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References

Abd El-Baki, G.K., Siefritz, F., Man, H.M., Welner, H., Kaldenhoff, R. and Kaiser, W.M. (2000): Nitrate reductase in Zea mays L. under salinity. Plant Cell Env. 23: 515-521.

Abdel-Mawgoud, A.M.R., Tantawy, A.S., Magda, M., Hafez and Hoda Habib, a.m. (2010): seaweed extract improves growth, yield and quality of different watermelon hybrids. J.agriculture and biological sciences, 6(2): 161-168.

Abdel-Samad, H.M., Shaddad, M.A. and Mostafa, D.M. (2004): Mechanism of salt tolerance and interactive effects of Azospirillum brasilense inoculation on maize cultivars grown under salt stress conditions. Plant Growth Regul. 10: 1-10.

Abou-Alhamd, M.F. (2005): Physiological effects of salinity on some antioxidative enzyme in some maize cultivars. M. Sc. Thesis, South Valley Univ. Qena, Egypt. 1-160.

Abou-Alhamd, M.F. (2007): The interactive effects of salinity and phytohormones on some physiological studies of two Hibiscu sabdariffa cultivars. Ph. D. Thesis, South Valley Univ., Qena, Egypt. 1-211. References 255

Adjei-Twun, D.C. and Splittstosser, W.E. (1976): The effect of soil water regimes on leaf water potential, growth and development of soybeans, Physiol. Plant. 38: 131-137.

Aebi, H. (1984): Catalase in Vitro. Meth Enzymol. 105: 121-126.

Agastian, P., Kingsley, S.J. and Vivekanandan, M. (2000): Effect of salinity on photosynthesis and biochemical characteristics in mulberry genotypes. Photosynthetica. 38: 287-290.

Ahmad I. and Hellebust, J.A. (1988): The relationship between inorganic nitrogen metabolism and proline accumulation in osmoregulatory responses of two euryhaline microalgae. Plant Physiology, 88: 348–354.

Ahmed, H.A. (1994): Salinity-calcium interactions on growth and metabolic activities of Chlorella fusca. B.Sc. Thesis, Assiut, Univ., Assiut, Egypt. 1-131.

Ahmad, P., Sharma, S. and Srivastava, P.S.(2007): In vitro

selection of NaHCO3 tolerant cultivars of Morus alba (Local and Sujanpuri) in response to morphological and biochemical parameters. Hort. Sci. 34: 115-123.

Akula, A., Akula, C. and Bateson, M. (2000): Betaine: a novel candidate For rapid induction of somatic embryogenesis in References 256

tea (Camellia sinensis [L.]. Plant Growth Regul. 30: 241– 246.

Alamgir, A.N.M. and Ali, M.Y. (1999): Effect of salinity on leaf pigments, sugar and protein concentrations and chloroplast ATPase activity of rice (Oryza sativa L.). Bangladesh J. Bot. 28: 145–149.

Alaoui-Sossé, B., Sehmer, L., Barnola P. and Dizengremel, P. (1998): Effect of NaCl salinity on growth and mineral partitioning in Quercus robur L., a rhythmically growing species, Trees. 12: 424–430.

Al-Hakimi, A.M.A. (2000): Interactive effects of Ca++ and NaCl on gas exchange and growth of broad bean (Vicia faba). J. Union Arab Biol., Cairo, Physiology and Algae, 8(B) :33- 43.

Allen, V.G.,Pond, K.R., Saker, K.E., Fontenot, J.P., Bagely, C.P., Ivy, R.L., Evans, R.R., Schmidt, R.E. Fike, J.H., Zhang, X.,Ayad, J.Y.,Brown, C.P., Miller, M.F.,Mohan, J.and Melton, C.(2001): Influence of brown seaweed on antioxidants in forages and live stock. A review. J. Aniru. Sci., 79(E-suppl.): E21-E31.

Anantharaj, M. and V. Venkatesalu, (2001): Effect of seaweed liquid fertilizer on Vigna catajung. Seaweed Research and Utilisation, 23(1&2): 33-39. References 257

Arbona, V., Marco, A.J., Iglesias, D.J., López-Climent, M.F., Ta ón, M. and Gómez-Cadenas, A. (2005): Carbohydrate depletion in roots and leaves of salt-stressed potted Citrus clementina L. Plant Growth Regul. 46: 153-160.

Arndta, S.K., Arampatsisb, C., Foetzkic, A., Lid, X., Zengd, F. and Zhangd, X. (2004): Contrasting patterns of leaf solute accumulation and salt adaptation in four phreatophytic desert plants in a hyperarid desert with saline groundwater. J. Arid. Env. 59: 259-270.

Arora, A., Sairam, R.K. and Srivastava, G.C. (2002): Oxidative stress and antioxidative systems in plants. Curr. Sci. 82: 1227–1238.

Arumugam, R., Anantharaman, P., Thirumaran, G., and Balasubramanian, T. (2008): Effect of seaweed extract from Sargassum wightii on Vigna unguiculata (L.) Walp. var. Pusa 151. Seaweed Res. Utiln., 30 (special issue): 233- 239.

Asada, K. and Chen, G. (1992): On activation of ascorbate peroxidase by thiols requires hydrogen peroxide. Plant Cell Physiol. 33: 117-123.

Ashok, V., Vijayanand and Rathinavel, S. (2004): Bio- fertilizing efficiency of seaweed liquid extract of References 258

Hydroclathrus clathratus on Sorghum vulgare Seaweed Research and Utilisation Association. 26 (1and2): 181-186.

Ashraf, M. and Shahbaz, M. (2003): Assessment of genotypic variation in salt tolerance of early CIMMYT hexaploid wheat germplasm using photosynthetic capacity and water relations as selection criteria. Photosynth. 41: 273-280.

Ashraf, M. (2004): Some important physiological selection criteria for salt tolerance in plants. Flora. 199: 361-376.

Ashraf, M. and McNeilly, T. (2004): Salinity tolerance in brassica oilseeds. Crit. Rev. Plant Sci. 23(2): 157-174.

Ashraf, M. and Orooj, A. (2006): Salt stress effects on growth, ion accumulation and seed oil concentration in an arid zone traditional medicinal plant ajwain (Trachyspermum ammi L. Sprague). J. Arid Environs. 64: 209-220.

Ashraf, M., Athar, H.R., Harris, P.J.C. and Kwon, T.R. (2008): Some prospective strategies for improving crop salt tolerance. Adv. Agron. 97: 45-110.

Attila, H., Sára, E. and Gábor, H. (2001): Comparative studies

of H2O2 detoxifying enzymes in green and greening barley seedlings under cadmium stress. Plant Sci. 160: 1085-1093. References 259

Axelord, B., Cheesbrough, T.M. and Laakso, S. (1981): Lipoxygenase from soybeans. Methods Enzymol. 71: 441- 451.

Ayad, J.Y. (1998): The effect of seaweed extract (Ascophyllum nodosum) extract on antioxidant activities and drought tolerance of tall fescue (Festuca arundinacea Schreb.). Ph.D. dissertation, Texas Tech University, Lubbock. 1-199.

Azevedo Neto, A.D., Prisco, J.T., Enéas-Fihlo, J., Abreu, C.E.B. and Gomes-Fihlo, E. (2006): Effect of salt stress on antioxidative enzymes and lipid peroxidation in leaves and roots of salt-tolerant and salt-sensitive maize genotypes. J. Environ. Exp. Bot. 56(1): 87-94.

Aziz, A., Poinssot, B., Dairy, X., Adrian, M., Bezier, A., Lambert, B., Joubert, J.M., Pugin, A. (2003): Laminarin elicits defense responses in grapevine and induces protection against Botrytis cinerea and Plasmopara viticola. Mol. Plant- Microbe Interact. 16: 1118-1128.

Azooz, M.M., Shaddad, M.A. and Abdel-latef, A.A. (2004): The accumulation and compartmentation of proline in relation to salt tolerance of three sorghum cultivars. Indian J. Plant Physiol. 9: 1-8. References 260

Azooz, M.M., Shaddad, M.A. and Abdel-Latef, A.A. (2004a): The accumulation and compartmentation of proline in relation to salt tolerance of three sorghum cultivars. Ind. J.Plant Physiol. 9: 1-8.

Babior, B.M(1999):NADPH oxidase: an update.Blood. 93: 1464- 1476.

Badour, S.S.A. (1959): Analytically chemical investigation of the kaliummangles in Chlorella in comparison with other mangelezustanden. Ph. D. Dissertation, Goettingen. 1-199.

Baek, M.H., Kim, J.H., Chung, B.Y., Kim, J.S. and Lee, I.S. (2005): Alleviation of salt stress by low dose α-irriadiation in rice. Biol. Plant. 49: 273-276.

Bakova, N.M. (1982): Role of sodium salts in amino acid metabolism of tomato roots. Izv. Akad, Naukkaz &.SSR. Biol.0 (4): 1-5.

Balibrea, M.E., Rus-Alvarez, A.M., Bolaran, M.C. and Perez- Alfocea, F. (1997): Fast changes in soluble carbohydrates and proline contents in tomato seedlings in responses to ionic and non-ionic isoosmotic stresses. J. plant physiol. 151: 221-226. References 261

Ball, M.C., Chow, W.S., Anderson, J.M., (1987): Salinity- induced potassium deficiency causes loss of functional photosystem II in leaves of the grey mangrove, Avicennia marina, through depletion of the atrazinebinding polypeptide. Aust. J. Plant Physiol. 14: 351-61.

Bandeoğlu, E., Eyidoğan, F., Yücel, M. and Öktem, H.A. (2004): Antioxidant responses of shoots and roots of lentil to NaCl-salinity stress. Plant Growth Regul. 42: 69-77.

Bartels, D., Alexander, R., Nelson, D. and salamini, f. (1993): Desiccation-related gene products analysed in a resurrection plant and barley embryos. In: Plant responses to cellular dehydration during enviromental stress. Curr. Top. Plant Physiol. A: Soc. Plant Physiol. Ser. 10: 119-127.

Bartels, D. and Nelson, D. (1994): Approaches to improve stress tolerance using molecular genetics. Plant Cell Environ 17: 659–667.

