Effect of salicylic and ascorbic acids on growth, quality, productivity in tomato and resistance improving against Leaf Miner Tuta absoluta in plastic green house

References 46. ABBAS S.(2011). Tomato leaf miner Tuta absoluta (Meyrick, 1917) (Lepidoptera: Gelechiidae) the old and new challenge. Department of Agricultural and Forest Sciences. Eco-compatibility Phytosanitary Management in Agroforest and Urban Environments. PhD thesis. 47. Abd-El Hamid EK. (2009): Physiological effects of some phytoregulators on growth, productivity and yield of wheat plant cultivated in new reclaimed soil. PhD. thesis, Girls College, Ain Shams Univ. Cairo, Egypt. 48. Ahmed, M. Akl, A.A. Gobara and A.E. Mansour.1997A. Yield and quality of Anna apple trees (Malus domestica L.) in response to foliar application of ascorbic acid and citrine fertilizers, Egypt, J. Hort., 25(2), 120-139. 49. Ahmad, R. Naveed, M. Aslam, M. Zahir, Z.A. Arshad, M. and Jilani, G. (2008)."Economizing the use of nitrogen fertilizer in wheat production through enriched compost".Renewable Agriculture and Food System.23: 1-7. 50. Ahmed, F. Baloch, D. M. Sadiq, S. A. Ahmed, S. S. Hanan, A. Taran, S. A. Ahmed, N. and Hassan, M. J. (2014). "Plant growth regulators induced drought tolerance in sunflower (Helianthus annuusl.) hybrids". The Journal of Animal & Plant Sciences, 24(3): 886-890. 51. Ali H.A. (2000). Response of flame seedless Grapevine to spraying with Ascorbic acid and Boron.Minia. J. of Agric.Res and Develop. 20(1): 159-174. 52. Al-Khafaji M A .(2014). Plant Growth Regulators, Application and Utilization in Horticulture. Bookstore for Printing publishing and translating. University of Baghdad. Iraq. 348. 53. Al- Mafriji , O.K. A. and L.M. Alshammari .(2017). Effect of shading and spraying with Salicylic acid on the properties of yield for two varieties of potato. Journal of Agricultural Environmental and Veterinary Sci., 4( l ): 28-43. 54. Al-Zaidi SZ.( 2009). Recommendations for the detection and monitoring of Tuta absoluta. Russell IPM (Integrated Pest Management). Accessed January 8, 2010. http://www.russellipm-agriculture.com/uploads/files/recommendation detectionmonitoring. Pdf. 55. Ansari, M.S. and N.Misra, (2007). Miraculous role of salicylic acid in plant and animal system. Am. J. Plant Physiol.,2: 51-58. 56. Arab. L and Steck S.(2000). Lycopene and cardiovascular diseases, Am.J.Clin. Nutr, 71: 1691-1695.57. Arisha, H. M. (2000). Effect of vitamin C on growth , yield and tuber quality of some potato cultivars under sandy soil conditions .Zagazig J. Agric. Res., 27(1) : 91-104 . 58. Arthur V.(2002). Use of gamma radiation to control three Lepidopteran pests in Brazil, page 189. In: Irradiation as a Phytosanitary Treatment of Food and Agricultural Commodities. IAEA, Division of Nuclear Techniques in Food and Agriculture. 59. ASSELBERGS,E.A.M. (1957). Studies on the formation of ascorbic acid in detached apple leaves . Plant Physiol. , 32 (4):Pp326-329 . 60. Auerswald, H., Peters, P., Bruckner,B., Krumbein, A and Kuchenbuch, R.(1999). Sensory analysis and instrumental measurement of short-term stored tomatoes (Lycopersicon esculentum Mill.). Postharvest Biol. Technol. 15, 323–334. 61. Baghizadeh, A. and Hajmohammadrezaei M.(2011). Effect of drought stress and its interaction with ascorbate and salicylic acid on okra (Hibiscus esculents l.) germination and seedling growth. Journal of Stress Physiology & Biochemistry, 7 (1):Pp 55-65. 62. Bajracharya A. S. R., Mainali r. P., Bhat B., Bista S., Shashank P. R, Meshram N. M.(2016). The first record of South American tomato leaf miner, Tuta absoluta (Meyrick 1917) (Lepidoptera: Gelechiidae) in Nepal. Journal of Entomology and Zoology Studies; 4(4): 1359-1363. 63. Bark Y.G., Lee D.G., Kim Y.H., Kang S.C.( 1996). Antibiotic properties of an entomopathogenic fungus, Beauveria bassiana, on Fusarium oxysporum and Botrytis cinerea. Korean J. Plant Pathol. 12, 245–250. 64. Baradisi, A. ( 2004 ). Influence of vitamin C and salicylic acid foliar application on Garlic plants under sandy soil conditions . Zagazig J. Agric. Res., 31 ( 4A ) : 1335-1347 . 65. Barth C., Moeder W., Klessing D.F.and ConklinP.L.(2004). The timing of senescence and response to pathogens is alterated in the ascorbate-deficient Arabidopsis mutant vitamin C-1. Plant Physiology. 134:1784-1792. 66. Beadle,L.C. (1989). Techniques in Bioproductivity and Photosynthesis. Pergamon Press. Oxford New York, Toronto. 125-129. 67. Berry Ottaway P.(2001). The roots of a healthy diet, Chemistry and Industry 22 January, p42 – 45. 68. Behera, B., S. Ghanty, F. Ahmad, S. Santra and S. Banerjee. (2012). UV-Visible Spectrophotometric Method Development and Validation of Assay of Paracetamol Tablet Formulation. Analytical & Bioanalytical Techniques. J Anal Bioanal Techniques. Volume 3 .Issue 6. 69. Benhamoue,N,M Gagne, S, Le Quere, D. and Dehbim L.(2000). Bacterial-mediated induced resistance in cucumber beneficial effect of the endophytic bacterium Serratia plymuthica on the protection against infection by Pythium ultimum.Phytopathology, 90(1).pp.45-56. 70. Bergau, N., Bennewitz. S., Syrowatka. F., Hause. G and A. Tissier. (2015). The development of type VI glandular trichomes in the cultivated tomato Solanum lycopersicum and a related wild species S. habrochaites. BMC Plant Biology 15: 289-304. 71. BIONDI A., CHAILLEUX A., LAMBION J., ZAPPALÀ L., DESNEUX N. (2013). Indigenous natural enemies attacking Tuta absoluta (Lepidoptera: Gelechiidae) in Southern France. Egypt J Biol Pest Control 23:117–121.72. Bloem, S., Spaltenstein, E., Garrett, L. (2011). New Pest Response Guidelines Tomato Leafminer (Tuta absoluta). USDA–APHIS–PPQ–EDP Emergency Management, Riverdale, Maryland. 73. Bogorni., Silva P.C.R.A., Carvalho G.S.( 2003). Leaf mesophill consumption by Tuta absoluta (Meyrick, 1917) (Lepidoptera: Gelechiidae) in three cultivars of Lycopersicon esculentum MILL., ciencia rural., santa marina., p9. 74. Bolwell GP, Bindschedler LV, Blee KA, Butt VS, Davies DR, et al. (2002). The apoplastic oxidative burst in response to biotic stress in plants: a three component system. J Exp Bot 53: 1367-1376. 