compiled thesis 25.05.2014 -...
TRANSCRIPT
BBBIIIBBBLLLIIIOOOGGGRRRAAAPPPHHHYYY
BBIIBBLLIIOOGGRRAAPPHHYY A.O.A.C.(1994). Official Methods of Analysis (16th ed.), Association of Official
Analytical Chemists. Virginia, U.S.A.
Aday, M.S. and Caner, C. (2011). The applications of ‘active packaging and chlorine dioxide’for extended shelf life of fresh strawberries. Packaging Technol. and Sci. 24: 123–136
Adedeji, O; Taiwo K.A; Akanbi C.T. and Ajani R., (2006). Physicochemical properties of four tomato cultivars grown in Nigeria. J. Food Process Preserv., 30: 79- 86.
Adegoroye, A.S; Jolliffe, P.A. and Tung, M.A. (1989). Texture characteristics of tomato fruits (Lycopersicon esculentum) affected by sunscald. J. Sc. Food Agr., 49: 95-102.
Agarwal, S. and Rao, A.V., (1998). Tomato lycopene and low density lipoprotein oxidation: a human dietary intervention study. Lipids, 33 : 981-984.
Aggarwal, P; Singh, B. and Sidhu J.S. (1995). Studies on the physico-chemical and processing characteristics of some newly evolved tomato cultivars for making juice and concentrate. Indian Food Packer , 49(2) : 45-53.
Aguayo, E; Escalona V. and Artes F. (2004). Quality of fresh-cut tomato as affected by type of cut, packaging, temperature and storage time. European Food Research and Technol. 219: 492-499
Aharoni, K; Grierson, D and Maezawa, S (1985). Combined effect of heat treatment and modified atmosphere packaging on the color development of cherry tomato. Postharvest Biol. Technol. 34: 113-116.
Akbudak, B and Akbudak, N. (2007). Effects of hot water treatment and modified atmosphere packaging on the quality and cold storage life of cherry tomatoes. J. Food Sci. Technol. 44(2): 216-219.
Akbudak, B; Akbudak N; Seniz V. and Eris. A. (2007). Sequential treatments of hot water and modified atmosphere packaging in cherry tomatoes. J. Food Quality 30: 896- 910.
Ali, B. (2004). Determination of acceptable firmness and color values of tomatoes. J. of Food Engineering 61: 471 – 475.
Ali, B. and Thompson, K. (1998). Effect of modified atmosphere packaging on post harvest qualities of pink tomatoes. Tr. J. of Agric. and Forestry. 22: 365 – 67.
Ali, M.S; Nakano, K. and Maezawa, S.(2004). Combined effect of heat treatment and modified atmosphere packaging on the color development of cherry tomato. Postharvest Biology and Technol., 34: 113-116.
Anonymous (2003). Annual Report (2002-03), Ministry of Agriculture Government of India, New Delhi.
AOAC (2007). Official Methods of Analysis. 19th Edn., Association of Official Analytical Chemists, Virginia, USA.
Apaiah, R.K. and Barringer, S.A. (2007). Quality loss during tomato paste production versus sauce storage. J. Food Process Preserv., 25: 237-250.
APO (1989). Annual Tomatoes Report. Department of Agricultural Extension, Ministry of Agriculture and Co-operative, Thailand.
Artes, F; Sanchez, E. and Tijskens, L.M.M.,(1998). Quality and shelf life of tomatoes improved by intermittent warming. Lebensmittel Wissenschaft and Technologie, 31(5) : 427-431.
Artes, F; Conesa, M.A; Hernandez, S. And Gil, M.I., (1999). Keeping quality of freshcut tomato. Postharvest Biology and Technol. 17 : 153-162.
Auerswald, H; Peters, P; Brückner, B; Krumbein, A. and Kuchenbuch, R. (1998). Sensory analyses and instrumental measurments of shortterm stored tomatoes (Lycopersicon esculentum Mill.). Postharvest Biology and Technol. 15:323-334.
Aworth, O.C. and Olorunda, A.O. (1981). Towards reducing postharvest losses of perishable fruits and vegetables in Nigeria. In the Proceeding of the National Conference in Agriculture. Port Harcourt, Nigeria.