Bates, L.S., Waldren, R.P. and Tear, L.D. (1973): Rapid determination of free proline for water-stress studies. Plant Soil. 39: 205-207.

Becana, M., Paris, F.J., Sandalio, L.M. and Del Rio, L.A. (1989): Isoenzymes of superoxide dismutase in nodules of References 262

Phaseolus vulgaris L.; Pisum sativum L.; and Vigna unguiculata L. Walp. Plant Physiol. 90: 1286-1292.

Becana, M., Dalton, D.A., Moran, J.F., Iturbe-Ormaetxe, I., Matamoros, M.A. and Rubio, M.C. (2000): Reactive oxygen species and antioxidants in legume nodules. Physiol. Plant.109: 372-381.

Beckett, R.P. and van Staden, J. (1989): The effect of seaweed concentrate on the growth and yield of potassium stressed wheat. Plant Soil. 116: 29–36.

Benavides, M.P., Marconi, P.L., Gallego, S.M., Comba, M.E. and Tomaro, M.L. (2000): Relationship between antioxidant defence system and salt tolerance in Solanum tuberosum. Aust. J. Plant Physiol. 27: 273-278.

Bhosle, N.B., Untawale, A.G., and Dhargalkar V.K. (1975): Effect of seaweed extract on the growth of Phaseolus vulgaris L. Indian J. Mar. Sci. 4: 207-210.

Bloemberg, G.V., Wijfjes, A.H.M., Lamers, G.E.M., Stuurman, N. and Lugtenberg, B.J.J. (2000): Simultaneous imaging of Pseudomonas fluorescens WCS3655 populations expressing three different autofluorescent proteins in the rhizosphere: new perspective References 263

for studying microbial communities. Mol. Plant Mic. 13: 1170-1176.

Blunden, G. and Wildgoose, P.B. (1971): The effects of aqueous seaweed extract and kinetin on potato yields. J. sci. Food Agric. 28(2): 121-125.

Blunden, G., Cripps, A.L., Gordon, S.M., Mason, T.G., Turner, C.H. (1986): The characterization and quantitative estimation of betaines in commercial seaweed extracts. Bot. Mar. 24: 155–160.

Blunden, G., Jenkins, T. and Wan, L.Y. (1997): Enhanced leaf chlorophyll levels in plants treated with seaweed extracts. J. Appl. Phycol. 8(6): 535-543.

Bohnert, H.J., Nelson, D.E. and Jensen, R.G. (1995): Adaptations to environmental stresses. Plant Cell. 7: 1099- 1111.

Bokil, K.K., Mehta, V.C. and Datar, D.S. (1974): Seaweeds as manure: II pot culture manorial experiments on wheat. Phykos. 13 (1): 1–5.

Boller, T. (1995): Chemoperception of microbial signals in plant cells. Annu Rev Plant Physiol Plant Mol. Biol. 46: 189– 214. References 264

Booth, E. (1969): The manorial value of seaweed, Bot. Mar. 8: 138-143.

Boscaiu, M., Estrelles, E., Soriano, P. and Vicente, O. (2005): Effects of salt stress on the reproductive biology of the halophyte Plantago crassifolia. Biol. Plant. 49: 141-143.

Botella, M.A., Quesada, M.A., Kononowicz, A.K., Bressan, R.A., Pliego, F., Hasegawa, P.M. and Valpuesta, V. (1994): Characterization and in-situ localization of a salt- induced tomato peroxidase messenger-RNA. Plant Mol. Biol. 25: 105-114.

Brain, K.R., Chalopin, M.C., Turner, T.D., Blunden, G. and Wildgoose, P.B. (1973): Cytokinin activity of commercial aqueous seaweed extract. Plant Sci. Lett. 1: 241–245.

Britto, D.T., Ebrahimi-Ardebili, S., Hamam, A.M., Coskun, D. and Kronzucker, H.J. (2010): K analysis of sodium- induced potassium efflux in barley: mechanism and relevance to salt tolerance. New Phytologist, 186: 373-384.

Burchett, S., Fuller, M.P., Jellings, A.J. (1998): Application of seaweed extract improves winter hardiness of winter barley cv Igri. The Society for Experimental Biology, Annual Meeting, The York University, Mar. 22–27. References 265

Bush, D.S. (1995): Calcium regulation in plant cell and his role in signaling. Ann. Rev. Plant Physiol. 46: 95-102.

Butterfield, D.A., Koppal, T., Howard, K., Yatin, S., Allen, K., Aksenov, M. and Carney, J.(1998): Structural and functional changes in proteins induced by free radical mediated oxidative stress and protective action of the antioxidents N-tert-butyl-phynel nitrone and vitamin E. Ann. N.Y. Acad. Sci. 854: 448-462.

Cahyana A.H., Shuto, Y. and Kinoshita, Y. (1992): Pyropheophytin a as an antioxidative substance from the marine alga, Arame (Eisenia bicyclis), Biosci. Biotechnol. Biochem. 56 : 1533–1535.

Candeias, L.P., Patel, K.B., Stratford, M.R. and Wardman, p. (1993): Free hydroxyl radicals are formed on reaction between the neutrophyl. Derived species superoxide anion and hypochlorous acid. FEBS Lett. 333: 151-153.

Chachar, Q.I., Solangil, A.G. and Verhoef, A. (2008): Influence of sodium chloride on seed germination and seedling root growth of cotton (Gossypium Hirsutum L.). Pak. J. Bot. 40(1): 183-197.

Chai. T.T., Fadzillah, N.M., Kusnan, M. and Mahmood, M. (2005): Water stress-induced oxidative damage and References 266

antioxidant responses in micropropagated banana plantlets. Biol. Plant. 49: 153-156.

Chandia, N.P. and Matsuhiro, B. (2008): Characterization of a fucoidan from Lessonia vadosa (Phaeophyta) and its anticoagulant and elicitor properties. Int. J. Biol. Macromol. 42: 235-240.

Charbaji, T. and Ayyoubi, Z. (2004): Differential growth of some grapevine varieties in Syria in response to salt in vitro. In Vitro Cell. Dev. Biol. Plant. 40: 221-224.

Chelikani, P., Fita, I. and Loewen, P.C. (2004): "Diversity of structures and properties among catalases". Cell. Mol. Life Sci. 61 (2): 192–208.

Chen, G. and Asada, K. (1989): Ascorbate peroxidase in tea leaves: occurrence of two isozymes and the differences in their enzymatic and molecular properties. Plant Cell Physiol. l30: 987-998.

Chen, L.M., Lin, C.C. and Kao, C.H. (2000): Copper toxicity in the rice seedlings: Changes in antioxidative enzyme

activities, H2O2 level, and cell wal peroxidase activity in roots. Bot. Bull. Acad. Sin. 41: 99-103. References 267

Claussen. W. (2005): Proline as a measure of stress in tomato plants. Plant Sci. 168: 241–248.

Cluzet S., Torregrosa C., Jacquet C., Lafitte C., Fournier J., Mercier L., Salamagne S., Briand X., Esquerre´-Tugaye´ M.T.and Dumas, B. (2004): Gene expression profiling and protection of Medicago truncatula against a fungal infection in response to an elicitor from the green alga Ulva spp. Plant Cell Environ. 27: 917–928.

Comba, M.E., Benavides, M.B. and Tomaro, M.L. (1998): Effect of salt stress on antioxidant defence system in soybean root nodules. Aust. J. Plant Physiol. 25: 665-671.

Coˆ te´ F., Ham K.S., Hahn M.G., Bergmann C.W. and Biswas Das (eds) (1998): Oligosaccharide elicitors in host- pathogen interactions: genera- tion, perception, and signal transductio In: Subcellular bio chemistry: plant–microbe interactions.Plenum Press, New York, 29: 385–432.

Cramer,G.R., Epstein, E. and Lauchli, A.(1989): Na+ – Ca++ interactions in barely seedlings: Relationships to ion transport and growth. Plant Cell Environ. 12: 551-558.

Crouch, I.J. and van Staden, J. (1993): Evidence for the presence of plant growth regulators in commercial seaweed products. Plant Growth Regul. 13: 21–29 References 268

Crouch, I.J. and Van Staden, J. (1994): Commercial seaweed products as biostimulants in horticulture. Journal of Home and Consumer Horticulture, 1: 19–76.

Dagar, J.C., Bhagwan, H. and Kumar, Y. (2004): Effect of growth performance and biochemical contents of Salvadora persica when irrigated with water of different salinity. Indian J. Plant. Physiol. 9: 234-238.

Dalton, D.A., Joyner, S.L., Becana, M., Iturbe-Ormaetxe, I. and Chatfield, J.M. (1998): Antioxidant defences in the peripheral cell layers of legume root nodules. Plant Physiol. 116: 37-43.

Darcy-Vrillon, B. (1993): Nutritional aspects of the developing use of earine macroalgae for the human industry. Intl. J. Food Sci. Nutrition, 44: 23-35.

Delattre, C., Michau, P., Courtois, B. and Courtois, J. ( 2005): Oligosaccharides engineering from plants and algae applications in biotechnology and therapeutics. Minerva Biotechnol. 17: 107-117.

Delauny, A.J. and Verma, D.P.S. (1993): Proline biosynthesis and osmoregulation in plants. J.Plant. 4: 215-223. References 269

Demiral, T. and Türkan, I. (2004a): Does exogenous glycinebetaine affect antioxidative system of rice seedlings under NaCl treatment?. J. Plant. Physiol. 161: 1089-1100.

Demiral, T. and Türkan, I. (2004b): Comparative lipid peroxidation, antioxidant defense systems and prolife content in roots of two rice cultivars differing in salt tolerance. Env.Exp. Bot. 53: 247-257.

Demiral, T. and Türkan, I. (2005): Comparative lipid peroxidation, antioxidant defense systems and proline content in roots of two rice cultivars differing in salt tolerance. Environ. Exp. Bot. 53: 247-257.

De Pascale, S., Maggio, A. and Barbieri, G. (2005): Soil salinization affects growth, yield and mineral composition of cauliflower and broccoli. Europ. J. Agron. 23: 254-264.

Dhargalkar, V.K. and Untawale, A.G. (1983): Some observations of the effect of SLF on higher plants. Indian J. Marine Sci. 12: 210-214.