75. BOUCIAS D.G., PENDLAND J.C., 1998- Principles of insect pathology. Kluwer Academic publishers, New York. 76. Bradley KL.( 2003). Tomatoes in the desert garden. Hort. News & Res. J., 1:1-2. 77. Cabello, T.; Gallego, J.R.; Vila, E.; Soler, A.; del Pino, M.; Carnero, A.Hernandez-Suarez, E.; Polasek, A. 2009. Biological control of the South American Tomato Pinworm, Tuta absoluta (Lep.: Gelechiidae), with releases of Trichogramma. achaeae (Hym.: Trichogrammatidae) in tomato greenhouses of Spain. IOBC/WPRS Bull. 49, 225-230. 78. Cakmak, T., Atici, O., Agar, G., and Suna, S.(2010). Natural aging-related biochemical changes in alfalfa (Medicago Sativa L.) seeds stored for 42 years. International Research Journal of Plant Science, 1(1): 001-006. 79. Camargo R. A., Barbosa G. O., Possignolo I. P., Peres L. E. P., Lam E., Lima J. E., Figueira A. V. O and Marques- Souza H. (2016). RNA interference as a gene-silencing tool to control Tuta absoluta in tomato (Solanum lycopersicum). PeerJ Preprints https://doi.org/10.7287/peerj. preprints.2406v1 | CC BY4.0 Open Access | rec: 1 Sep 2016. 80. Cataldo D, A; Haroon. M; Schrader L.E and V .L Youngs .(1975). Rapid colorimetric determination of nitrate in plant tissue by nitration of salicylic acid, Communication in soil science. Plant analysis,6: Pp 71-80. 81. Chameides, W. L. (1989). The chemistry of ozone deposition to plant leaves : Role of ascorbic acid . Environ . Sci. Technol. , 23 (5) :595-600 . 82. CHANDRA, A; ANAND, A and DUBEY, A.(2007) Effect of salicylic acid on morphological and biochemical attributes in cowpea. Journal of Environmental Biology, 28:193-196. 83. Chen, L.S. and L. Chen. ( 2004 ). Photosynthetic enzymes andcarbohydrate metabolism of apple leaves in response to nitrogen limitation . J. Hort. Sci. & Biotechnology, 79 (6) : 923-929. 84. Cheng , L. and L.H. Fuchigami. ( 2001 ). Co2 assimilation in relation to nitrogen in apple leaves . J. Hort.Sci. & Biotechnology , 75 (4) :383-387 85. Chen, Z. and Gallie, D.R. (2004). "The ascorbic acid redox state controls guard cell signaling and stomatal movement". Plant Cell.16; 1143-1162. 86. Chen, Z. and Gallie, D.R.(2008). Dehydro ascorbate reductase affects non-photo chemical quenching and photosynthetic performance. 87. Cheng, K.L. and R.H. Bray. (1951). Determination of Ca and Mg in soil and plant material. Soil Sci., 72: 449-458. 88. Cherif A., Mansour R., Grissa-Lebdi K.(2013). Biological aspects of tomato leafminer Tuta absoluta (Lepidoptera: Gelechiidae) in conditions of Northeastern Tunisia: possible implications for pest management. Environmental and Experimental Biology 11: 179–18489. Chittoor, J.M., J.E. Leach and F.F. White. (1999). Induction of peroxidase during defense against pathogens. In: Pathogenesis: Related proteins in plants. S.K. Datta, S. Muthukrishnan (eds.). CRC Press, Boca Raton, FL. 291 pp. 90. Citterio, S. Sgorbati, S. Scippa, S. and Sparvoli, E. (1994). "Ascorbic acid effect on the onset of cell proliferation in pea root".Physiol Plant. 92: 601- 607. 91. Colomo, M.V. and D.C. Berta. (1995). Fluctuación de la pobación de Scrobipula absoluta (Meyrick) (Lepidoptera: Gelechiidae) en plantaciones de tomate en el Departamento de Lules, Tucumán. Acta Zoológica Lilloana, 43: 165-177. 92. Cooper, W.C., Jia L. and F.L. Goggin. (2004). .Acquired and R-gene-mediated resistance against the potato aphid in tomato. Journal of Chemical Ecology. 30 (12): 2527-2542. 93. Coqueiro, D.S.O.,de Souza, A.A.,Takita, M.A., Rodrigues, C.M., Kishi, L.T and Machado, M.A.(2015). Transcriptional profile of sweet orange in response to chitosan and salicylic acid. BMC genomics, 16(1), P.288. 94. Darwish,Adnan AE and Attia Mohammed MR. (2016):Effect of potassium silicat, salicylic acid and L-Ascorbic on population density of Tomato leaf Miner,Tuta absoluta (Meyrick) on three varieties on Tomato plants,Lycopersicum esculentum Mill. Univ,Egypt Vol.15(3):22-38. 95. Davies PJ .(2004). Plant hormones: Their nature, occurrence and functions .In: Davies PJ (ed) Plant hormones: Biosynthesis, Signal Transduction, Action, Kluwer Academic Publishers, London PP 1-15. 96. De Boer, J.G., Posthumus, M.A. and M. Dicke. (2004). Identification of volatiles that are used in discrimimation btween plants infested with prey or nonprey herbivores by a predatory mite.J Chem. Ecol., 30:2215-30. 97. Desneux, N.; Wajnberg, E.; Wyckhuys, K.A.G; Burgio, G. Arpaia, S. Narva´ez-Va´squez, C.A.; Gonza´lez-Cabrera, J.; Ruescas, D.C.; Tabone, E.; Frandon, J. Pizzol ,J. Poncet, C. Cabello, T. and Urbaneja, A. (2010). Biological invasion of European tomato crops by Tuta absoluta: ecology, history of invasion and prospects for biological control. J Pest Sci 83:197–215. 98. Ding, P and Ding, Y.(2020). Stories of Salicylic acid . Aplant Devense hormone, Trends in plant Science. V(25). I(6).Pp:549-565. 99. Dito, D.F.(2016). The potential management of citrus Leaf miner phyllocnistis citrella (Stainton) (Lepidoptera: Gracillariidae), by use of soluble silicon fertilizers. University of California, Davvis. 100. Dos Santos, M. C.,Junqueira, M.R., De Sa, V.M., Zanuncio, J.C and Serrao, J.E.(2015). Effect of silicon on the morphology of the midgut and mandible of tomato Leaf Miner Tuta absoluta (Lepidoptera Gelechiidae) larvae. Invertebrate Survival Journal, 12(1): 158-165. 101. DUNCAN B, D.(1955). Multiple range and multiple F-test Biometricalf. Vol(11):1- 42. 102. Durrant, W.E. and X.Dong.(2004). Systemic acquiredresistance. Annu Rev Phytopthol. 42: 185-209. 103. Ebrahim, Saboki. K.Usha and S. Bhupinder. (2011). Pathogenesis Related (PR) Proteins in Plant Defense Mechanism. Science against microbial pathogens: communicating current research and technological advances.pp12.104. Ejaz, B. Sajid, Z. A. and Aftab, F. (2012)."Effect of exogenous application of ascorbic acid on antioxidant enzyme activities, proline contents, and growth parameters of Saccharum spp. hybrid cv. HSF-240 under salt stress".Turk. J. Biol. 36: 630-640. 105. El-Banna.E.N., S.A. Ashour and H.Z. Abd-El-Salam. (2006). Effect of foliar application with organic compounds on growth, yield and tubers quality of potato (Solanum tuberosum L.), J. Agric.Sci. Mansoura Univ., 31(2), 1165-1173. 