Badshah, N; Muhammad, S; Qaim, M. and Ayaz, S.(1997). Shelf life study in tomato storage with different packaging materials. Sarhad J. of Agriculture. 13 (4) :347-350.
Bailen, G; Guillen, F; Castillo, S; Serrano, M; Valero, D. and Martínez-Romero, D. (2006). Use of activated carbon inside modified atmosphere packages to maintain tomato fruit quality during cold storage. J. of Agricultural and Chemistry. 54: 2229–2235.
Baldwin, M.O. and Balaban Huber D.J (2000). Tomato flavor and aroma quality as affected by storage temperature, J Food Sci.. 65(7):1228
Banks, N. H; Hewett, E. W; Rajapakse, N. C; Cleland. D. J; Austin, P. C. and Stewart, T. M. (1984). Modeling fruit response to modified atmospheres. In J. K. Barber, N.J. and J. Barber, 2002. Lycopene and Prostate Cancer. Prostate Cancer and Prostatic Diseases. 5: 6-12.
Barden, C.L. and Mitcham, E.J. (1997). Low oxygen storage of ‘Ginger Gold’ apples. 7th International Controlled atmosphere research conference CA ’97.
Proceedings Vol. 2 : Apples and pears, Davis, California, USA., 13-18 July. 16 :183-188.
Barron, C; Varoquaux P; Guilbert, S; Gontard, N. and Gouble, B. (2002).
Modified atmosphere packaging of cultivated mushroom (Agaricus bisporus L.) with hydrophilic films. J Food Sci 67:251–5.
Batu, A. (2003). Determination of acceptable firmness and colour values tomatoes. J. Food Eng. 61: 471-475.
Batu, A. and Thompson, A.K. (1998). Effects of modified atmospheric packaging on post harvest qualities of pink tomatoes, Tr. J. Agr. and Forestry. 22: 365-372
Beaudry, R M. (1999). Effect of O2 and CO2 partial pressure on selected phenomena affecting fruit and vegetable quality. PostharVest Biol. Technol. 15: 293-303.
Beaudry, R. M. and Lalakul (1995). Effect of O2 and CO2 partial pressure on selected phenomena affecting fruit and vegetable quality. PostharVestBiol. Technol. 5: 293-303.
Beaudry, R. M; Lakakul, R. and Hernandez, R. J. (1999). Modeling respiration of
apple slices in modified-atmosphere packages. J. of Food Sci. 64: 105–110.
Ben-Yehoshua, S. (1987). Transpiration, water stress, and gas exchange. Pages 113-170. In: Post harvest Physiology of Vegetables. J. Weichmann (Ed.), Marcel Dekker, New York.
Ben-Yehoshua, S.(1985). Individual seal-packaging of fruit and vegetables in plastic film- A new postharvest technique. Horti Sci. 20(1): 32-36.
Ben-Yehoshua,S; Fishman, S; Fang, D. and Rodov, V. (1993). New developments in modified atmosphere packaging and surface coatings for fruits. In ‘Postharvest Handling of Tropical Fruits’.ACIAR Proceedings No. 50. (Eds B.
Bhadra, S. and Sen, S.K. (1999). Post-harvest storage of custard apple (Annona squamosa L.) fruit var. Local Green under various chemical and wrapping treatments. Environment and Ecology. 17(3) : 710-713.
Bhatnagar, D.K., Singh, G.P., Singh, J.P. and Singh, B.P., (1980), Studies on the storage behaviour of different tomato cultivars. Haryana Agricultural University J. of Research. 10(1) : 5-9.
Bhattarai, D.R. and Gautam D. M (2006). Effect of harvesting method and alcium on post harvest physiology of tomato. Nepal Agric. Res. J. 7: 37 – 41.
Bhowmik, S.R. and Pan, J.C. (1992). Shelf life of mature green tomatoes stored in controlled atmosphere and high humidity. J. of Food Sci. 57(4): 948-953.
Biale, J.B. (1975). Synthetic degradation process in fruit ripening. In : Post-harvest biology and handling of fruits and vegetables (Eds. Hoards, N.F. and Salunkhe, D.K.). The A VI Publishing Co., West Port Connecticut, USA, pp. 176.