Dhinsda, R.S., Plumb-Dhinsda, P. and Thorne, P.A. (1981): Leaf senescence: Correlated with increased levels of membrane permeability and lipid peroxidation and decreased levels of superoxide dismutase and catalase. J. Exp. Bot. 32: 93-101. References 270

Dietz, K.J., Baier, M. and Kramer, U. (1999): Free radicals and reactive oxygen species as mediator of heavy metal toxicity in plants. In: Prasad MNV, Hagemeyer J (eds), Heavy metal stress in plants: From molecules to ecosystem, pp.73–79.

Divitt, D.A., Stolzy, L.H. and Labanausks, C.K. (1987): Impact of potassium, sodium and salinity on the protein and free amino acid content of wheat grain. Plant. Soil. 103: 101-109.

Dubey, R.S. and Singh, A.K. (1999): Salinity induces accumulation of soluble sugars and alters the activity of sugar metabolizing enzymes in rice plants. Biol. Plant. 42: 233-239.

Durán, V.H., Martìnez-Raya, A., Aguilar, J. and Franco, D. (2004): Impact of salinity on macro- and micronutrient uptake in mango (Mangifera indica L. cv. Osteen) with different rootstocks. Span. J. Agric. Res. 2: 121-33.

Durand, N., Briand, X. and Meyer, C. (2003): The effect of marine bioactive substances (NPRO) and exogenous cytokinins on nitrate reductase activity in Arabidopsis thaliana. Physiol Plant. 119: 489–493. References 271

Durmus, N. and Kadioglu, A. (2005): Reduction of paraguat toxicity in maize leaves by benzyladenine. Acta Biol. Hung. 56: 97-107.

Edwards, D.W., Reed R.H., Chudek J.A., Foster R., Stewart W.D.P. (1987): Organic solute accumulation in osmotically- stressed Enteromorpha intestinalis. Marine Biology, 95: 583–592.

Ehsani-Moghaddam, B., Charles, M.T. Carisse, O. and Khanizadeh, S. (2006): Superoxide dismutase responses of strawberry cultivars to infection by Mycosphaerella fragariae. J. Plant Physiol. 163: 147-153.

Eiserich, J.P., Baldus, S., Brennan, M.L., Ma., W.,Zhang, C., Tousson, A., White, C. and Freeman, B.A.(2002): Myleoperoxidase, aleucocyte-derived vascular No oxidase science, 296: 2391-2394.

El-Hendawy, S.E., Hu, Y., Yakout, G.M., Awad, A.M., Hafiz, S.E. and Schmidhalter, U. (2005): Evaluation salt tolerance of wheat genotypes using multiple parameters. Europ. J. Agronomy. 22: 245-253.

Elkahoui, S., Hernandez, J.A., Abdelly, C., Ghrir, R. and Limam, F. (2005): Effect of salt on lipid peroxidation and References 272

antioxidant enzyme activities of Catharanthus roseus suspension cells. Plant Sci. 168: 607-613.

El-Sheekh, M.M., and El-Saied, A.E.F. (1999): Effect of seaweed extrac\ts on seed germination, seedling growth and some metabolic process of Fabe beans (Vicia faba L.). Phykos. 38: 55-64.

Elshintinnawy, F. and Elshourbagy, M.N. (2001): Alleviation of changes in protein metabolism in NaCl- stressed wheat seedlings by thiamine. Biol. Plant. 44: 541-545.

Ervin, E.H., Zhang, X. and Fike, J. (2004): Alleviating ultraviolet radiation damage on Poa pratensis: II. Hormone and hormone containing substance treatments. Hortic Sci. 39: 1471–1474.

Erulan, V., Soundrapandian, P., Thirumaran, G., and Ananthan, G. (2009): Studies on the effect of Sargassum polycystum (C.agardh, 1824) extract on the growth and biochemical composition of Cajanus Cajan (L.) Mill sp . American-Eurasian Journal of Agriculture & Environmental Science, 6: 392-399.

Fadzilla, N.M., Pinch, R.P. and Burdon, R.H. (1997): Salinity, oxidative stress and antioxidant responses in shoot cultures of rice. J. Exp. Bot. 48: 325-331. References 273

Fales, F.W. (1951): The assimilation and degradation of carbohydrate by Yeast cells. J. Biol. Chem. 193: 113-124.

Farghl, A.A.M. (2008): Physiological studies of some selected soil algae in Qena region. Ph. D. Thesis, South Valley Univ., Qena, Egypt. 1-275.

Farghly, A.F. (2001): Physiological response of some wheat cultivers to salinity stress. M. Sc. Thesis, Assiut Univ., Assiut, Egypt. 1-206.

FAO (2006): Food and Agricultural Organisation of the United Nations, Rome.Year book of fishery statistics, vol 98 : 1–2.

Featonby-Smith, B.C. and Van staden, J. (1983): The effect of seaweed concentrate and fertilizer on the growth of Beta Vulgaris. International J. plant Physiol. 112(2): 155-162.

Featonby-Smith, B.C. and Van staden, J. (1987): Effect of seaweed concentrateand fertilizer on grain yield of barley. South African Bot. 53(2): 125-128.

Fedina, I., Georgieva, K., Velitchkova, M. and Grigorova, I. (2006): Effect of pre-treatment of barley seedlings with different salts on the level of UV-B induced and UV-B absorbang compounds. Environ. Exp. Bot. 56: 225-230. References 274

Fercha Azzedine, Hocine Gherroucha and Mebarek Baka (2011): improvement of salt tolerance in durum wheat by ascorbic acid application. J.Stress Physiology & Biochemistry, 7(1): 27-37.

Fernandes, T.A., V. Iyer and S.K. Apte (1993): Differential responses of nitrogen fixing cyanobacteria to salinity and osmotic stress. Appl. Environ.Microbiol. 59: 899-904.

Fike, J.H., Allen, V.G., Schmidt, R.E., Zhang, X., Fontenot, J.P., Bagley, C.P., Ivy, R.L., Evans, R.R., Coelho, R.W. and Wester D.B. (2001): Tasco-Forage: I. Influence of a seaweed extract on antioxidant activity in tall fescue and in ruminants. J. Anim. Sci. 79: 1011–1021.

Flowers, T.J. (2004): Improving crop salt tolerance. J. Exp. Bot. 55: 307-319.

Flowers, T.J. and Yeo, A.R. (1995): Breeding for salinity resistance in crop plants—where next? Aust. J. Plant Physiol. 22: 875–884.

Fornes, F., Sánchez-Perales, M. and Guadiola, J.L. (2002): Effect of a seaweed extract on the productivity of ‘de Nules’ Clementine mandarin and navelina orange. Botanica Marina. 45: 486–489. References 275

Fuchen, S. and Fang, B. (2007): Effects of salinity and temperature stress on ecophysiological characteristics of exotic cordgrass, Spartina alterniflora. Acta Ecol. Sinica. 27(7): 2733-2741.

Fujiwara-Arasaki, T., Mino, N. and Kuroda, M. (1984): The protein in human nutrition of edible marine algae in Japan. Hydrobiologia. 116/117: 513-516.

Gaber, A.M. and Dohdoh, M.S.A.(1999): Response of barley to organic wastes and water stress under irrigation with saline water.Desert inst. Bull., Egypt, ug(2): 219-242.

Galal, H.R.M. (2007): The role of salicylic acid in increasing the activity of antioxidant system and consequently improve the salt tolerance of Scenedesmus sp.J. El-Minia Sci. Bulletine, 18: 183-195.

Gapińska, M., Skłodowska, M. and Gabara, B. (2008): Effect of short- and long-term salinity on the activities of antioxidative enzymes and lipid peroxidation in tomato roots. Acta Physiol. Plant. 30: 11-18.

Gandhiyappan, K. and Perumal, P. (2001): Growth promoting effect of Seaweed liquid fertilizer Enteromorpha intestinalis on the sesame crop plant Sesamum indicum (L). Seaweed Research and Utilisation Association, 26(1 and 2): 23-25. References 276

Genard, H., Le Saos, J., Billard, J.P., Tremolieres, A. and Boucaud, J. (1991): Effect of salinity on lipid composition, glycine betaine contentand photosynthetic activity in chloroplasts of Suaeda maritima.L. Plant physiology and Biochemistry, 29(5): 421-427.

Ghassemi, F., Jakeman, A.J. and Nix, H.A. (1995): Salinisation of land and water resources: Human causes, extent, management and case studies. UNSW Press, Sydney, Australia, and CAB International, Wallingford, UK. 526- 527.

Gilbert, G.A., Gadush, M.V., Wilson, C. and Madore, M.A. (1998): Amino acid accumulation in sink and source tissues of Coleus blumei Benth during salinity stress. J. Exp. Bot. 49: 107-114.

Goel, A.K., Laura, R.D., Pathak, D.V., Anuradha,G. and Goel, A. (1999): Use of biofertilizers: potential, contrains and future strategies review. Inter. J. trop.Agric. 17: 1-18.

Good sell D.S. (2007): Catalase molecule of the month. RCSP protein Data bank. 9: 8-11.

Gorham, J. (1994): Salt tolerance in the triticeae K/Na discrimination in some perennial wheat grasses and their amphiploids with wheat. J. Exp. Bot. 273: 441-447. References 277

Gossett, D.R., Millhollon, E.P. and Lucas, M.C. (1994): Antioxidant response to NaCl stress in salt-tolerant and salt- sensitive cultivars of cotton. Crop Sci. 34: 706-714.

Grant, J.J. and Loake, G.J. (2000): Role of reactive oxygen intermediate and cognate redox signaling in disease resistance. Plant Physiol. 124: 21-29.

Grattan, S.R. and Grieve, C.M. (1999): Salinity-mineral nutrient relations in horticultural crops. Hort. Sci. 78: 127- 157.

Hakam, N., Khanizadeh, S., DeEll, J.R. and Richer, C. (2000): Assessing chilling tolerance in roses using chlorophyll fluorescence. Hort. Sci. 35: 184-186.

Halliwell, B.(1991): Reactive oxygen species in living systems: source, biochemistry, and rple in human disease. American J. of medicine. 91(3c): 14-22.