106. El-Ghamriny, E. A. ; H. M. Arisha ; and K. A. Nour .( 1999 ). Studies on tomato flowering , fruit set , yield and quality in summer .1- Spraying with thiamine , ascorbic acid and yeast . Zagazig J. Agric. Res., 26 ( 5 ) : 1345-1364 . 107. Elkhatib.A.H, Saide.M. Gabr, Alaa.H. Roshdy and Mostafa. M. Abd Al-Haleem. (2017). The Impacts of Silicon and Salicylic Acid Amendments on Yield and Fruit Quality of Salinity Stressed Tomato Plants.Department of Horticulture, Faculty of Agriculture, Damanhour University.933-938. 108. El-Khawas, S,A.(2012). Priming Pisum sativum with salicylic acid against the leafminer Liriomyza trifolii. Agric. Res,34, PP. 4731-4737. 109. El-Kobisy D.S., K.A. Kady, R.A. Medani and R.A. Agamy.(2005). Response of pea plant pisum sativum L. to treatment with ascorbic acid, Egypt, J. Appl. Sci., 20, 36-50. 110. El-Sayed, H. A. ( 1991 ) . Growth and yield of potato as affected by CCC, GA and vitamin C. J. Agric. Sci. , Mansoura Univ., 16 ( 3 ) : 648-652 . 111. El-Tohamy W.A., H.M. El-Abagy and N.H.M. El-Greadly. (2008). Studies on the effect of putrescine, yeast and vitamin c on growth, yield and physiological responses of Eggplant (Solanum melongena L.) under sandy soil conditions, Australian J. of Basic and Applied Sci., 2(2) :296-300. 112. Eraslan F., Inal A., Gunes A., Alpaslan M. (2007). Impact of exogenous salicylic acid on the growth, antioxidant activity and physiology of carrot plants subjected to combined salinity and boron toxicity. Sci. Hortic., 113: 120-128. DOI: 10.1016/j.scienta:03.012 113. Estay, P. (2000). Polilla del tomate Tuta absoluta (Meyrick). Instituto de Investigationes Agropecuarias, Centro control de la polilla del tomate Tuta absoluta Povolny.( Lepidoptera: Gelechiidae). Phytoma 217: 33-34. 114. Faried.H.N; Ayyub,C,M; Amjad.M; Ahmad,R; Butt,M; Wattoo,F,M; Bashir,M; S Haheen , M, R and Waqas,M. A.( 2016). Salicylic Acid Confers Salt Tolerance In Potato Plants By Improving Water Relations, Gaseous Exchange, Antioxidant Activities And Osmoregulation ,Journal Of The Science of Food And Agriculture,vol:97(6), 1868-1875. 115. Farjam, S. Kazemi-Arbat, H. Siosemardeh, A. Yarnia, M. and Rokhzadi, A. (2015). "Effects of salicylic and ascorbic acid applications on growth, yield, water use efficiency and some physiological traits of chickpea (Cicera rietinum L.) under reduced irrigation". Legume Research, 38 (1): 66-71. 116. FERA. ( 2009). South American tomato moth Tuta absoluta. Food and Environment Research Agency, Department for Environment Food and Rural Affairs. http://www.fera.defra.gov.uk/plants/ plant Health /pests Diseases /documents /ppnTuta Absoluta.pdf. 117. Ferracini C., Ingegno B.L., Mosti M., Navone P., Tavella L., Alma A.(2012). Promising native candidates for biological control of Tuta absoluta in Italy. IOBC/WPRS Bull 80:51–55.118. Ferrara f. A. A., Vilela E. F., Jham G. N., Eiras A. E., Picanco M. C., Attygale A. B and Meinwald J.( 2001). Evaluation of the synthetic major component of the sex pheromone of Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae). Journal of Chemical Ecology 27(5):907-917. 119. Foolad M R. (2007). Genome mapping and molecular breeding of tomato. International Journal of Plant Genomics, vol 52.Foti MC. Antioxidant properties of phenols. J Pharm Pharmacol . 59:1673-1685. 120. Foyer, C.H. and Noctor, G. (2005). Redox homeostasis and antioxidant signaling. ametabolic interface between stress perception and physiological responses. Plant Cell 17,1866-1875.doi: 10.1105/tpc.105.033589 121. Foyer, C. H.; Halliwell B.(1976). The presence of gluthatione and glutathione reductase in chloroplasts: a proposed role in ascorbic acid metabolism. Planta, 133: 21–25. 122. França, F. H. (1993). Por quanto tempo conseguiremos conviver com a traça do tomateiro. Horticultura Brasileira, 11(2): 176-178. 123. Fry SC. (1986). Cross-linking of matrix polymers in the growing cells of angiospems. Ann Rev Plant Physiol 37: 165-186. 124. Gad El-Hak,S,H; Ahmed,A,M and Moustafa,Y,M. (2012). Effect of Foliar Application with Two Antioxidants and Humic Acid on Growth, Yield and Yield Components of Peas (Pisum sativum .L.). Journal of Horticultural Science & Ornamental Plants, Vol: 4 (3), , 318-328. 125. Garg, O. P. and Kapoor, V. (1972)."Retardation of leaf senescence by ascorbic acid". J. Exp. Bot. 23: 699-703. 126. Ghasemzadeh, A. and Jaafar, H, Z.(2012). Effect of salicylic acid application on biochemical changes in ginger (Zingiber officinale Roscoe). Journal of Medicinal Plants Research, 6(5), PP.790-795 127. Ghoneim, K. (2014). Parasitic insects and mites as potential bio control agents for a devastative pest of tomato , Tuta absoluta Meyrick (Lepidoptera : Gelechiidae ) in the world : a review, International Journalof Advanced Research 2(8), 81–115. 128. Giustolin T.A., Vendramim J.D., Alves S.B., Vieira S.A.(2001). Susceptibility of Tuta absoluta (Meyrick) (Lep, Gelechiidae) reared on two species of Lycopersicon to Bacillus thuringiensis var. kurstaki. J. Appl. Entomol., 125:551–556. 129. Gomes, L. Blanc, L. and Antonio, S. C. (1993). "Evidence of the beneficent action of the acetyl salicylic acid on wheat genotypes yield under restricted irrigation". In: Proc. Scientific Meeting on Forestry, Livestock and Agriculture. Mexico: 112. 130. Griffin, C.T., N.E. Boemare and E.E. Lewis. (2005). Biology and behaviour. Pages 47-64. In: Nematodes as Biocontrol Agents. P.S. Grewal, R.-U. Ehlers and D.I. Shapiro-Ilan (eds.). CABI Publishing, Wallingford, UK. 528 pp. https://doi.org/10.1007/978-90-481-3333-8_13 131. Gupta, D.K.; G.M. Palma; and F.G. Corpas .(2015). Reactive oxygen species and oxidative damage in plants under stress. Springer International Publishing Switzerland. Pp370. 132. Hammerschmidt, R.; E.M. Nuckles. and J. Kuc. (1982). Association of enhanced peroxidase activity with induced systemic resistance of cucumber to Colletotrichum lagenarium. Physiol. Plant Pathol., 20: 73-82.133. Hammerschmidt. R., J.P. M´etraux, and L.C. van Loon. (2001). Inducing resistance: a summary of papers presented at the First International Symposium on Induced Resistance to Plant Diseases, Corfu. European Journal of Plant Pathology 107: 1–6. 