salt injury in plants. Barley and rice. Ber. Ohara. Inst. Landwirtsch. Biological, 17: 73-81.
Kimani, P. M., W. Wachira, E. K. Cheruiyot, J. Owuoche and E. Kimani. 2014. Genetic diversity of African sorghum (Sorghum bicolor L. Moench) accessions based on microsatellite markers. Australian Journal of Crop Science. 8 (2): 171-177.
Kimber, D. S. and D. I. McGregor. 1995. The species and their origin, cultivation and world production. Brassica oilseeds: Production and utilization. CAB International. pp:1-10.
Kimura, M. and J. F. Crow. 1964. The number of alleles that can be maintained in a finite population. Genetics, 49:25-38.
Kingsbury, R.W. and E. Epestein. 1986. Salt sensitivity in wheat. Plant Physiology, 80: 651-654.
Kumar, P., V. K. Gupta, A. K, Misra, D. R. Modi and B. K. Pandey. 2009. Potential of molcular markers in plant biotecnology. Plant Omics Journal, 2 (4):141-162.
Lauchli, A. and E. Epstein. 2000. Plant responses to saline and sodic conditions. pp: 11-117. New York.
Levene, H. 1949. On a matching problem in genetics. Annals of Mathematical Statistics, 20: 91-94.
Lavi, U., P. Cregan, T., Schaap and J. Hillel. 1994. Application of DNA markers for identification and breeding of perennial fruit crops. Plant Breeding Review, 12: 195-226.
Levitt, J. 1980. Response of plant to environment stresses. Vol. 2. Water, radiation, salt other stresses. Academic Press. NewYork. P 607.
Lewontin, R. 1972. The apportionment of human diversity. Evolution Biology, 6: 381-398.
Mango T., F. Carriero, R. A. Cifarelli, M. Gallitelli and F. Cellini. 2001. Development of microsatellite markers in Durum wheat (Triticum turgidum L. ssp durum). Plant and Animal Genome IX Conference. Acta Genetica Sinica, 33 (10): 917-928.
Marschner, H. (1995) Mineral nutrition of higher plants. Academic Press, London. PP 889.
Mass, E.V. and G.J. Hoffman.1977. Crop salt tolerance-Current assessment. Journal of Irrigation and Drainage Engineering. 103: 115-134.
Maas, E. V. and C. M. Grieve. 1990. Spike and leaf development in salt-stressed wheat. Crop Science, 30: 1309-1313.
Mass, E.V. 1993. Plant growth response to salt stress. In: H. Lieth and A. A. Al. Massom (eds.). Towards the rational use of high salinity tolerant plants. Vol. l.klu. Academy. Pub. Pp: 279-291.
Matus, I. A. and P. M. Hayes. 2002. Genetic diversity in three groups of barley germplasm assessed by simple sequence repeat. Genome 45: 1095- 1106.
Meneguzzo, S., Navari-Izzo, F. and Izzo, R. 2000. NaCl effects on water relations and accumulation of minerals in shoots, roots and cell sap of wheat seedling. Journal of Plant Physiology, 156: 711-716
Munns, R. and A. Termaat. 1986. Whole plant response to salinity. Australian, Journal of Plant Physiology, 13: 143-160.
Munns, R. 2002. Comparative physiology of salt and water stress. Plant Cell Environment, 28:239- 250.
Nandakumr, N., A. Singh, K. Sharma, R. K. Mohapara, T. K. V. Prabhu and F. U. Zaman. 2004. Molecular fingerprinting of hybrids and assessment of genetic purity of hybrid seeds in rice using microsatellite markers. Euphytica, 136 : 257-264.
Naghavi M. R., M. Mardi., H. A. Ramshini. and B. Fazelinasab. 2004. Comparative analysis of the genetic diversity among bread wheat genotypes based on RAPD and SSR markers. Iranian. Journal of Biotechnology. 2: 195 – 202.
Netonda G.W., J. C. Onyango and E. Beck. 2004. Sorghum and salinity: II. Gas exchange and chlorophyll fluorescence of sorghum under salt stress. Crop Science. 44: 806- 811.
Omidbakhsh Fard. M. A. 2005. Staudy of genetic diversity in durum wheat using SSR marker. MSc. Thesis. University. of Tehran. pp. 91.
Orcutt, D. M. and E. T. Nilsen. 2000.The phosiology of plants under stress, soil and biotic factors. Johnwily, NewYork.
Ottman, M. and M. Olsen. 2009. Growing grain sorghum in Arizona. Arizona Cooperation Extension. The University of Arizona, College of Agriculture and Life Sciences. Available in: http://ag.arizona.edu/pubs/crops/az1489.pdf
Parida, A. K. and A. B. Das. 2005. Salt tolerance and salinity effects on plants: A review. Ecotoxicol, Environment, Safety, 60: 324-349.
Parvaiz, A. and Satyawati, S. 2008. Salt stress and phyto-bilochemical responses plants. Plant Soil Environment,54: 89-99.
Patterson, B. E. Macrae and I. Ferguson. 1984. Estimation of hydrogen peroxide in plant extracts using titanium (IV). Annual Biochemical, 139: 487-492.
Pearce, S. R., M. Knox., T. N. H. Ellis., A. J. Flavell and A. Kumar. 2000. Pea Ty1-copia group
Retrotran sposons: transitional activity and use as markers to study genetic diversity in Pisum. Molcular Gene Genetics, 263: 898-907.