Hameed, A., Naseer, S., Iqbal, T., Syed, H. and Haq, M.A. (2008): Effects of NaCl salinity on seedling growth, senescence, catalase and protease activities in two wheat genotypes differing in salt tolerance. Pak. J. Bot. 40(3): 1043-1051. References 278

Hameed, M. and Ashraf, M.(2008): Physiological and biochemical adaptation of Cynodon dactylon(L.) pers. From the salt range (Pakistan) to salinity stress. Flora. 203: 683- 694.

Hankins, S.D. and Hockey, H.P. (1990): The effect of a liquid seaweed extract from Ascophyllum nodosum (Fucales, Phaeophyta) on the two spotted red spider mite Tetranychus urticae. Hydrobiologia. 204 (205): 555-559.

Hare, P.D., Cress, W.A. and Van Staden, J. (1999): Proline synthesis and degradation: A model system for elucidating stress related signal transduction. J. Exp. Bot. 50: 413-434.

Haroun, S.A. (2002): Fenugreek growth and metabolism in response to gibberellic acid and seawater. Assiut Univ., J. Bot. 31: 11-21.

Hasegawa, P.M., Bressan, R.A., Zhu, J.K. and Bohnert, H. 2000): J. (Plant cellular and molecula responses to high salinity. Ann. Rev. Plant Physiol. Plant Mol. Physiol. 51: 463-499.

Havir, E.A. and Mellate, N.A. (1987): Biochemical and developmental characterization of multiple forms of catalase in tobacco leaves. Plant Physiol. 84: 450-455. References 279

Heath, R. L. and Packer, L. (1968): Photoperoxidation in isolated chloroplast. I. Kinetics and stiochiometry of fatty acid peroxidation. Arch. Biochem. Biophys. 125: 189-198.

Hemada, M. (2004): Physiological responses of three wheat cultivars (Triticum Aestivum L.) grown under salt stress. El- Minia Sci. Bull. 15: 389-410.

Hernandez, J.A., Olamos, E., Corpas, F.J., Sevilla, F. and Rio, L.A. (1995): Salt-induced oxidative stress in chloroplasts of pea plants. Plant Sci. 105: 151-167.

Hernández, J.A. and Almansa, M.S. (2002): Short-term effects of salt stress on antioxidant systems and leaf water relations of pea plants. Physiol. Plant.115: 251-257.

Hoda, A., Mohamed and Gomaa, A.M. (2005): Faba bean growth and green yield and its quality as influenced by the application of bio-organic farming system. J.applied sciences research.1(5): 380-385.

Hong, D.D., Hief, H.M. and Son, P.N. (2007): Seaweeds from Vietnam used for functional food, medicine and biofertilizer. J. Appl. Phycol. 19: 817–826. References 280

Huang, M. and Guo, Z. (2005): Response of antioxidative system to chilling stress in two rice cultivars differing in sensitivity. Biol. Plant. 49: 81-84.

Husain, S., Munns, R. and Condon, A.G. (2003): Effect of sodium exclusion trait on chlorophyll retention and growth of durum wheat in saline soil. Aust. J. Agric. Res. 54(6): 589-597.

Hussain, A., Boney, A.D. (1969): Isolation of kinin-like substances from Laminaria digitata. Nature, 223: 504–505.

Imada, S., Yamanaka, N. and Tamai, S. (2008): Effects of salinity on the growth, Na+ partitioning, and Na+ dynamics of a salt-tolerant tree, Populus alba L. Arid environ. 73(3): 245-251.

Irigoyen, J.J., Emerich, D.W. and Daiz, S. (1992): Water stress induced changes in concentrations of proline and total soluble sugars in nodulated alfalfa plants. Plant Physiol. 36: 84- 55

Ismail, A.M., Azooz, M.M. and Abdel-Latef, A.A. (2005): Effect of salt stress on the antioxidant enzymes activity in leaves of two wheat. Assiut Univ. J. Bot. 34: 185-198. References 281

Jaleel, C.A., Manivannan, P., Lakshmanan, G.M.A., Sridharan, R. and Panneerselvam, R. (2007b): NaCl as a physiological modulator of proline metabolism and antioxidant potential in Phyllanthus amarus. C. R. Biolog. 330: 806-813.

Jaleel, C.A., Gopi, R., Manivannan, P., Kishorekumar, A., Gomathinayagam, M. and Panneerselvam, R. (2007f): Changes in biochemical constituents and induction of early sprouting by triadimefon treatment in white yam (Dioscorea rotundata Poir.) tubers during storage. J. Zhejiang Univ. Sci. 8 (B): 283-288.

Jaleel, CA., Manivannan, P., Sankar, B., Kishorekumar, A., Panneerselvam, R. (2008a): Salt stress mitigation by calcium chloride in Phyllanthus amarus. Acta Botanica Croatica, 67: 53- 62.

Jaleel, C.A., Ragupathi Gopi, R., Manivannan, P. and Panneerselvam, R. (2008b): Soil salinity alters the morphology in Catharanthus roseus and its effects on endogenous mineral constituents. Eur. Asia J. Bio. Sci. 2: 18-25.

Jampeetong, A. and Brix, H. (2009): Effects of NaCl salinity on growth, morphology, photosynthesis and proline References 282

accumulation of Salvinia natans. Aquatic Bot. 91(3): 181- 186.

Janardan, K.V., Murtay, K., Girira, J. and Panchaksharais, S. (1976): Salt tolerance of cotton and potential use of saline water for irrigation. curr. Sci. 45: 334-336.

Jebara, S., Jebara, M., Limam, F. and Aouani, M.E. (2005): Changes in ascorbate peroxidase, catalase, guaiacol peroxidase and superoxide dismutase activities in common bean (Phaseolus vulgaris) nodules under salt stress. J. Plant Physiol. 162: 929-936.

Jensen, A. (1993): Present and future needs for alga and algal products Hydrobiology, 260/261: 15-21.

Jeyaramraja, P.R., Meenakshi, S.N., Kumar, R.S., Joshi, S.D. and Ramasubramanian, B. (2005): Water deficit induced oxidative damage in tea (Camellia Sinensis) plants. J. Plant Physiol. 162: 413-419.

Jiménez-Bremont, J.F., Becerra-Flora, A., Hernández-Lucero, E., Rodrìguez-Kessler, M., Acosta Gallegos, J.A. and Ramìrez-Pimentel, J.G. (2006): Proline accumulation in two bean cultivars under salt stress and the effect of polyamines and ornithine, Biol. Plant. 50: 763-766. References 283

Jones, R.L. and MacMillan, J. (1987): Gibberellins. In: "Advanced Plant Physiology". (Ed) Wilkins. M. B. The Bath Press. Avon. 21-52.

Jothinayagi, N. and Anbazhagan, C. (2009): Effect of seaweed liquid fertilizer of Sargassum wightii on the growth and biochemical characteristics of Abelmoschus esculentus (L.) Medikus. Recent Research in Science and Technology, 1: 155–158.

Kalinkina, L.G., Naumova, T.G. (1992): Content of free amino acids in cells of marine and fresh-water Chlorella during inhibition of the glycolate pathway on a background of salinity. Soviet Plant Physiol. 89: 358–365.

Kaminaka, H., Morita, S., Nakajima, M., Masumura, T. and Tanaka, H. (1998): Gene cloning and expression of cytosolic glutathione reductase in rice (Oryza Sativa L.). Plant Cell Physiol. 39: 1269- 1280.

Kandpal, R.P. and Appaji-Rao, N. (1985): Alteration in the biosynthesisof proteins and nucleic acids in finger millet Eleucina coracane seedlings during water stress and the effect of proline on protein synthesis. Plant Sci. 40: 73-79.

Kannan, L. and Tamilselvan, C. (1990): Effect of seaweed manures on Vigna radiatus. Perspectives in phycology. References 284

(Prof. M.O.P. lyenger Centenary Celebration Volume) V.N.Rajarao (Ed.), Pp. 265-275.

Karimi, G., Ghorbanli, M., Heidari, H., Nejad, K.R.A. and Assareh, M.H. (2005): The effects of NaCl on growth, water relations, osmolytes and ion content in Kochia prostrate. Biologia Plant. 49(2): 301-304.

Karpinski, S., Escobar, C., Karpinska, B., Wingsle, G., Greissen, G. and Mullineaux, P. (1997): Photosynthetic electron transport regulates the expression of cytosolic ascorbate peroxidase genes in Arabidopsis during excess light stress. Plant Cell. 9: 627-640.

Kasim, W.A. and Dowidar, S. (2004): Priming of Raphanus sativus seeds by soaking in gibberellic acid and its effects on salt-stressed seedlings. Bull. Fac. Sci. Assiut Univ. 33: 71- 81.

Kawasaki, S., Borchert, C. and Deyholos, M. et al. (2001): Gene expression profiles during the initial phase of salt stress in rice. Plant Cell. 13: 889-905.

Khan, N.A. (2001): NaCl-inhibited chlorophyll synthesis and associated changes in ethylene evolution and antioxidative enzyme activities in wheat. Biol. Plant. 47: 437-440. References 285

Khan, N.A. (2004): NaCl-inhibited chlorophyll synthesis and associated changes in ethylene evolution and antioxidative enzyme activities in wheat. Biol. Plant. 47: 437-440.

Khan, M.H. and Panda, S.K. (2008): Alterations in root lipid peroxidation and antioxidative responses in two rice cultivars under NaCl-salinity stress& Acta Physiol. Plant. 30: 81-89.

Kim, Y., Arihara, J., Nakayama, T., Nakayama, N., Shimada, S. and Usui, K. (2004): Antioxidative responses and their relation to salt tolerance in Echinochloa oryzicola Vasing and Setaria virdis (L.) Beauv. Plant Growth Regul. 44: 87- 92.

Kirkinezos, I.G. and Moraes, C.T. (2001): Reactive oxygen species and mitochondrial diseases. Semin. Cell Dev. Biol . 12: 449-457.

Kishor, P.B.K., Sangam, S, Amrutha, R., Laxmi, P.S., Naidu, K.R. and Rao, K.S. (2005): Regulation of proline biosynthesis, degradation, uptake and transport in higher plants: its implications in plant growth and abiotic stress tolerance. Curr. Sci. 88: 424-438.