134. Hamsas Soumaya . (2013). Effet combiné de la salinité et de l‟acide salisylique sur les comportement des graines et des plantes juvéniles du gombo (Abelmoschus exculentus L) :9-10. 135. Hasanuzzaman, M., Nahar, K., and Fujita M. (2013). (eds.), Ecophysiology and Responses of Plants under Salt Stress, Springer Science+Business Media, LLC 136. Hassanein RA, Bassony FM, Barakat DM, Khalil RR. (2009). Physiological effects of nicotinamide and ascorbic acid on Zea mays plant grown under salinity stress. 1- Changes in growth, some relevant metabolic activities and oxidative defense systems. Res J AgricBiolSci 5: 72–81. 137. Hayat, S.; and A. Ahmed. (2007). Salicylic acid : A plant hormone, Springer. Pp1-14. 138. Hayat, Q.; Hayat, S.; Irfan, M.; Ahmad, A. (2010). Effect of exogenous salicylic acid under changing environment: A review. Environmental and Experimental Botany, 68, 14-25. 139. Hayat, S. Fariduddin, Q. Ali, B. and Ahmad, A. (2005)."Effect of salicylic acid on growth and enzyme activities of wheat seedlings".ActaAgron. Hung. 53:433–437. 140. Hegazi AM and EL-Shrayi AM .(2007). Impact of salicylic acid and paclobutrazol exogenous application on the growth, yield and nodule formation of common bean. Aust. J. Basic Appl. Sci. 1: 834-840. 141. Hobson. G and Grierson D.( 1993). Tomato (Biochemistry of Fruit Ripening: Chapman &Hall), p 405 - 442. 142. Hondo D, S. Hase, Y. Kanayama, N. Yoshikawa, S. Takenaka and H. Takahashi. (2007). The LeATL6 -associated ubiquitin/proteasome system may contribute to fungal elicitor-activated defense response via the jasmonic acid-dependent signaling pathway in tomato. Mol Plant-Microbe Interact 20:72–81. 143. Huang R.-H., Liu J.-H., Lu Y.-M., Xia R.-X.( 2008). Effect of salicylic acid on the antioxidant system in the pulp of „Cara cara‟ navel orange (Citrus sinensis L. Osbeck) at different storage temperatures. - Postharvest Biology and Technology, 47: 168-175. 144. Hunt, J.W., dean, A,P., Webster, R.E., Johnson, G.N and Ennos, A.R.(2008). A novel mechanism by which silica defendes grasses againset herbivory. Annals of Botany, (102)4:653-656. 145. Hussein. N.M., Hussein. M.L., Gadel Hak, S.H., Hammad. M.A and H .S Shaalan. (2014). Efficacy of Exogenous Elicitors against Tuta Absoluta on Tomato Minia Univ., Minia, Egypt. Nature and Science12(5):68-77. 146. Ibrahim ,E ,A. (2006). Effect of foliar spray of salicylic acid and some micronatriet on the yield,quality and chemical composition of Lettuce, Horticulture Research Institute. 147. Inbar .M; Doostdar, H; Gerling. D and Mayer R.T. (2001). Induction of systemic acquired resistance in cotton by BTH has anegligible effect on phytophagous insects. Entomologia Experimentalis et Applicata. 99.,Pp:65-70. 148. Irac. (2009). Tuta absoluta on the move. IRAC (Insecticide Resistance Action Committee) newsletter, eConnection (20). Accessed January 4, 2010. http://www.irac-online.org/documents/eConnection_issue20a.pdf.149. Islam. M.A. A.M. Farrooque, A Siddiqua and Siddique A. (1996). Effect of planting patterns and different nitrogen levels on yield and quality of tomato, Bangladesh. J. Agril. Sci., 24(1): 4-5. 150. Jackman, R. L; Marangoni. A. G and B,. Stanley. B. (1990) .Measurement of Tomato Fruit Firmness,Hort.Sci,25:781-783 151. Jafari, S.R., Arvin, S.M.J. and Kalantari, K.M. (2015). Response of cucumber (Cucumis sativus L.) seedling to exogenous silicon and salicylic acid under osmotic stress. Acta Biologica Szegediensis, 59(1), PP.25-33. 152. Javaheri, M; Mashayekhi, K; Dabkhah, A; Tavallaee, Z. F. (2012). Effects of salicylic acid on yield and quality characters of tomato fruit (Lycopersicum esculentum Mill.). IJACS Journal, 4-16, 1184-1187. 153. Javaheri, M.; Dadar,A and Mahdi Babaeian (.2014). Effect of Salicylic Acid Spray in Seedling Stage on Yield and Yield Components of Tomato. Journal of Applied Science and Agriculture, 9(3) March 2014, Pages: 924-928 154. Javanmardi, J and Akbari, N. (2016). Salicylic acid at different plant growth stages affects secondary metabolites and phisico-chemical parameters of greenhouse tomato.Advances in Horticultural Science,30(3), pp151-157. 155. Jaykumar, P; Velu, G; Rajendran, C; Amutha, R; Savery, M. A; Chitambaram, S. (2008). Varied Response Of Blackgram (Vigna Mungo) To Certain Foliar Applied Chemicals And Plant Growth Regulators, Legume Res, Vol: 31. 110-113. 156. Jeong H., Jin W., Kwang D., Kee J.( 2008 ). Effects of antibrowning agents on polyphenoloxidase activity and total phenolics as related to browning of fresh-cut „Fuji‟apple. - ASEAN Food Journal, 15: 79-87. 157. Jones, J.B., Jr., B. Wolf, and H. Mills. (1991). Plant analysis handbook, Micro-Macro Publishing, Inc., Athens, GA, USA. 158. Judit Arno and Rosa Gabarra, IRTA, Cabrils, Spain (2010). Controlling Tuta absoluta, a new invasive pest in Europe. 159. Kacjan Marsic, N., Gasperlin, L., Abram, V., Budic, M. and Vidridh, R. (2011). Quality parameters and total phenolic content in tomato fruits regarding cultivvae and microclimatic conditions. Turkish Journal of Agriculure. 35: 185-194. 160. Kalarane, M, R; Thangaraj, M; Sivakumar, R ;Malika,V. (2002). Effect Of Salicylic Acid On Tomato (Lycopersicum esculentum Mill.) Productivity,CROP RES.,VOL:23,486-492. 161. Kalloo, G. (1991). Genetic Improvement of Tomato, Springer verlag, Berlin Heidelberg, Germany. p. 358. 162. Kawano T, and Muto S. (2000). Mechanism of peroxidase actions for salicylic acid induced generation of active oxygen species and an increase in cytosolic calcium in tobacco suspension culture. J Exp Bot 51: 685-693. 163. Kawazu, K., Mochizuki. A., Sato. Y., Sugeno. W., Murata. M., Seo, S and I .Mitsuhara. (2012). Different expression profiles of jasmonic acid and salicylic acid inducible genes in the tomato plant against herbivores with various feeding modes. Arthropod-Plant Interactions 6: 221-230. 164. Khafagy M.A., A.A. Arafa and M.F. El-Banna .