Boukobza, F; Taylor, J (2002). Effect of postharvest treatment on flavour volatiles of tomatoes. PostharVest Biol. Technol. 25: 321-331.
Brackmann, A; Waclawovsky, A.J; Mazaro, S.M. and Ceretta, M., (2000). Storage of ‘chiripa’ peach in controlled atmosphere. Revista Brasileira de 16(1):51–61.
Brar, J.S; Arora, S.K; Jitender, K; Batra, B.R. and Kumar, J. (2000). Effect of
polythene packing on the shelf life of chilli (Capsicum annum L.) cv. Pusa Jwala. Haryana J. of Horticultural Scis. 29 (3-4): 252-254.
Brody A.L.; Strupinsky E.R. and Kline L.R. (2001). Active packaging for food applications. Penn.: Technomic Publishing Co. 217 p.
Burton, W.G. (1982). Storage characteristics of some vegetables and soft fruits. Annuals of Applied Biology. 81: 399-408
Bussel, J. and Kenigsberger, Z., (1975). Packaging green bell peppers in selected
permeability films. J. of Food Sci. 40: 1300-1303. Cacek, T; Lagner, L.L. (1986). The economic implications of organic farming. Am. J.
Altern. Agric. 1: 25-29. Caleb, O.J; Opar, U.L. and Witthuhn, C.R. (2011). Modified atmosphere
packaging of pomegranate and arils: a review. Food and Bioprocess Technol..doi:10.1007/s11947-011-0525-7.
Cameron A.C; Beaudry R.M; Banks N.H and Yelanich M.V. (1994). Modified-atmosphere packaging of blueberry fruit: modeling respiration and package oxygen partial pressures a function of temperature, J. Am. Soc. Hortic. Sci. 119 534.
Cameron A.C; Talasila P.C. and Joles D.W. (1995). Predicting film permeability needs for modified-atmosphere packaging of lightly processed fruits and vegetables, Hortic. Sci. 36: 25-30.
Cameron, A. C; Beaudry, R. M; Banks, N.H. and Yelanich, M. V. (1994). Modified atmosphere packaging of blueberry fruit: modeling respiration and package oxygen partial pressures as a function of temperature. J. of the American Society for Horticultural Sci. 119: 534–539.
Cameron, A.C; Boylan-Pett W. and Lee J. (1989). Design of modified atmosphere packaging systems: modeling oxygen concentrations within sealed packages of tomato fruits, J. Food Sci. 54: 13-14
Cameron, A.C; Boylan-Pett, W. and Lee, J. (1989). Design of modified atmosphere packaging systems: modeling oxygen concentrations within sealed packages of tomato fruits. J Food Sci. 54:1413–21.
Cameron, A.C; Talasila, P.C. and Joles, D. W. (1995). Predicting film permeability needs for modified atmosphere packaging of lightly processed fruits and vegetables. Hort Sci. 30: 25–34.
Cameron, A.C; W. Boylen-pett and Lee, J (1989). Design of Modified Atmospheric Packaging System: Modelling Oxygen Concentration within sealed package of tomato fruits. J. Fd. Sci. 40: 186-191
Cameron, C.A; Talasila, P.C. and Joles, D.W. (1995). Predicting film permeability needs for modified-atmosphere packaging of lightly processed fruits and vegetables. J Food Sci. 64:14–21.
Cantwell, M. (2008). Optimum procedures for ripening tomatoes. In, Arpaia, M.L., E.J.
Carrari, F. and Fernie, A.R., (2006). Metabolic regulation underlying tomato fruit development. J. Exp. Bot. 57: 1883-1897.
Christie,G.B.Y;Macdiarmid,J.I;Schliephake,K;Tomkins,R.B.(1995). Determination of film requirements and respiratory behavior of fresh produce in modified atmosphere packaging. Postharv BiolTechnol. 6:41–54.
Church and Parsons (1995). The chemistry of lysozyme and its use as a food preservative and a pharmaceutical, CRC Crit. Rev. Food Sci and Nutr. 26(4): 359-381
Church, I.J. and Parsons, A.L. (1995). Modified atmosphere packaging Technol.: a review, J. Sci. Food Agric. 67: 143.