Rawson, H. M., M. J. Long and R. Munns. 2006. Growth and development in NaCl treated plants. I: Leaf Na+ and Cl- concentration do not determine gas exchange of leaf blades in sorghum, Australian Journal of Plant Physiology, 35: 519- 527.
Redmann, R. E., M. Q. Qi and M. Belyk. 2005. Growth of sorghum varieties in response to soil salinity. Canadian Journal of Plant Science, 94: 797- 799.
Rosiel, A. A. and J. Hamblin. 1981. Theoretical aspects of selection for yield in stress and non-stress environments. Crop Science, 21: 943-946.
Rolf, T. H. Frederick, W. Rattunde Subhash Chandra,G. Soma Raju and C. Tom Hash. 2005. The pattern of genetic diversity of Guinea-race Sorghum bicolor L.) Moench landraces as revealed with SSR markers. Theoretical and Application Genetics. 111: 399-409.
Senior, M. L., J. P. Mutphy, M. M. Goodman, and C. W. Stuber. 1998. Utility of SSRs for determining genetic similarities and relationships in maize using an agarose gel system. Crop Science, 38:1088-1098.
Sepaskhah, P. R. and L. Boersma. 1979. Elongation of wheat leaves exposed to several levels of matric potential and NaCl induced osmotic potential of soil water. Agronomice Journal, 71:848-852.
Sharopova, N., M. D., McMullan, and L. Schultz. 2002. Development and mapping of SSR markers for maize, Plant Molecular Biology Reporter, 48: 463-481.
Shannon, M. C. 1984. Breeding, selection and the genetics of salt tolerance. In Plants: R. C. Staples, and G. H. Toenniessen (eds.). Salinity tolerance in plants. John Wiley and Sons, pp: 231-254.
Shinha, A., and, S. R. Gupta. 1982. Effect of osmotic tension and salt stress on germination
of three grass species. Plant and Soil, 69: 13-19.
Silva, J. V., C. F. Lacerd. P. H. A. Costa, J. E., Filho, E. G. Filho, and J. T. Prisco. 2003.
Physiological responses of NaCl stressed cowpea plants grown in nutrient solution supplemented with CaCl2 . Brazilian, Journal of Plant Physiology, 15: 99-105.
Singh, B. D. 2005. Plant Breeding: Principles and Methods (7th ed.). Kalyani publishing, New Delhi.PP.670.
Stewart, C. R., G. Voetberg, and P. J. Rayapati . 1986. Plant Physiology, 82: 703-707.
Stragonov, B. P. 1964. Physiological basis of salt tolernce if plants. Academic. Sin. USSR. Davery and Co. New York. PP. 279-1964.
Shehzad, T. H., Okuizumi, M. Kawase and K. Okuno. 2009. Development of SSR-based sorghum (Sorghum bicolor L. Moench) diversity research set of germplasm and its evaluation by morphological traits. Genetic Resources Crop Evolution,56:809-827
Taylor, R. M., E. F. Young and R. H. Rivera. 1975. Salt tolerance in cultivars of grain sorghum. Crop Science, 15: 735-740.
Temnykh, S., G. Declerck and A. Lukashova. 2001. Computational and experimental analysis of microsatellites in rice (Oryza sativa L.): frequency, length variation, transposon associations, and genetic marker potential. Genome Research, 11: 1441-1452.
Tiwari, T. N., R. P. Srivastava and G. P. Sing. 1997. Salinity tolerance in sugarcane cultivars. Sugar cane, 1: 10-14.
Van Horn, J. W. 1991. Development of soil salinity during germination and early seedling growth and its effect on several crops. Agriculture Managerial, 20: 17-28.
Virk, P. S., V. Brian, F. Lyod, M. Jackson and H. J. Newbury. 1995. Use of RAPD for the study of diversity within plant germplasm collection. Heredity, 74: 170-179.
Vigoruroux, Y., S. Mitchell, Y. Matsuoka, M. Hamblin, S. Kresovich, J. S. C. Smith, J. Jaqueth, O. S. Smith and J. Doebley. 2005. An analysis of genetic diversity across the maize genome using microsatellite. Genetics, 169: 1617-1630.
Vonarx, M. M., R. J. Mailer and N. Wratten. 1999. Reliabilty of RAPDs for identification of Australian canola cultivars. Proceeding of the 10th International Rapeseed Congress, Canberra, Australia, 3(1): 24-35.
Wang, Y. X. and B. Zhang. 2009. Effects of salt stress on enzyme activity and soluble sugar content of alfalfa. Journal of Horticulture Science and Biotechnology, 45: 589-591.
Weimberg R., H. R. Lerner and A. Plojakoff-mayer. 1984. Changes in growth and water-soluble solute concentrations in sorghum bicolor stressed with sodium and potassium salts Plant, Physiology, 62: 472-480.
Williams, J. G. K., A. R. Kubelic, K. J. Livak, J. A. Rafalsky and S. V. Tingey. 1990. DNA polymorphism camplified by aribitrary primers are useful as genetic markers. Nucleic Acids Research, 18: 6531- 6535.
Wignarajah, K. 1974. Response of bean plants to sodium chloride. PhD, Thesis. University of Liverpool. PP. 260-1974.
Wolfe, A. D. and Liston, A. 1998. Contributions of PCR-based methods to plant systematics and evolutionary biology. In Plant molecular systematics II. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp.

دسته بندی : No category

دیدگاهتان را بنویسید