(2009). Glycinebetaine and ascorbic acid alleviate the harmful effects of Na Cl salinity in sweet pepper, Australian J. Crop Sci., 3(5), 257-267..165. Khan, W;Prithviraj,B and Smith,D,L. (2003). Photosynthetic Responses Of Corn And Soybean To Foliar Application Of Salicylates. J. Plant Physiol,Vol: 160,485-492. 166. Khalil ,H.( 2014 ). Effects of pre-and postharvest salicylic acid application on quality and shelf life of ‘Flame seedless’ grapes. - European J. Hortic. Sci., 79: 8-15. 167. Khan N. A., R. Nazar, N. Iqbal, and N.A. Anjum. (2012). Phytohormones and Abiotic Stress Tolerance in Plants. Springer, Berlin, Heidelberg. 168. Khudairi A K., (1972) . The ripening of tomatoes, Am Scientist 60: 696 - 707 169. Krantev, A.,Yordanova, R. and Popova, L.(2006). Salicylic acid decreases Cd toxicity in maize plants. Gen Appl plant physiol, 1, PP.45-52. 170. KopperT. (2009). Tuta absoluta, a dangerous leaf mining moth in tomato crops. Koppert Biological Systems. Accessed December 12, 1969. http:// www.koppert.com/news-biological-systems/biological-control/detail/tuta-absoluta-a-dangerous-leaf-mining-moth-in-tomato-crops/ 171. Krantev. A., Yordanova, R and Popova, L.(2006). Salicylic acid decreases Cd toxicity in Maiz plant. Gen Apple plant physiol, 1:pp45-52. 172. Kristensen BK, Bloch H, and Rasmussen SK. (1999). Barley coleoptile eroxidases. Purification, molecular cloning and induction by pathogens. Plant physiol 20:501-512. 173. Kuc, J.(1982). Induced immunity to plant disease. Bioscience 32, 854–860. 174. Kumar P, Dube S D, Chauhan V S.( 1999). Effect of salicylic acid on growth, development and some biochemical aspects of soybean (Glycine max L. Merrill). Int. J. Plant Physiol. 4: 327-330. 175. Lancioni, P. (2008). Studies on biotic and abiotic elicitors inducing defense responses in tomato. Ph.D. Thesis, Phytopathology Dept., Fac. Agric., University of Bologna, Italy 125pp. 176. Larque Alfonso-Saavedra, A.; Martin-Mex, R.(2007). Effect of salicylic acid on the bio productivity of plants.NO130 Mexico CP 97200. 177. Lattanzio, V.(2013). Phenolic compounds: introduction.Natural Products: Phytochemistry, Botany and Metabolism of Alkaloids, Phenolics and Terpenes, PP.1543-1580. 178. Lewis, L.N. and A.L. Kenworthy. (1962). Nutritional balance as belated of leaf composition and five blight susceptibility in the Bartlett pear . J. Amer. Soc. Hort. Sci., 81 : 108-115 . 179. Lima, IP., Resende, JTV., Oliveira, JRF., Faria, MV., Resende, MCV and R.B. Lima Filho. (2015). Indirect selection of industrial tomato genotypes rich in zingiberene and resistant to Tuta absoluta Meyrick. Genetics and Molecular Research 14: 15081-15089 180. Mady,M,A.(2009) .Effct of Foliar Application with Salicylic and Vitamin E on Growth and Productivity of Tomato (Lycopersicon esculentum, Mill.) plant. J. Agric. Sci. Mansoura Univ, Vol:34 (6), 6735 – 6746. 181. Maffei M.E., Mithofer A. and Boland W.(2007). Insects feeding on plants: rapid signals And responses preceding the induction of phytochemical release. Phytochemistry. 68: 2946-59. 182. Maggio A, Barbieri G, Raimondi G, Pascale SD .(2010). Contrasting effects of GA3 treatments on tomato plants exposed to increasing salinity. J Plant Growth Regul 29: 63–72.183. Majeed B.H. (2019). Effect of ascorbic acid and nicotine amid spraying and their interaction in Tomato growth and productivivty. Biochem. Cell. Arch. Vol. 19, No. 2, pp. 2873-2876, 184. Majid,R. G. Mohammad; and A. Saeed. (2010). Effect of plastic mulch and tillage method on yiled and yiled components of tomato (Lycopersicon esculentum). ARPN Journal of Agricultural and Biological Sci.5(4): 5-11. 185. Mahdi J;Kambiz, M; Alireza, D;Fateme, Z.(2012). Effect of salicylic acid on yield and quality characters of tomato fruit (Lycopersicum esculentum Mill).International Journal of Agriculture and Crop Sciences.IJACS,Vol:4-16, 1184-1187. 186. Maiti, B. R. and Sengupta, S. (1979). "Effect of vitamin C on the mitotic activity and follicular growth of the thyroid gland of juvenile pigeon". Arch. Histol. Jpn. 42: 423-426. 187. Mallia D.( 2009). plant- Guidelines for the control and eradiaction of Tuta absoluta. Ministry for Resources and Rural Affairs, Plant Health Department, Malta. http://www.agric.gov.mt health-deptprofile 188. Mandour ,M. (2011). Growth And Productivity Of Some Sweet Potato Cultivars As Affected By Some Vitamins، Salicylic Acid And Plant Density Under Sandy Soil Conditions. The requirements for the degree ofdoctorof philosophy in Agricultural SciencesDepartment of Horticulture Faculty of Agriculture Zagazig University.,4-67. 189. Martin-Mex, R.; Villanueva-Couob, E.; Herrera-Campos, T.; Larque Saavedra,A.(2005). Positive effect of salicylates on the flowering of African violet. Sci. Hort. 103: 499-502. 190. Marschner, H. (1986). Mineral nutrition in higher plants . Acad. Press.Inc., London, LTD . 191. Marx, A.T; Zinina, T.F and Golobof,V.N.(1989).Technical control of Fruit Quality.B.O. Agropmomizdat, Mosco, 421.(325-357)(359-366). 192. Masahumi, O. Masayuki and M. Genjiro.( 2008). Ascorbic acid promotes graft- take in sweet pepper plant, Ph. D Thesis, Agric Bot. Dept., Fac. Agric., Cairo Univ., Plants. Scientia Hort., 116, 343-347. 193. Mason, J. L. (1964). Yield and quality of apples grown under four nitrogen levels in uncultivated grass sod. Amer. Soc. Hort. Sci., 85: 42-47 . 194. Massey, F. P., Ennos. A. R. and S.E. Hartley.(2006). Silica in grasses as a defence against insect herbivores: contrasting effects on folivores and a phoem feeder. Journal of Animal Ecology,75:595-603. 195. Mellidou, I; Koukounaras A; Kostas S; Patelou E and Kanellis, A. K. (2021). Regulation of Vitamin C Accumulation for Improved Tomato Fruit Quality and Alleviation of Abiotic Stress .Genes, 12, 694. https://doi.org/10.3390/genes12050694 196. Metraux, J.P. (2001). Systemic acquired resistance and salicylic acid. Curvet state and knowledge. Eur. J. Pl. Pathol., 106, 13-18. 197. Metraux, J.P.; Ahl-Goy, P.; Staub, T.; Speich, J.; Steinemann, A.; Ryals, J., Ward, E.