Kloareg, B. and Quatrano, R.S. (1988): Structure of the cell walls of marine algae and ecophysiological functions of the References 286

matrix polysaccha- rides. Oceanogr Mar Biol. Annu. Rev. 26: 259–315.

Koca, M., Bor, M., Ozdemir, F. and Turkan, I. (2007): The effect of salt stress on lipid peroxidation, antioxidative enzymes and proline content of sesame cultivars. Environ. Exp. Bot. 60: 344–351.

Kocheva, K.V., Busheva, M.C., Georgiev, G.I., Lambrev, P.H. and Goltsev, V.N. (2005): Influence of short-term osmatic stress on the photosynthetic activity of barley seedlings. Biol. Plant. 49: 145-148.

Kukreja, S., Nandwal, A.S., Kumar, N., Sharma, S.K., Unvl,

V. and Sharma, P.K. (2005): Plant water status, H2O2 scavenging enzymes, ethylene evolution and membrane integrity of Cicer arietinum roots as affected by salinity. Biol. Plant. 49: 305-308.

Kumar, J. Rana, S.S., Verma, H.S. and Jindal, K.K. (2003): Effect of promadine on fruit shape, set, yield and quality of apple cv. Strking delicious. Ind. J. Hort. 60: 143-146.

Lapina, L.P., B.A. and Strogonov, B.P. (1968): The changes of the ultrastructure of corn chloroplasts under NaCl salinization. Fiziol. Rast. 15: 1059-1063. References 287

Lascano, H.R., Melchiorre, M.N., Luna, C.M. and Trippi, S.V. (2003): Effect of photooxidative stress induced by paraquat in two wheat cultivars with different tolerance to water stress. Plant Sci. 164: 841-848.

Lee, T.M. and Liu, C.H. (1999): Correlation of decreased calcium contents with proline accumulation in the marine green macroalga Ulva fasciata exposed to elevated NaCl contents in seawater. J. Exp. Bot. 50: 1855-1862.

Lee, D.H., Kim, Y.S. and Lee, C.B. (2001): The inductive responses of the antioxidant enzymes by salt stress in the rice (Oryza sativa L.). J. Plant Physiol. 158: 737-745.

Li, B., Wei, J., Wei, X., Tang, K., Liang, Y., Shua, K. and Wang, B. (2008): Effect of sound wave stress on antioxidant enzyme activities and lipid peroxidation of Dendrobium candidum. Colloids Surf. B: Biointerf. 63: 269-275.

Liang, Y., Hu, F., Yang, M. and Yu, J. (2003): Antioxidant defenses and water deficit-induced oxidative damage in rice (Oryza sativa L.) growing on non-flooded poddy soils with ground mulching. Plant Soil. 257: 407-416. References 288

Lin, C.C. and Kao, C.H. (1996): Proline accumulation is associated with inhibition of rice seedlings root growth caused by NaCl. Plant Sci. 114: 121-128.

Liua, X. and Huanga, B. (2000): Heat stress injury in relation to membrane lipid peroxidation in creeping bentgrass. Crop Sci. 40: 503-510.

Lingakumar, K., Jeyaprakash, R., Manimuthu, C. and Haribaskar, A. (2004): Influence of Sargassum sp. crude extract on vegetative growth and biochemical characteristics in Zea mays and Phaseolus mungo. Seaweed. Res. Utiln. 26 (1&2): 155-160.

López, F., Vansuyt, G., Derancourt, J., Fourcroy, P. and Casse- Delbart, F. (1994): Identification by 2D PAGE analysis of salt stress induced proteins in raddish. Cell Mol. Biol. 40: 85-90.

López, F., Vansuyt, G., Gass-delbart, F. and Fourcroy, P. (1996): Ascorbate peroxidase activity not the mRNA levels is enhanced in salt stressed Raphanus Sativus plants. Physiol. Plant. 9: 13-20.

Loschen, G., Flohe, L. and Chance, B. (1971): Respiratory chain linked H(2) O(2) production in pigeon heart mitochondria. FEBS Lett. 18: 261-264. References 289

Lowery, O. H., Rasebrough, N. J., Farr, A. L. and Randall, R. J. (1951): Protein measurement with the Folin phenol reagent. J. Biol. Chem. 193: 291-297.

Lu, I., Sung, M. and Lee, T. (2006): Salinity stress and hydrogen peroxide regulation of antioxidant defense system in Ulva fasciata. Mar. Biol. 150: 1- 15.

Luna, C., Seffino, L.G., Arias, C. and Taleisnik, E. (2000): Oxidative stress indicators as selection tools for salt tolerance in Chloris gayana. Plant Bre. 119: 341-345.

Lutts, S., Kinet, J.M. and Bouharment, J. (1996): Effects of salt stress on growth, mineral nutrition and proline accumulation in relation to osmotic adjustment in rice (Oryza sativa L.) cultivars differing in salinity resistance. Plant Grow. Regul. 19: 207-218.

Lycoskoufis, I.H., Savvas, D. and Mavrogianopoulos, G. (2005): Growth, gas exchange, and nutrient status in pepper (Capsicum annuum L.) grown in recirculating nutrient solution as affected by salinity imposed to half of the root system. Sci. Hort. 106: 147-161.

Maathuis, F.J.M. and Amtmann, A. (1999): K+ nutrition and Na+ toxicity: the basis of cellular K+/Na+ ratios. Ann. Bot. 84: 123–133. References 290

Mabeau, S. and Fleurence, J. (1993): Seaweed in food products: Biochemical and nutritional aspects. Trends in Food Sci. Technol. 4: 103-107.

MacAdam, J.W., Sharp, R.E. and Nelson, C.J. (1992): Peroxidase activity in the leaf elongation zone of tall fescue. II. Spatital distribution of apoplastic peroxidase activity in genotypes differing in length of the elongation zone. Plant Physiol. 99: 879-885.

Maehly, A. C. and Chance, B. (1954): The assay of catalase and peroxidase. Meth. Anal. Biochem. 1: 357.

Maggio, A., De Pascale, S., Fagnano, M. and Barbieri, G. (2007):Can salt stress-induced physiological responses protect tomato crops from ozone damages in Mediterranean environments? European Journal of Agronomy, 26(4): 454- 461.

Manchandia, A.M., Banks, S.W., Gossett, D.R., Bellaire, B.A., Lucas, M.C. and Millhollon, E. (1999): The influence of α-amanitin the NaCl induced up-regulation of antioxidant efzyme activity cotton callus tissue. Free Radic. Res. 30: 429-438.

Marnett, L., (2000): Oxyradicals and DNA damage. Carcinogenesis, 21(3): 361-370. References 291

Mancuso, S., Azzarello, E., Mugnai, S., Briand, X., (2006): Marine bioactive substances (IPA extract) improve foliar ion uptake and water tolerance in potted Vitis vinifera plants. Advances Sci. Hort. 20: 156–161.

Mandhania, S., Madan, S. and Sawhney, V. (2006): Antioxidant defense mechanism under salt stress in wheat seedlings. Biol. Plant. 50(2): 227-231.

Manivannan, P., Jaleel, C.A, Sankar, B., Kishorekumar, A., Murali, P.V., Somasundaram, R. and Panneerselvam, R. (2008): Mineral uptake and biochemical changes in Helianthus annuus under treatment with different sodium salts. Colloids Surf. B: Biointerf. 62: 58-63.

Marschner, H. (1986): Mineral nutrition of higher plants. Acad. Press. London. 477-542.

Matamoros, M.A., Dalton, D.A., Ramos, J., Clemente, M.R., Rubio, M.C. and Becana, M. (2003): Biochemistry and molecular biology of antioxidants in the rhizobia-legume symbiosis. Plant Physiol. 133: 499-509.

Mathews, E.V., Van volkenburgh, E. and Boyers J.S (1984): Accimlation of leaf growth to low water potentials in sunflower. Plant, Cell and Enviroment. 7: 199-206. References 292

Matsukawa, R., Dubinsky, Z., Kishimoto, E., Masak, K., Masuda, Y., Takeuchi, T., Chihara, M., Yamamoto, Y., Niki, E. and Karube, I., (1997): A comparison of screening methods for antioxidant activity in seaweeds. J. Appl. Phycol. 9: 29–35.

Meloni, D.A., Gulotta, M.R. and Martínez, C.A. (2008): Salinity tolerance in Schinopsis quebracho colorado: Seed germination, growth, ion relations and metabolic responses. J. Arid Environ. 72: 1785-1792.

Mercier, L., Lafitte, C., Borderies, G., Briand, X., Esquerre´- Tugaye´,M.T. and Fournier, J. (2001): The algal polysaccharide carrageenans can act as an elicitor of plant defence. New Phytol. 149: 43–51.

Metzner, H., Rau, H. and Senger, H. (1965): To synchronsiser bakeit investigations of individual pigment-deficiency mutants of Chlorella. Planta. 65: 186-194.

Michele, A.Z., Jian-Jun, W., Galina, V., Vandanajay, B. and Nisha, G.(2005):Generation of ROS and their control by antioxidants.An. Acad. Bras. Cienc. 77(4): 695-715.

Misra, A.N., Murmu, B. Singh, P. and Misra. M. (1997): Growth and proline accumulation in mungbean seedlings as affected by sodium chloride. Biol. Plant. 38: 531-536. References 293

Misra, N. and Gupta, A.K.(2005): Effect of salt stress on proline metabolism in two high yielding genotypes of green gram. Plant Sci. 169: 331-339.

Mittler, R. (2002): Oxidative stress, antioxidants and stress tolerance.Trends Plant Sci 7:405–410.

Moghaieb, R.E.A., Saneoka, H. and Fujita, K. (2004): Effect of salinity on osmotic adjustment, glycinebetaine accumulation and the betaine aldehyde dehydrogenase gene expression in two halophytic plants, Salicornia europaea and Suaeda maritima. Plant Sci. 166: 1345-1349.

Mohammed, H.A.M. (2007): Physiological studies gn the antioxidative responses and some related metabolities of lupin and sorghum plants grown under sea water. M. Sc. Thesis, South Vally Univ. Qena, Egypt.1-184.

