442: 705–708.