(1991). Induced resistance in cucumber in response to 2,6-dichloroisonicotinic acid and pathogens. In Advances in Molecular Genetics of Plant–Microbe Interactions, Vol. 1, H. Hennecke and D.P.S. Verma, eds (Dordrecht, The Netherlands: Kluwer Academic Publishers) , pp. 432–439. 198. Michalak A. (2006). Phenolic Compounds and Their Antioxidant Activity in Plants Growing under Heavy Metal Stress. Pol J Environ Stud. 15:523-530.199. Midan, A. ( 1986 ) . Effect of IAA, NAA, Vitamin C application on tomato growth , chemical constituents and yield . Zagazig J. Agric.Res., 13 ( 2 ) : 76-100 . 200. Miranda MMM, Picanc¸o MC, Zanuncio JC, Bacci L, da Silva EM..2005 . Impact of integrated pest management on the population of leaf miners, fruit borers, and natural enemies in tomato. Cienc Rural 35:204–208. 201. Montalbini, P.; Buonauriom R and Umesh Kumar, N.N.1995. Peroxidase activity and isoperoxidase pattern in tobacco leaves infected with tobacco necrosis virus and other viruses inducing necrotic and non- necrotic alterations. Journal of Phytopathology, 143: 295-301. 202. Morris, K., S.A. Makerness, T. Page, C.F. John,A.M. Murphy, J.P. Car and V.B. Wollaston. (2000). Salicylic acid had a role in regulating gene expressions during leaf senescence. PlantJ., 23: 677-685. 203. Muthulakshmi S and K Lingakumar. (2017). Role of salicylic acid (SA) in plants – A review ,International Journal of Applied Research. 204. Naika S., Lidt J., Goffau M., Hilmi M and Dam B. (2005). La culture de la tomate production, transformation et commercialisation, Digigrafi, Wageningen, Pays-Bas, p 06 - 09. 205. Nayana B. P., Kalleshwaraswamy C. M. (2015). Biology and external morphology of invasive tomato leaf miner, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae). Pest Management in Horticultural Ecosystems, 21, (2): 169-174. 206. Niedmann L.L., Meza-Basso L.(2006). Evaluación de cepas nativas de Bacillus thuringiensis como una alternativa de manejo integrado de la polilla del tomate (Tuta absoluta Meyrick; Lepidoptera: Gelechiidae) en Chile. Agric Técnica 66:235–246. 207. Novozamsky, I., R. van Eck, Ch. van Schouwenburg and I. Walinga.( 1974). Total nitrogen determination in plant material by means of the indophenols- blue method. Neth. J. Agric Sci. 22: 3-5. 208. Oertli, J. J. ( 1987 ) . Exogenous application of vitamins as regulators for growth and development of plant . Preview . Z. Planzenr Nahr. Bodenk 150 : 375-391 . 209. Ojalvo, I., Roem, J. S., Navon, G. and Goldberg, I.( 1987). 31PNMR study of elicitor treated Phaseolus vulgaris cell suspension cultures. Plant physiology, 85(3), PP.716-719. 210. Ondrašek G., Romić D., Romić M., Duralija B mustač I. ( 2007). Strawberry growth and fruit yield in a saline environment. - Agriculturae Conspectus Scientificus, 71: 155-158. 211. Oostendorp, M., Kunz, W., Dietrich, B. and Staub, T. (2001). Induced disease resistance in plants by chemicals. Eur J Plant Pathol 107: 19-28. 212. Orth A.B., A. Sfarra, E.J. Pell and M. Tien.(1993): Assessing the involvement of free radicals in fungicide toxicity using ~ß Tocopherol analogs, Pesticide and Biochemistry Physiology, 47, 134-141. 213. Oztemiz ,S. (2014). Tuta Absoluta Povolny (Lepidoptera: Gelechiidae), the Exotic Pest in Turkey. Rom. J. Biol. – Zool. 59(1): 47–58. 214. Palaniswamy, U.R. ; R.J. McAvoy ; B.B. Bible and J.D. Stuart. ( 2003 ) . Ontogenic variations of ascorbic acid and phenethyl isothiocyanate concentrations in watercress ( Nasturtium officinale R.Br. ) leaves . J. Agric. Food Chem. , 51( 18 ) : 5504-5509 . 215. Palikiva.F. (1988). Short ways of analysis fruit and vegetable. Mosco(Kolos)(in Russian).216. Passardi F, Cosio C, Penel C, Dunand C .(2005). Peroxidases have more functions than a Swiss army knife. Plant CHK.DL HGFDV. SD]H. ,ell Rep 24: 255-265. 217. Pastor G.M., Kiddle G., Antoniw J., Bernard S.,Veljovic-Jovanic S., Verrier P.J., Noctor G. andFoyer C.H. (2003). Leaf vitamin C contentsmodulate plant defense transcripts and regulategenes that control development throughhormone signaling. Plant Cell. 15: 939-951. 218. Pavet V., Olmos E., Kiddle G., Mowla S.,Kumar., Antonniw J., Alvarez M.E. and Fayer C.H. (2005). Ascorbic acid deficiency activatescell death and disease resistance responses in Arabidopsis. Plant Physiology. 139: 1291-1303. 219. Peng J., Deng X., Huang J., Jia S., Miao X. and Huang Y. (2004). Role of salicylic acid in tomato defense against cotton bollworm, Helicoverpa armigera Hubner. Z Natureforsch C. 59:856-62. 220. Percival, G,C.(2001). Induction of systemic acquired diseases resistance in plants: potential implications for diseases management in urban forestry, Journal of Arboriculture, 27(4) . pp 181-192. 221. Pestana, M. ; A. D.Varennes and E.A. Faria. (2003). Diagnosis and correction of Iron chlorosis in fruit trees . Areview . Food. Agric. &Env., 1 ( 1 ) : 46-51 . 222. Pieterse. CMJ and Van Loon. LC. (1999). Salicylic acid-independent plant defence Pieterse, C.M;Poelman, E, Van Wees, S. and Dicke, M, 2013, Induced plant responses to microbes and insects. Frontiers in plant science,4,p.475. 223. Pignocchi C. and Foyer C. h. (2003). Apoplasticascorbate metabolism and its role in the regulation of cell signaling. CurrOpin Plant Biol, 6: 379-389. 224. Pilon-Smits Elizabeth AH;Quinn CF;Tapken W; Alagoli M and Schiavon M, (2009). Physiological Functions of beneficial elements Current Opinion in Plant Biology. 12:267-274. 225. Popova, L., T. Pancheva. and A.Uzunova. (1997). Salicylic acid:Properties, Biosynthesis andPhysiological role. Bul G. J. Physiol.23(1-2):85-93. 226. Posmyk MM, Kontek R, Janas KM. (2009). Antioxidant enzymes activity and phenolic compounds content in red cabbage seedlings exposed to copper stress. Ecotox Environ Saf, 72:596-602. 227. Prasanna V., Prabha T., Tharanathan R.(2007). Fruit ripening phenomena. An overview. - Critical Reviews in Food Science and Nutrition, 47: 1-19. 228. Pulga, PS., , JM. Henschel., Jtv Resende., AR Zeist., Moreira, Afp., A .Gabriel., Silva, M B and L.S.A Goncalves. (2020). Salicylic acid treatments induce resistance to Tuta absoluta and Tetranychus urticae on tomato plants. Horticultura Brasileira 38: 288-294. 229. Quiroga M, Guerrero C, Botella MA, Barcelo A, Amaya I, et al. (2000). A tomato peroxidase involved in the synthesis of lignin and suberin. Plant Physiol 1112-1119. 