Mohan, V.R., Venkataraman Kumar, V., Murugeswari, R., Muthuswami, S., (1994): Effect of crude and commercial seaweed extract on seed germination and seedling growth in Cajanus cajan L. Phykos, 33: 47–51.

Monu Arora, A. Kaushik, Nisha Rani and C.P. Kaushik (2010): Effect of cyanobacterial exopolysaccharides on salt stress alleviation and seed germination. J. Environ. Biol. 31(5): 701-704. References 294

Mooney, P.A. and Van Staden, J. (1986): Algae and cytokinins. J. Plant Physiol. 123: 1–21.

Mooney, P.A. and Van Staden, J. (1985): Effect of seaweed concentrate on the growth of wheat under condition of water stress. S. Afr. J.Sci. 81: 632-633.

Moore, S. and Stein, W.W. (1948): Amino acid free photometric ninhydrin method for use in the chromatography of amino acids. J. Biol. Chem. 176: 367- 388.

Morabito, D., Jolivet, Y., Prat, D. and Dizengrenal, P. (1996):Differences in the physiological responses of two clones of eucalyptus microtheca for their salt tolerance. Plant Sci. 114: 129-139.

Moran, J.F., James, E.K., Rubio, M.C., Sarath, G., Klucas, R.V. and Becana, M. (2003): Functional characterization and expression of a cytosolic iron-superoxide dismutase from Cowpea root nodules. Plant Physiol. 133: 773-782.

Morgan, j.m. (1984): osmoregulation and water stress in higher plants. Annual review of plant physiology, 33: 299-319.

Morsy, M.H. (2003): Growth ability of mango cultivars irrigated with saline water. Acta Hort. 609: 475-482. References 295

Mukherjee, S.P. and Choudhuri, M.A. (1983): Implications of water stress-induced changes in the levels of endogenous ascorbic acid and hydrogen peroxide in Vigna seedlings. Plant Physiol. 58: 166-170.

Murat, T., Rüveyde T., Bünyamin Y. and Vahdettin C. (2011): Effect of salinity stress on plant fresh weight and nutrient composition of some Canola (Brassica napus L.) cultivars. African Journal of Biotechnology, 10(10): 1827-1832.

Munns, R. (2002): Comparative physiology of salt and water stress. Plant Cell Environ. 25: 239-250.

Munns, R. (2005): Genes and salt tolerance: Bringing them together. New Phytol. 167: 645-663.

Muthuchlian, K., Murugan, C., Harigovindan, R., Nedunchezhian, N., Premkumar, A. and Kulandaivelu, G. (1996): Ameliorating effect of callus cultures of Vaccinium corymbosum L. cv. Blue crop. Ann. Bot. 69: 459-465.

Nabil, M. and Coudret , A. (1995): Effect of sodium chloride on growth, tissue elasticity and solute adjustment in two acacia nilotiga subspecies. J. Plant. Physiol. 93: 217-224. References 296

Naidu, B.P., Jones, G.P., Paleg, L.G. and Poljakoff-Mayber, A. (1987): Proline analogues in Melaleuca species: response of Melaleuca lanceolata and M. uncinata to water stress and salinity. Aust. J. Plant Physiol. 14: 669–677.

Neill, S., Desikan, R. and Hancock, J. (2002): Hydrogen peroxide signalling. Curr.Opin. Plant Biol. 5: 388-395.

Nelson, W.R., Van Staden, J., (1984): The effect of seaweed concentrate on the growth of nutrient-stressed, greenhouse cucumbers. Horticultural Science, 19: 81–82.

Németh, M. and Meszaros, M. (1987): Effect of water pilluted by various compounds on crop plant. I. The influence of salt and organic matter. Bot.-Kozlemen.75: 441-452.

Neocleous, D. and Vasilakakis, M. (2007): Effects of NaCl stress on red raspberry (Rubus idaeus L. ‘Autumn Bliss’). Sci. Hort. 112: 282-289.

Noctor, G. and Foyer, C.H. (1998): Ascorbate and glutathione: Keeping active oxygen under control. Annu. Rev. Plant Physiol. Plant Mol. Boil. 49: 249- 279.

Nordberg, N. and Arner, E.S.(2001): Reactive oxygen species, antioxidents, and the mammalian thioredoxin system. Free radicale Biol Med.31: 1287-1312. References 297

Norrie, J. and Keathley, J.P. (2006): Benefits of Ascophyllum nodosum marine-plant extract applications in ‘Thompson seedless’ grape production. Acta. Hortic. 727: 243–247.

Okuda, T., Matsuda, Y., Yamanaka, A. and Sagisaka, S. (1991): Abrupt increases in the level of hydrogen peroxide in leaves of winter wheat is caused by cold treatment. Plant Physiol. 97: 1265-1267.

Omarn, F.M. (2000): Salt stress tolerance of two crop plants at early seedling stage. M. SC. Thesis, Assiut Univ, Assiut, Egypt. 1-167.

O¨ rdo¨g, V., Stirk, W.A., van Staden, J., Novak, O. and Strnad, M. (2004): Endogenous cytokinins in the three genera of microalgae from the Chlorophyta. J. Phycol. 40: 88-95.

Oskar, J., Sanchez, A., Pan, A., Nicolas, G. and Labrador, E. (1989): Relation of cell wall peroxidase activities with growth in epicotyls of Cicer arietinum. Effects of calmodulin inhibitors. Physiol. Plant. 75: 275-279.

Pagter, M., Bragato, C., Malagoli, M. and Brix, H. (2009):

Osmotic and ionic effects of NaCl and Na2SO4 salinity on Phragmites australis. Aquatic Botany. 90: 43-51. References 298

Panda, S.K. and Choudhury, S. (2005): Chromium stress in plants. Braz. J. Plant Physiol. 17: 95-102.

Parida, A., Das, A.B. and Das, P. (2002): NaCl stress causes changes in photosynthetic pigments, proteins and other metabolic components in the leaves of a true mangrove, Bruguiera parviflora, in hydroponic cultures. J. Plant Biol. 45: 28–36.

Parida, A.K., Das, A.B. and Mohanty, P. (2004b): Investigations on the antioxidative defence responses to NaCl stress in a mangrove, Bruguiera parviflora: Differential regulations of isoforms of some antioxidative enzymes. Plant Growth Regul. 42: 213-226.

Parida, A.K. and Das, A.B. (2005): Salt tolerance and salinity effects on plants: a review. Ecotoxi. Environ. Safety. 60: 324-349.

Parra, M., Albaceta, A., Martinez-Andújar, C. and Pérez- Alfocea F. (2007): Increasing plant vigour and tomato fruit yield under salinity by inducing plant adaptation at the earliest seedling stage. J. Environ. Exp. Bot. 60: 77-85.

Perez-Alfocea, F.A., Santa-Cruz, G., Guerrier, and Bolarin, C. M. (1994): NaCl stress-induced organic solute changes on leaves and calli of Lycopersicon esculentum, L. Pennellii References 299

and their inter specific hybrid. J. Plant Physiol. 143: 106- 111.

Perica, S., Goreta, S. and Selak, G.V. (2008): Growth, biomass allocation and leaf ion concentration of seven glive (Olea europaea L.) cultivars under increased salinity. Sci. Hort. 117: 123-129.

Pervaiz, Z., Afzal, M., Xi, S., Xiaoe, Y. and Ancheng, L. (2002): Physiological parameeters of salt tolerance in wheat. Asian J. Plant Sci. 1: 478-481.

Pinheiro, H.A., Da Matta, F.M., Chaves, A.M., Fontes, E.B. and Loureiro, M.E. (2004): Drought tolerance in relation to protection against oxidative stress in clones of Coffea canephora subjected to long term drought. Plant Sci. 167: 1307-1314.

Pitann, B., Thorsten Kranz, T. and Mühling, K.H. (2009): The apoplastic pH and its significance in adaptation to salinity in maize (Zea mays L.): Comparison of fluorescence microscopy and pH-sensitive microelectro-des. Plant Sci. 176: 497-504.

Philip, M., and Neil, R. B. (2010): Oxidative Stress: Antagonistic Signaling for Acclimation or Cell Death Plant Physiology, 154: 521-525. References 300

Prochazkova, D., Sairam, R.K., Srivastava, G.C. and Singh, D.V. (2001): Oxidative stress and antioxidant activity as the basis of senescence in maize leaves. Plant Sci. 161: 765-771.

Qi, C., Chen, M., Song, J. and Wanga, B. (2009): Increase in aquaporin activity is involved in leaf succulence of the euhalophyte Suaeda salsa, under salinity. Plant Sci. 176: 200-205.

Qiu, Q.S., Guo, Y., Dietrich, M.A. Schumaker, K.S. and Zhu, J.K. (2002): Regulation of SOS1, a plasma membrane Na+/H+ exchanger in Arabidopsis thaliana, by SOS2 and SOS3. Proc. Natl. Acad. Sci. USA. 99: 8436-8441.

Qureshi, R.H. and Barrett-Lennard E.G. (1998): Three approaches for managing saline, sodic and waterlogged soils. In: A. Hand book, Aciar, Cannbera, Austeralia. 19–28.

Rahman, M.M. and Kaul, K. (1989): Differentiation of sodium chloride tolerant cell lines of tomato lycoperscon esculentum. Mill. Cv. Jet. Star. J. Plant Physiol. 133: 710- 712.

Rahnama, H. and Ebrahimzadeh, H. (2005): The effect of NaCl on antioxidant enzyme activities in potato seedlings. Biol. Plant. 49: 93- 97. References 301

Rajkumar, I. and Subramanian, S.K., (1999): Effect of fresh extracts and seaweed liquid fertilizers on some cereals and millets. Seaweed Research and Utilization, 21: 91-94.

Rama Rao, K. (1991): Effect of aqueous seaweed extract on Ziziphus mauritioana Lam. J.India. Botinical Society, 71: 19-21.

Ramanjulu, S., Sudhakar, C.(2000): Proline metabolism during dehydration in two mulberry genotypes with contrasting drought tolerance. J. Plant Physiol. 157: 81–85.

Ramoliya, P.J., Patel, H.M. and Pandey, A.N. (2004): Effect of salinization of soil on growth and macro- and micro-nutrient accum-ulation in seedlings of Salvadora persica (Salvadoraceae). Forest Ecol. Manag. 202: 181-193.

