acd water resources:Human causes,management and case studies.UNSW press,Sydney,Australia,and CAB International,Wallingford,UK.
34. Girija, C. Smith, B.N and Swamy, P.M.(2002). Interactive effects of sodium chloride on the accumulation of proline and ylyoinebetaine in peanut (arachis hypogaeal L.) Environmental and experimental Botany, 47:1-10.
35. Glenn, E.P., Brown. J.J., Blumwald, E.(1999). Salt tolerance and crop potential of halophytes. Crit.Rev. Plant. Sci. 18:227-255.
36. Glu, B., and Khan, M.A.(2006).Role of calcium in alleviating salinity effects in coastal halophytes, P. 107-114. In Khan, M. A., D. J. Weber (Eds), Ecophysiology of High salinity Tolerant Plants, Springer, Netherlands, Enviroment. 12: 753-757.
37. Gouia,H., Gorbai, MJL and Touraine,B. 1994. Effect of NaCl on flows of N bean salt tolerant cotton plant physiol. 105:1409-1418.
38. Greenway, H., and Munns,R.,1980. Mechanisms of solt tolerans in nonhalophytes.Annun.Rev.plant physiol. Plant Mol.BIOL.31:149-190.
39. Gusegnova, I.M., Suleymanov, Sy,. Aliyve, J,A. ,2006.Protein composition and native state of pigments of thylakoid membrane of wheat genotypes differently tolerant to water stress. Biochemisttry, 71:223-228.
40. Hasegawa, P.M., Bressan, R.A., Zhu, J.K., Bohnert, H.J. (2000). Plant cellular and molecular responses to high salinity.Annu. Rev. Plant physiol. Plant Mol.biol.51:463-499.
41. Harinasul, P., Srisunak, S., Pitukchaisopol, S., and Charoensataporn, R.(2000). Mechanism of adaption to increasing of Mulbery, Prolin content and ascorbate peroxidase activity in leaves of multiple shoots. Science Asia.26:207-211.
42. Heidari ,M.& Mesri,F.(2008).salinity effects on compatible solutes,antioxidants enzymes and ion.
43. Heywood, V.H. (1996). Flowering plants of the world. BT Batsford Ltd.
44. Hilal,M.,Zennof,A.M.,Ponessa,G.,Moreno,H.,M.Massa,E.(1998).Salinity stress alters the temporal patterns of xylem differentiation and alternative oxidase expression hn developing soybean rootes plant physic.117(2):695-701.
45. Hogers, P., Bleeker, R M. AFLP: a new technique for DNA fingerprinting. (1995). Nucleic Acids Research, 23:4407-4414.
46. Hung, I. and R. E. Redman,1995.Solute adjustment to salinity and calcium supply in incultivated and wild barley. Plant Nutr J.18:1371-1389.
47. Hussain, T.M., Chanderasekhar, T., Hazara, M., Sultan, Z., saleh, B.K.and Gopal, G.R.(2008). Recent advances in salt stress biology -a review. Biotechnology and Molecular Biology Review.3(1):8-13.
48. Janda.T.,Szalai,G.Tari,I and Paldi,E.,1999.Hydroponic treatment with salicylic aciddecereases the effects of chilling injury in maize(Zea maysL.)plants.planta 208:175-180.
49. Johansson, D.R. (1978). Saintpaulias in their natural environment with notes on their present status in Tanzania and Kenya.14: 45-62.
50. Kaya, C., Kirnak,H., Higgs, D., Satali, K., 2002. Supplementary calcium enhances plant Growth and fruit yield in strawberry cultivars grown at high (NaCl) Salinity. Scientia Horticulturae, 93:65-74.
51. Kessler, R. (2004). Greenhouse Production of African Violets.
52. Kishor, P.B.K., Sangam, S., Amrutha, R.N., Lamix, P.S.,Naidu, K.R., Rao, K.R., Rao, S.S., Reddy, K.J., Theriappan, P. and Asulu, S.(2005).Regulation of proline biosynthesis, degradation, uptake and transport in higher plants: Its implication in plant growth and abiotic stress tolerance. Current Science, 88(3):424-438.
53. Kolehmainen, J. ( 2002).African violets (Saintpaulia) in Amani Nature Reserve, East Usambara, NE Tanzania – Population Ecology and Conservation Needs. Unpublished MSc thesis. University of Helsinki.
54. Kolehmainen, J. ( 2005).African violet conservation and tourism in Tanga Region, Tanzania. African Violet Magazine. 58: 27-29.
55. Kolehmainen, J. ( 2008). Biodiversity and Ecology, population genetics and conservation of the African violet(Saintpaulia, Gesneriaceae) Conservation 6: 325-346.
56. Koyro, H.W., 2000. Effect of high NaCl-salinity on plant growth,leaf morphology, and ion composition in leaf tissues of Beta vulgaris ssp. Martitima. J.Of Applied Bot.74:67-73.
57. Lang, K. (2012). Plant of the Month – Saintpaulia. PP 1-3.
58. Lauchli, A. and E.Epstein,1984. How plants adapet to salinity.California agriculture, oct:18-20.
59. Lawson,T., K. Oxbrough, J. I. L. Morison and N.R. Baker,2003.The responses of guard and mesophyll cell photosynthesis to CO2, O2, light and water stress in a range of species are similar. J.Exp. Bot. 54: 1743-1752.
60. Lee, D.H., Kim, Y.S., Lee, C.B.(2001).The inductive responses of the antioxidant enzymes by stress in the rice (Oryza sativa).J. Plant Physiol. 158:737-745.
61. Lutts,S.and Bouharmont,J.,1996.NaCl induced senescence in leaves of rice(oryza sativa)cultivars differing in salinity resistence.Annals of Botany 78:389-398.