230. Rane, J; K.C Lakkineni; P.A. Kumar and Y.P. Abrol. (1999). Salicylic acid protects nitrate reductase activity of wheat leaves. Plant Physiol. Biochem. 22 (2): Pp 119–121. 231. Ranjbaran E., Sarikhani H., Wakana A., Bakhshi D.(2011) . Effect of salicylic acid on storage life and postharvest quality of grape (Vitis vinifera L. cv.Bidaneh Sefid). - Journal of the Faculty of Agriculture, Kyushu University, 56: 263-269. 232. Rashid, A. (1986). Mapping Zinc fertility of soil using indicator plant and soil analysis. Ph. D. Dessrtation. University of Hawaii, HI, USA. 233. Raskin, I.(1992.b) Salicylate a newplant hormone. Plant physiology. 99: 799-803.234. Raskin, I.(1992a). Role of salicylic in plants. Annu. Rev. Plant.Physiology . 43: 439-463. 235. Reuter, D.J. and J.B. Robinson. (1997). Plant analysis: An interpretation manual (2nd edition). CSIRO publ., Australia. 236. Rivas-San Vicente M., Plasencia J.(2011). Salicylic acid beyond defence: its role in plant growth and development. J. Exper. Bot., 62: 3321-3338. 237. Rodriguez-Aguilera, J. C. Navarro, F. Arroyo, A. Alcain, F. J. Villalba, J. M. and Navas, P. (1995)."Vitamin C stabilization as a consequence of the plasma membrane redox system".Protoplasma.1: 229-232. 238. Rosalein, I.(1992). Salicylate: a new planthormone. Plant physiol.269:799-803. 239. Russell IPM Ltd. (2009a). Tuta absoluta information network-News. Russell IPM Ltd. Accessed May 16, 2011. http://www.tutaabsoluta.com/ agrinewsfull .phpnews =89&lang=e 240. Sakalova,M.K. (1979). Foliage Calculation Method .Z. Sci. Agr. Research (TCXA). 40-42. (in Russian). 241. Salama H. S. A., Ismail I. A., Fouda M., Ebadah I., Shehata I. ( 2015). Some Ecological and Behavioral Aspects of the Tomato Leaf Miner Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae). Ecologia Balkanica.vol.7, Issue 02.p:35-44. 242. Salomy A.K. (2012). Effect the levels of Lycopersicum esculentum Mill. In plastic house under drip irrigation condition. International journal of environment and water, Babylon, Iraq. Pp:209-214. 243. Sari Mohammed Fadila Wafa .(2017). comparaison entre deux méthodes de dosage de la vitamine C.P05 ,07 244. Schumann, A.W. and Spann, T, m. (2010). Mineral nutriation contributes to plant disease and pest resistance. University of Florida,IFAS Extension HS1181. 245. Seth, D,V. Melino and M.F. Christopher. (2007), Ascorbate as biosynthesis precurser in plant, Published by Oxford University, Annals of Botany, 99(1): 3-8. 246. Shahwan., Eman Shahwan Moheb El-Din. (2010). Inducing systemic resistance against some tomato virus diseases. Dissertation Submitted in Partial Fulfillment of the Requirements for The Degree of doctor of philosophy in plant pathology (Viral Diseases). Pp: 256. 247. Shafiee M., Taghavi T., Babalar M.( 2010 ). Addition of salicylic acid to nutrient solution combined with postharvest treatments (hot water, salicylic acid, and calcium dipping) improved postharvest fruit quality of strawberry. - Scientia Horticulturae, 124: 40-45. 248. Shakirova, F. (2007). Role of hormonal system in the manisfestation of growth promoting and anti-stress action of salicylic acid. PP 69-89. 249. Shakirova, F.M., A.R. Sakhabutdinova, M.V. Bezrukova, R.A. Fatkhutdinova, D.R. Fatkhutdinova.( 2003). Changes in the hormonal status of wheat seedlings induced by salicylic acid and salinity, Plant Sci., 164: 317-322. 250. Shigeoka, S, Ishikawa, T, Tamoim M, Miyagawa, Y, Takedam Y, ET AL. (2002). Regulation and function of ascorbate peroxidase isoenzymes.J.Exp.Bot.53, 1305-1319. Doi: 10.1093/jxb/53.372.1305 251. Sigma-Aldrich.( 2014).Technical Bulletin- Peroxidase Activity Assay Kit, USA,Catalog Number MAK092, Pp4.252. Silva, D., Bueno, V. H. P., Lins J. C. Lenteren, J. C. V. (2015). Life history data and population growth of Tuta absoluta at constant and alternating temperatures on two tomato lines. Bulletin of Insectology, 68(2): 223-232. 253. Silva, P. P., Sekita, M. C., Dias, D. C. S., and Nascimento, W. M. (2016). Biochemical and physiological analysis in carrot seeds from different orders of umbels. RevistaCiênciaAgronômica, 47 (2): 407-413 254. Singh B and Usha K (2003). Salicylic acid –induced physiological and biochemical changes in wheat seedlings under water stress. Plant Growth Regul. 39:137-141. 255. Singh,P, K; Chaturvedi,V,K: Bose,B. (2010). Effects Of Salicylic Acid On Seedling Growth And Nitrogen Metabolism In Cucumber (CUCUMIS SATIVUS L.), Journal of Stress Physiology &Biochemistry,Vol: 5(.):158 -118. 256. Singleton V L and Rossi J A Jr. (1965). Colorunetry of total phenolics with phosphomolybdic- phosphotungstic acid reagents. Amerecan Journa Enology Viticulture 16:144-58. 257. Siqueira, H. A.; R. N. Guedes and M. C. Picanco .(2000). Insecticide resistance in populations of Tuta absoluta (Lepidoptera: Gelechiidae). Agriculture Forest Entomology, 2, 147–153. 258. Sobala,G,M, Pignatelli ,B, Schorah ,C,J, Bartsch H,Sanderson M, Dixon M,F, King, R,F,G and Axon .A,T,R. ( 1991). Levels of nitrate, n- nitrate compounds, ascorbic acid and total bile acids in gastric juice of patient with and without precancerous conditions of the stomach, Carcinogenesis, 12,193-189 259. Sobreira F.M., Andrade G.S., De Almeida G.D., De Pina Matta F.( 2009). Sources of Resistance to Tomato Leafminer in Cherry Tomato. Scientia Agraria, Curitiba, V.10, N.4, P.327-330. 260. Srivastava M.K., Dwivedi U.N.( 2000) . Delayed ripeningof banana fruit by salicylic acid. - Plant Sci., 158: 87-96. 261. Sticher, L., Mauch-Mani, B. and Métraux, JP. (1997). Systemic acquired resistance. Annu Rev Phytopathol. 35:235–270. [PubMed] 262. Talaat, N.B.( 2003). Physiological studies on the effect of salinity, ascorbic acid and putrescine on sweet pepper plant. Ph.D Thesis, Agric, Bot. Dept., Fac. Agric., Cairo Univ., pp: 286. 263. Taram S.K.( 2016). Population Dynamics, Extent of Damage and Estimation of Losses Caused by the Invasive South American Tomato Moth, Tuta Absoluta (Povolny) (Lepidoptera: Gelechiidae) On Solanaceous Crops with Special Reference to Tomato. Department of Entomology, College of Agriculture, Faculty of Agriculture, Indira Gandhi Krishi Vishwavidyalaya Raipur (Chhattisgarh), Master thesis. 