Rao, A.R., Dayananda, C., Sarada, R., Shamala, T.R. and Ravishankar, G.A. (2007): Effect of salinity on growth of green alga Botryococcus braunii and its constituents. Bioresource Technol. 98: 560-564.

Rejili, M., Vadel, A.M., Guetet, A. and Neffatti, M. (2007): Effect of NaCl on the growth and the ionic balance K+/Na+ of two populations of Lotus creticus (L.) (Papilionaceae). South Afr. J. Bot. 73: 623-631. References 302

Richard, J. and Job, D. (1974): Reaction mechanism of indole- 3-acetate degradation by peroxidase. A stopped flow and low temperature spectroscopic study. Eur. J. Biochem. 44: 359-374.

Ródriquez-Rosales, M.P., Kerkeb, L., Bueno, B. and Donaire, J.P. (1999): Changes induced by NaCl in lipid content and composition, lipoxygenase, plasma membrane H+-ATPase and antioxidant enzyme activities of tomato (Lycopersicon esculantum Mill) calli. Plant Sci. 143: 143-150.

Rout, N.P. and Shaw, B.P. (2001): Salt tolerance in aquatic macrophytes; possible involvement of the antioxidative enzymes. Plant Sci. 160(4): 15-23.

Roy, L.A., Davis, D.A., Saoud, P.I. and Henery, R.P. (2007): Effects of varying levels of aqueous potassium and magnesium on survival, growth, and respiration of the pacific white shrimp, Litopenaeus vannamei, reared in low salinity waters. Aquacult. 262: 461-469.

Ruigang, W., Shaoliang, C., Haiyuan, M., Liyuan, L., He, L., Haijiao, W., Zhiyong, H. and Shuang, Y. (2006): Genotypic differences in antioxidative stress and salt tolerance of three poplars under salt Stress. Front For. China. 1: 82-88. References 303

Saied, A.S., Keutgen, A.J. and Noga, G. (2005): The influence of NaCl salinity on growth, yield and fruit quality of strawberry cvs. Elsanta Korona. Sci. Hort. 103: 289-303.

Sairam, R.K., Srivastava, G.C., Agarwal, S. and Meena, R.C. (2005): Differences in antioxidant activity in response to salinity stress in pyridoxine. Plant and Soil. 122: 177-183.

Saline, L.M. (1987): Toxic oxygen species and protective sys\ems of the chloroplast. Physiol. Plant.72: 681-689.

Salter, J., Morris, K., Bailey, P.C.E. and Boon, P.I. (2007): Interactive effects of salinity and water depth on the growth of Melaleuca ericifolia Sm. (Swamp paperbark) seedlings. Aquetic Bot. 86: 213-222.

Sangeetha, V. and Thevanathan, R. (2010): Biofertilizer Potential of Traditional and Panchagavya Amended with Seaweed Extract. Journal of American Science, 6: 61-67.

Santos, R., Hérouart, D., Puppo, A. and Touati, D. (2000): Critical protective role of bacterial superoxide dismutase in Rhizobium- legume symbiosis. Mol. Microbiol. 38: 750- 759.

Sathya, B., Indu, R. and Seenivasanand, S. (2010): Influence of seaweed liquid fertilizer on the growth and biochemical References 304

composition of legume crop, Cajanus Cajan (L.) Mill sp. Geetha Journal of Phytology. 2 (5): 50-63.

Savoure, A., Thorin, D., Davey, M., Hua, X-J., Mauro, S., Van

Montagu, M. (1999): NaCl and CuSO4 treatments trigger distinct oxidative defence mechanisms in Nicotiana plumbagin-ifolia L. Plant Cell Environ. 22: 387-396.

Scandalios, J.G. (1993): Oxygen stress and superoxide dismutase. Plant Physiol. 101: 7-12.

Schlegel, H.G. (1956): The recovery of organic acids by Chlorella in the light. Planta. 47: 510-526.

Schwarzenbach, G. and Biedermann, W. (1948): Komplexone, X. Erdalkalikomplexe vono, 0,0-Dioayazofarbstoffen. Helv. Chim. Acta. 31: 678-687.

Seki, M., Umezawa, T., Urano, K. and Shinozaki, K. (2007): Regulatory metabolic network in drought stress responses, Curr. Opin. Plant Biol. 10: 296–302.

Seyed, M., Bahram, A., Mohammad, Z., Rasool, A. and Majid, K. (2011): Superoxide Dismutase (SOD) Activity in Nacl Stress in Salt-Sensitive and Salt-Tolerance Genotypes of Colza (Brassica napus L.). Middle-East Journal of Scientific Research, 7 (1): 7-11. References 305

Shaddad, M.A. and Zidan, M.A.(1989): Effect of NaCl salinity on the rate of germination , seedling growth, and some metabolic changes in Raphhanus sativus L. and Trigonella foenum-graceum L. Beitr.. Trop. Landwirtsch. Vet. Med. 27: 187-194.

Shaddad, M.A., Radi, A.F., Abdel-Rahman, A.M. and Azooz, M.M. (1990): Respones of seeds of Lupinus termis and Vicia faba to the interactive effect of salinity and ascorbic acid or pyridoxine. Plant and Soil. 122: 177-183.

Shaddad, M.A. (1990b): The effect of proline appdication on the physiology of Raphanus sativus plants 32 grown under salinity stress. Biol. Plant. 32: 104-112.

Shaddad, M.A., Ismail, A.M Azooz, M.M. and Abdel-Latef, A. A. (2005): Effect of salt stress on growth and some related metabolites of three wheat cultivars. Assiut Univ. J. of Bot. 34 (2): 477-491.

Shaddad, M. A., Abd El-Samad, H. M. and Ragaey, M. M. (2011): Morpho-Physiological Changes Induced by Salicylic Acid and Drought Treatments of Four Barley Genotypes (Hordeum vulgare L.). Basic science and technology, Assiut Univ.Pp.1-172. References 306

Shah, S.H.J., Gorham, B.P., Foster and Wyn Jones, R.G. (1987): Salt tolerance in the triticaceae the contribution of D-genome to carbon selectivity in hexaploid wheat. J. Exp. Bot. 38: 254-269.

Shalata, A., Mittova, V., Volokita, M., Guq, M. and Tal, M. (2002): Response of the cultivated tomato and its wild salt- tolerant relative Lycopersicon pennellii to salt-dependent oxidative stress: The root antioxidative system. Physiol. Plant. 112: 487-494.

Sharma, Y.K. and Davis, K.R. (1997): The effects of ozone on antioxidant responses in plants. Free Rad. Biol. and Med. 23(3): 480-488.

Sharma, N., Gupta, N.K., Gupta, S. and Hasegawa, H. (2005): Effect of NaCl salinity on photosynthetic rate, transpiration rate and oxidative stress tolerance in contrasting wheat genotypes. Photosynth. 43(4): 609-613.

Sharma, S.S. and Dietz, K.J.(2006): The significance of amino acids and amino acid-derived molecules in plant responses and adaptation to heavy metal stress. J. Exp. Bot. 57: 711- 726.

Shanab, S.M.M. and Galal, H.R.M. (2007): The interactive effect of salinity and urea on growth, some related References 307

metabolites and antioxidant enzymes of Chlorella sp. and Scenedesmus sp. J. Microbiol. 17: 53-64.

Sigaud, S., Becquet, V., Frendo, P., Puppo, A. and Herouart, D. (1999): Differential regulation of two divergent Sinorhizobium meliloti genes for HPII-like catalases during free-living growth and protective role of both catalases during symbiosis. J. Bacteriol, 181: 2634-2639.

Singh, A.K., Chakravarthy, D., Singh, T.P.K. and Singh, H.N. (1996): Evidence for a role for L-proline as a salinity protectant in the cyanobacterium Nostoc muscorum. Plant Cell and Environment, 19: 490–494.

Sivasankari, S., Venkatesalu, V., Anantharaj, M. and Chandrasekaran, M., (2006a): Effect of seaweed extracts on the growth and biochemical constituents of Vigna sinensis. Bioresource Technology, 97: 1745–1751.

Sivasangari, S., Nagaraj, S. and Vijayanand, N.(2010): Biofertilizing effeciancy of brown and green algae on growth,biochemical and yield parameters of cyamopsis tetragonolaba (L.) TAUB. Recent Research in Science and Technology, 2(5): 45-52.

Sivasangari, S., Chandrasekaran, M., Kannadasan, K. and Venkatesalu, V.(2006): Studies on the biochemical References 308

constituents of Vigna Radiata(linn) treated with seaweed liquid fertilizer seaweed research and utilisation association, 28(1): 151-158.

Sreenivasulu, N., Grimma, B., Wobusa, U. and Weschkea, W. (2000): Differential response of antioxidant compounds to salinity stress in salt-tolerance and salt- sensitive seedlings of foxtail millet (setaria italica). Physiol. Plant. 109: 435-442.

Srivastava, A.K., Bhargava, P. and Rai, L.C. (2005): Salinity and copper- induced oxidative damage and changes in antioxidative defense system of Anabaena doliolum. W.J. Microbiol. Biotechnol. 22: 1291-1298.

Srivastava, A.K., Bhargava, P., Thapar, R. and Rai, L.C. (2008): Salinity- induced physiological and proteomic changes in Anabaena doliolum. Environ. Exp. Bot. 64: 49- 57.

Stirk, W.A., Novak, M.S. and van Staden, J. (2003): Cytokinins in macroalgae.Plant Growth Regul. 41: 13– 24.

Subramanian, S.K., and Kannathasan, V. (1987): Studies on the effect of seaweed liquid fertilizers. Int. Symp. Phycol. University of Madras. Abst. Vol. 33. References 309

Sudhakar, C. Ramanjulu, S. Reddy P.S. and Veeranjaneyulu, K. (1997): Response of some Calvin cycle enzymes subjected to salinity shock in vitro, Indian Journal of Experimental Botany, 35: 665–667.

Sudhakar, C., Lakshmi, A. and Giridarakumar, S. (2001): Changes in the antioxidant enzyme efficacy in two high yielding genotypes of mulberry (Morus alba L.) under NaCl salinity. Plant Sci. 161: 613-619.