62. Madhania, S., Madan, S. and sawhney, V.(2006). Antioxidant defense mechanism under salt stress in wheat seedlings. Biologia plantarum. 50:227-231.
63. Maggio, I., Raimond, Martino, A.,De Pascale, S.2007. Salt stress response in tomato beyond the salinity tolerace threshold. Environ.Exp.Bot.59(3):276-712.
64. Mahajan,S. and Tuteja,N,(2005) Cold, salinity and drought stresses :An overview,Archives of Biochemistry and Biophysics.444:139-158.
65. Mansour, M.M.F.(1998). Protection of plasma memberane of onion epidermalcells by glycinebetaine and pralin against NaCl stress. Plant Physiol.Biochem. 36:767-722. Martinez, V.and Lauchli,A.(1994). Salt inhibition of phosphate uptake hn plants of cotton .New phytol.125:609-614.
66. Meloni, D.A., Oliva, M.A., Ruiz, H.A., Martinez, C.A.2001. Conteribution of prolin and inorganic solutes osmotic adjustment in cotton under salt stress J. Plant Nutr.24(3):599-612.
67. Mihalovic, N., Lazarevic, M., Dzeletoric, Z., Vuckoric, M., Durde, Vic.M., 1997.Chloropyllas activity in wheat leaves during drought and its dependence on the nitrogen ion from applied. Plant Sci., 129:141-146.
68. Minic, Z., Jouanin, L.(2006). Plant glycoside hydrolasses involoved in cell wall polysaccharide degradation. Plant physiol. Biochem 44:435-449.
69. Miranto, Mari. (2005). Living collections of botanic gardens as a means of ex situ conservation- A case study of African Violets (Saintpaulia) in Europa. Department of Biological and Environmental Sciences.Number of page 44
70. Mittal R., Duby R.S.,1991. Behavioure of peroxidase in rice: Changes in enzymes activity and isoforms in relation to solt tolerance, Plant physiol Biochem.19:31-40.
71. Mitter, R. (2002). Oxidative stress, antioxidants and stress tolerance. Trends in plant Science. 7:405-410. Mittal R., Duby R.S.,1991. Behavioure of peroxidase in rice: Changes in enzymes activity and isoforms in relation to solt tolerance, Plant physiol Biochem.19:31-40
72. Mittova, V., Tal Volokita, M., Guy,M. (2002).Salt stress induceds up- regulation of an efficient chloroplast antioxidant system in the salt-tolerant wild tomato species lycopercicum pennellii but not in the cultivated species. Physiol plant. 115:393-400. Miyake,H.,Mitsuya,S.and Rahman, M. D. S.(2006).Ultrastuctural effects of salinity stress in higher,plants.In:k.Rao, T.Takabe,(Eds) ,Abiotic Stress Tolerance in plants,Springer,Netherlands..
73. Moges.Asmarad.2004.Ryopreservation of African violet (Saintpaulia) society for invitro biology.1054-547/04.2004.
74. Mohammad, M., Shibli, R., et al.1998. Tomato root and shoot responses to solt strees under different levels of phosphorus nutrition. J.plant nuter .21:1667-1608.
75. Molassiotis, A., Sotiropoulos T., Tanou G., Diamantidis G.and Therios I.,2006. Boron- induced oxidative damage and antioxidant and nucleolytic responses in shoot tips culture of the apple rooststock EM9 (Malus domestica Borkh). Environ. Exp. Bot. 56: 54-62. Mudgal, V., Madaan, N. Mudgal A. and Mishra.S.,2009. Changes in growth and metabolic profile of Chickpeaunder salt stress. J.of Appl. Biosci. 23:1436-1446.
76. Mudgal,V.,Madaan, N, and Mudgal,A.(2010). Biochemical mechanisms of salt tolerance hn plants:a review.Internationa Journal of Botany.6(2):136-143.
77. Munns,R.(2002). Comparative Physiology of salt and water stress. Plant Cell Enviroment. 25:239-250.
78. Nilsen E.T. and Orcutt D.M.1996.Physiology of plants under stress:abiotic factors.John Wiley and Sons.New York.P.689.
79. Niu, X., Bbressan,R.A., Hasegawa, P.M., and Pardo,J.M.,1995. Ion homeostasis in NaCl stress environments.Plant physiol.109:735-742.
80. Pastore, G.M. and Trippi, V.S., 1993. Cross resistance between water and oxidative stress in wheat leaves. Agri Sci,20,289-294.
81. Pastori, G.M. and Foyer, C,H. (2002). Commonent, networks and pathway of crosstolerance to stress. The central role of redox and abscisic acid-mediated controls. Plant physiol. 129:460-468.
82. Parida, A. K., Das, A.B., Mittra, B. (2004). Effect of salt on growth , ions accumulation photosynthesis and leaf anatomy of the mangrove, Bruguiera parviflora. Trees -struct.Funt. 18(2):167-174.
83. Parviz, A., and Satyawati, S. (2008). Salt stress and phyto-biochemical responses of plants a review. Plant soil and Enviroment. 54:89-99.
84. Pilon, F. (2010). Saintpaulia. The history and origin of the African Violet.
85. Rodringuz- Rosales, M.P., Kerkeb, L.,Buueno, P.,Donaire, J.P.(1999). Changes induced by NaCl in lipid content and composition, lipoxygenase,plasma memberane H+ATPase and antioxidant enzyme activities of tomato (lycopersicon esculantum Mill). Calli. Plant physiol. 41:1229-1234.
86. Rout.G.R.,(2006).Tissue culture of ornamental potplant.elsevier 2006.634,.9750-544.
87. Sairam, R.K., Deshmukh, P.S.,Saxna, D.C., 1998.Role of antioxidant systems in wheat

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