264. Tareen M.J., Abbasi N.A., Hafiz I.A. (2012). Postharvest application of salicylic acid enhanced antioxidant enzyme activity and maintained quality of peach cv. „Flordaking‟ fruit during storage. - Scientia Horticulturae, 142: 221-228. 265. Tandon, K.S., Baldwin, E.A., Scott, J.W and Shewfelt, R.L. (2003) .Linking sensory descriptors to volatile and non-volatile components of fresh tomato flavor. J. Food Sci. 68, 2366–2371. 266. Taylor,I.B. (1986). Biosystematics of the tomato. In:Atherton,J. and Rudish, G.(eds)The Tomato Crop. ASientific Basis for Improvement. Chapman  Hall, 647p.267. Temperli, A.T.(1982). Nitrat in food. Einflub zweier Anbauweisen auf den Nitrategehalt von Kopfsalat Schweiz. landw For Schunge.21p 268. Tendon, H.L.S.( 2005). Methods of analysis of soils, plants, waters and fertilizers. Fertilization development and consultation organization, New Delhi. India. 269. Terpstra, K, DE HART. N. (1974). The estimation of urinary nitrogen and faecal nitrogen in poultry excreta. Z Tierphysiol Tierernaehr Futtemittlkd 32(6):306 -311.. 270. Torres J. B.; C. A. Faria; W. A. Evangelista and D. Pratissol. (2001). Within-plant distribution of the leaf miner Tuta absoluta (Meyrick) immatures in processing tomatoes, with notes on plant phenology. International Journal of Pest Management, 47(3): 173–178. 271. Uknes, S.; Mauch-mani, B.; Moyer, M.; Potter, S.; Williams, S.; Dincher,D.; Slusarenko, A.; Waed, E. and Ryals, J.(1992). Acquired resistance inArabidopsis. Plant Cell, 1992, 4, 645-656. 272. Unlu L.(2012). Potato: A New Host Plant of Tuta absoluta Povolny (Lepidoptera: Gelechiidae) in Turkey. Pakistan J. Zool., vol. 44(4), 1183-1184. 273. Urbaneja A, Vercher R, Navarro V, Garcı´a Marı´F, Porcuna JL. 2007. La polilla del tomate, Tuta absoluta. Phytoma Espan˜a 194:16–23 274. Valero D., Diaz-Mula H.M., Zapata P.J., Castillo S.,Guillén F.N., Martinez-Romero D., Serrano M.A. (2011). Postharvest treatments with salicylic acid,acetylsalicylic acid or oxalic acid delayed ripening andenhanced bioactive compounds and antioxidant capacity in sweet cherry. - J. Agric. Food Chem., 59: 5483-5489. 275. Van Deventer P.(2009). Leafminer threatens tomato growing in Europe, & Horti World .,Fruit & Veg Tech in ,Agri, P 10-12. 276. Van Loon ,L.C.,Bakker, P.A.H.M. and Pieterse, C.M.J. (1998).Systemic resistance induced by rhizosphera bacteria. aAnnual review of phytopathology, 36(1), pp.453-483. 277. Vance CP, Kirk TK, Sherwood RT. (1980). Lignification as a mechanism of disease resistance. Annual Rev Phytopathol 18: 259-288. 278. Vargas, H. (1970). Observaciones sobre la biologia enemigos naturales de las polilla del tomate, Gnorimoschema absoluta (Meyrick). Depto. Agricultura, Universidad del Norte- Arica 1:75-110. 279. Vega F.E., Meyling N.V., Luangsa-Ard J.J., Blackwell M. ( 2012). Fungal entomopathogens. In: Vega, F.E., Kaya, H.K. (Eds.), Insect Pathology, seconded. Academic Press, San Diego, pp. 171–220. 280. Vieira, D.L., De Oliveira Barbosa, V., De Souza, W.c.o ., De Silva J.G., Malaquias, J.B and De Luna Batista, J. (2016). Potassium silicate-induced resistanse against blackfly in seedlings of citrus reticulate fruits, 71(1):49-55. 281. Walsh, L.M. and J.D. Beaton, eds. (1973). Soil testing and plant analysis. Soil Sci. Soc. Of Amer., Madison, USA. 282. Wang C., Zhang S., Wang P., Hou J., Qian J., and Y.Ao. (2011). Salicylic acid involved in the regulation of nutrient elements uptake and oxidative stress in Vallisnerianatans (Lour.) Hara under Pb stress. Chemosphere 84 136–142. 283. War, A.R., Paulraj, M.G., War, M.Y. and Ignacimuthu, S. (2011b). Role of salicylic acid in induction of plant defense system in chickpea (Cicer arietinum. L.). Plant Signal Behav., 6: 1787-1792.284. War,A.R.,Paulraj.M.G.,Ahmad.T.,Buhroo,A.A,Hussain,B,Ignacimutha,S.and Sharma, H.C.( 2012). Mechanisms of plant defense against insect herbivores. Plant signaling & behavior,7(10).pp.1306-1320. 285. War, A.R., Paulraj, M.G., War, M.Y. and Ignacimuthu, S. (2011b). Role of salicylic acid in induction of plant defense system in chickpea (Cicer arietinum. L.). Plant Signal Behav., 6: 1787-1792. 286. Ward, E.R.; Uknes, S.J.; Williams, S.C ; Dincher, S.S; Wiederhold, D.L; Alexander, D.C.; Ahi-Goy, P.; Metraux, J.P., Ryals, J.A. (1991). Coordinate gene activity in response to agents that induce systemic acquired resistance. Plant Cell, 3, 1085–1094. 287. Wassel A.H., M.A. Hameed, A. Gobara and M. Attia. ( 2007). Effect of some micronutrients, gibberellic acid and ascorbic acid on growth, yield and quality of white Banaty seedless grapevines, African Crop Sci. Conference Proceeding, 8:547-553. 288. White, R.F. (1979). Acetylsalicylic acid (aspirin) induces resistance to tobacco mosaic virus in tobacco. Virology, 99, 410–412. 289. Witing., D. A .(2000). “Natural Phenolic Compounds 1900-2000:A Bird‟s Eye View of a Century‟s Chemistry,” NaturalProduction Report, Vol. 18, pp. 583-606. 290. Wiśniewska H., Chełkowski J.( 1999 ). Influence of exogenic salicylic acid on Fusarium seedling blight reduction in barley. - Acta Physiologiae Plantarum, 21: 63-66. 291. Yildirim,E and Dursun, A.(2009) . Effect of Foliar SA on Plant Growth and Yield of Tomato Under Greenhouse Conditions. Acta horticulture (ISHS), Vol: 807:395-400. 292. Zarghami, M.; M. Shoor; A. Ganjali; N. Moshtaghi; and A. Tehranifar .(2014). Effect of salicylic acid on morphological and ornamental characteristics of petunia hybrid at drought stress. Indian Journal of Fundamental and Applied Life Sciences. 4: 523-532. 293. Zhang Y., Chen K., Zhang S., Ferguson I.( 2003). The role of salicylic acid in postharvest ripening of kiwifruit. - Postharvest Biology and Technology, 28: 67-74. 294. Zhou XM, Mackeuzie AF, Madramootoo CA, Smith DLJ. (1999). Effects of some injected plant growth regulators with or without sucrose on grain production biomass and photosynthetic activity of field-grown corn plants. Agro. Crop Sci. 183: 103-110M.vd.Straten©NPPO - NL – All rights reserved