Sultana, N., Ikeda, T. and Itoh, R. (1999): Effect of NaCl salinity on photosynthesis and dry matter accumulation in developing rice grains, Env. Exp. Bot. 42: 211–220.

Sultana, N., Ikeda, T. and Kashem, A.M. (2002): Effect of seawater on photosynthesis and dry matter accumulation in developing rice grains. Photosynth. 40: 115-119.

Szabados L. and Savoure, A. (2009): Proline a multifunctional amino acid, Trends Plant Sci. 2: 89–97.

Takahashi, R., Nishio, T., Ichizen, N. and Takano, T. (2007): Cloning and functional analysis of the K+ transporter, PhaHAK2, from salt-sensitive and salt-tolerant reed plants. Biotechnol. Lett. 29: 501-506. References 310

Tammam, A.A. (2003): Response of Vicia faba plants to the interactive effect of sodium chloride salinity and salicylic acid treatment. Acta Agron. Hung. 51: 239-248.

Tay, S.A., Macleod, J.K., Palni, L.M. and Letham, D.S. (1985): Detection of cytokinins in a seaweed extract. Plant Physiol. Biochem. 29: 421–427.

Teixeira, J. and Pereira, S. (2007): High salinity and drought act on an organ-dependent manner on potato glutamine synthetase expression and accumulation. Environ. Exp. Bot. 60: 121-126.

Tejera, N.A., Soussi, M. and Luch, C. (2006): Physiological and nutritional indicators of tolerance to salinity in chickpea plants growing under symbiotic conditions. Environ. Exp. Bot. 58: 17-24.

Temple, W.D. and Bomke, A.A. (1988): Effects of kelp (Macrocystis integrifolia) on soil chemical properties and crop responses.Plant Soil. 105: 213–222.

Tester, M. and Davenport, R. (2003): Na+ tolerance and Na+ transport in higher plants. Ann. Bot. 91: 503-527.

Thirumal thangam, R., and Marial Victorial rani, S. (2006): Effect of seaweed liquid fertilizers on photosynthetic References 311

pigments of Sorghum bicolor (L.) Moench. Seaweed Res. Utiln. 28: 81-84.

Thirumaran, G., Arumugam, M., Arumugam, R. and Anantharaman, P. (2009): Effect of Seaweed Liquid Fertilizer on Growth and Pigment Concentration of Cyamopsis tetrogonolaba (L.) Taub. American-Eurasian J.Agronomy, 2: 50-56.

Tripathi, S.B., Gurumurthi, K., Panigrahi, A.K. and Shaw, B.P. (2007): Salinity induced changes in proline and betaine contents and synthesis in two aquatic macrophytes differing in salt tolerance.Biol. Plant. 51: 110-115.

Tsai, Y., Hong, C., Liu, L. and Kao, C. (2005): Expression of ascorbate peroxidase and glutathione reductase in roots of

rice seedlings in response to NaCl and H2O2. J. Plant Physiol. 162: 291-299.

Tozlu, I., Guy, C.L. and Moor, G.A. (1999): QTL analysis of Na+ and Cl- accumulation related traits in an intergeneric BC1 progeny of Citrus and Poncirus under saline and non- saline environments. Geno. 42: 692-705.

Tuna, A.L., Kayab, C., Dikilitas, M. and Higgs, D. (2008): The combined effects of gibberellic acid and salinity on some References 312

antioxidant enzyme activities, plant growth parameters and nutritional status in maize plants. Environ. Exp. Bot. 62: 1-9.

Turan, M. and Köse, C. (2004): Seaweed extracts improve copper uptake ofgrapevine. Acta Agriculturae Scandinavica. Section B, Soil and Plant Science, 54: 213–220.

Udeda, A., Yamamoto-Yamane, Y. and Takabe, T. (2007): Salt stress enhances proline utilization in the apical region of barley roots. Biochem. Biophys. Res. Comm. 355: 61-66.

Upadhyay, R.K. and Panda, S.K. (2005): Salt tolerance of two aquatic macrophytes, Pistia stratiotes and Salivinia molesta. Biol. Plant. 49: 157-159.

Vaidyanathan, H., Sivakumar, P., Chakrabarrty, R. and Thomas, G. (2003): Scavenging of reactive oxygen species in NaCl-stressed rice (Oryza Sativa L.) differential responses in salt- tolerant and sensitive varieties. Plant Sci. 165: 1411-1418.

Vargas, M.C., Encarnacion, S., Davalos, A., Reyes-Perez, A., Mora, Y., Garcia-de los Santos, A., Brom, S. and Mora, J. (2003): Only one catalase Kat G, is detectable in References 313

Rhizobium etli, and is encoded along with the regulator OxyR on a plasmid replicon. Microbiol. 149: 1165-1176.

Venkataraman Kumar, R., V.R. Mohan R. Murugeswari and Muthusamy (1993): Effect of Crude and Commercial Seaweed Extracts on seed germination and seedling growth in green gram and Black gram. Seaweed Research and Utilisation Association, 16 (1and2): 23-27.

Verkleij, F.N.( 1992): Seaweed extracts in agriculture and horticulture: a review. Biological Agriculture and Horticulture, 8: 309–324.

Verma, S. and Mishra, N. (2005): Putrescine alleviation of growth in salt stressed Brassica juncea by inducing antioxidative defence system. J. Plant Physiol. 162: 669-677.

Vernieri, P., Borghesi, E., Ferrante, A. and Magnani, G. (2005): Application of biostimulants in floating system for improving rocket quality. J. Food Agric. Environ 3: 86–88.

Vranova, E., Inze, D. and Brensegem, F.V. (2002): Signal transduction during oxidative stress. J. Exp. Bot. 53: 1227- 1236.

Voetberg, G.S. and Sharp, R.E.(1991): Growth of the maize primary root in low water potentials. III. Roles of increased References 314

proline depositions in osmotic adjustment. Plant Physiol. 96: 1125-1130.

Volkmar, K.M., Hu, Y. and Steppuhn, H. (1998): Physiological responses of plants to salinity: a review. Can. J. Plant Sci. 78: 19-27.

Wachira, F. and Ogada, J. (1995): In vitro regeneration of Camellia sinensis (L.) O. Kuntze by somatic embryogenesis. Plant Cell Rep. 14: 463-466.

Wajahatullah, K., Usha, P.R., Sowmyalakshmi, S., Mundaya, N. J., Prasanth, R., Mark, D. H., Alan, T.C., James, S.C., Jeff, N. and Balakrishan, P. (2009): Seaweed Extracts as Biostimulants of Plant Growth and development. J. Plant Growth Regul. 28: 386-399.

Wallen Kemp, J.O. (1955): Treasure from the sea.Organic Gard. F. 2 (3): 52-53.

Wang, Z., Pote, J. and Huang, B. (2003): Responses of cytokinins, antioxidant enzymes, and lipid peroxidation in shoots of creeping bentgrass to high root-zone temperatures. J. Am. Soc. Hortic. Sci. 128: 648–655.

Wang, Y. and Nil, N. (2000): Changes in chlorophyll, ribulose bisphosphate carboxylase-oxygenase, glycine betaine References 315

content, photosynthesis and transpiration in Amaranthus tricolor leaves during salt stress, J. Hortic. Sci. Biotechnol. 75: 623-627.

Watanabe, T. and Nisizawa, K. (1984): The utilization of wakame (Undaria pinnatifida) in Japan and manufacture of “haiboshi wakame” and some its biochemical and physical properties. Hydrobiologia, 116/117: 106-111.

Whapham, C.A., Blunden, G., Jenkins, T. and Hankins, S.D. (1993): Significance of J. Appl. Phycol. 5: 231–234

Winterbroun, C.C.,Vissers, M.C. and Kettle, A.J.(2000): Mycloperoxidase.Curr opin Hematol. 7: 53-58.

Xiong, L. and Zhu, J.K. (2002): Molecular and genetic aspects of plant response to osmotic stress. Plant Cell Env. 25: 131– 139.

Yang, Y., Xu, S., An, L. and Chen, N. (2007): NADPH oxidase- dependent hydrogen peroxide production, induced by salinity stress, may be involved in the regulation of total calcium in roots of wheat J. Plant Physiol. 164: 1429-1435.

Yu, G. and Rengle, Z. (1999a): Drought and salinity differentially influence activities of superoxide dismutase in narrow-leafed lupinus. Plant Sci. 142: 1-11. References 316

Zhang, B. and archbold, D.D. (1993): Physiology of flower formation. Ann. Rev. Plant Physiol. 27: 321-348.

Zhang, X. and Schmidt, R.E. (1997): The impact of growth regulators on the a-tocopherol status in water-stressed Poa pratensis L. Int Turfgrass Res. J. 8: 1364–1373.

Zhang, X., Irvin, E.H., and Schmidt, R.E. (2003): Plant growth regulators can enhance the recovery of Kentucky bluegrass sod from heat injury. Crop Sci. 43: 952–956.

Zhang, X. and Ervin, H. (2004): Seaweed extract and humic acid contain cytokinins. Crop. Sci. 44 (5): 1504- 1509.

Zhang, Q., Zhang, J., Shen, J., Silva, A., Dennis, D.A. and Barrow C.J. (2006): A simple 96-well microplate method for estimationof total polyphenol content in seaweeds. J. Appl. Phycol. 18: 445–450.

Zhang, X. and Ervin, E.H. (2008): Impact of seaweed extract- based cytokinins and zeatin riboside on creeping bentgrass heat tolerance. Crop Sci. 48: 364–370.

Zhu, J.K. (2001): Plant salt tolerance. Tre. Plant Sci. 6: 66-71.

Zhu, Z.S., Wei, G., Li, J., Qian, Q. and Yu, J. (2004): Silicon alleviates salt stress and increases antioxidant enzymes References 317

activity in leaves of salt-stressed cucumber (Cucumis sativus L.). Plant Sci. 167: 527-533.

Zodape, S.T., Mukherjee S., Reddy, M.P. and Chaudharya, D.R. (2009): Effect of Kappaphycus alvarezii (Doty) Doty ex silva.extract on grain quality, yield and some yield components of wheat (Triticum aestivum L.) International Journal of Plant Production, 3: 97-101.

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