Codex Alimentarius (2008). Codex standard for tomatoes: Codex Stan 293-2008 www.codexalimentarius.net/download/standards/11013/CXS_93e.pdf, accessed in January, 7th 2009.
Crank, J. and Park, G.S. (1968). Diffusion in polymers. Crank J, Park GS, editors. London: Academic Press. 360 p.
Daun, H. and Gilbert S.G. (1974). Film permeation: the key to extending fresh produce shelf life. Packaging Engineering 19: 50-53. bags. Postharvest Biol. Technol. 543-89.
Davies, J. N. and Hobson, L. E. (1981). The constituents of tomato fruit, the influence of environment, nutrition and genotype. C.R.C. Citrus Review Food Sci. and Nutrition 15: 205-280
Day (1988). Physio-chemical changes of pineapple fruits under certain post harvest treatments. South Indian Hort. 44: 5-7.
Day (1993). Certain physiological and biochemical changes in developing tomato fruits. J. Food Sci., 30: 504-508. Doi: 10.1111/j.1365- 2621.1965.tb01793.x About DOI
De Castro; Cortez, L.R. and Vigneault, C. (2006). Effect of sorting, refrigeration and packaging on tomato shelf life. J. of Food Agriculture and Environment 4(1):70-74.
Dewanto, Y; Raghavan, G.S.V; Castaigne; Arul, J. and Willemot, C. (2002). Precooling and modified atmosphere storage of green asparagus. J. Food Proc. Preserv. 15:215-224.
Edmond, J.P; Castaigne, F; Toupin, C.J. and Desilets D. (1991). Mathematical modeling of gas exchange in modified atmosphere packaging. Am Soc Agric Eng 34(1):239– 45.
Efiuvwevwere, B.J.O. and Oyelade, J.A., (1991), Biodeteriorative and physico-chemical changes in modified atmosphere packaged oranges and the microbial quality of the preserved and unpreserved juice. Tropical Sci.31: 325-333.
El - Goorani and Sommer (1981). Composition of tomato fruits III. Juices form
whole fruit and locules at different stages of ripeness. J. of Sci.s Food and Agriculture, 13: 108-115.
Elazar, R. (2004). Postharvest physiology, pathology and handling of fresh
commodities. Lecture Notes. Department of Market Research. Ministry of Agriculture and Rural Development, Israel.
Elzayat, H.E. (1996). Influence of plastic wrapping on storage and quality of banana.
Bulletin of Faculty of Agriculture, University of Cairo. 47(2): 295- 303.
Emond, J. P. (1992). Mathematical modelling of gas concentration profiles in perforation-generated modified atmosphere bulk packaging. PhD dissertation, University of Florida, Gainesville, FL, SA.
Ergun, M; Sargent S.A. and Huber D.J. (2006). Postharvest quality of grape tomatoes treated with 1-methylcyclopropene at advanced ripeness stages. Hort Sci. 41(1): 183-187.
Erkan, M; pekmezcl Gübbük H. and Karasahln, I. (2004). Effects of controlled atmosphere storage on scaled development and postharvest physiology of Granny Smith apples, Turk. J. For Agric. 28: 43-48.
Escalona, V.H; Aguayo, E. and Artes, F., (2003). Quality and physiological changes of fresh-cut kohlrabi. Hort Sci. 38 (6): 1148-1152.
Exama, A; Arul, J; Lencki, R.W., Lee, L.Z. and Toupin, C. (1993). Suitability of plastic films for modified atmosphere packaging of fruits and vegetables. J Food Sci 58:1365– 70.
FAO (1989). Document Repository, Prevention of post-harvest food losses: Fruits, vegetables and root crops: Atraining manual, Forest Finance Working Paper - 17-2
FAO (2010). FAO Bulletin of Statistics. Food and Agriculture Organization of the United Nations (FAO) 2: 85.
Ferber, K.L. (1991). Molecular regulation of fruit maturation and ripening. Annu. Rev. Plant Physiol. Plant Mol. Biol. 52: 725-749
Ferguson, I.B; Ben-Yehoshua, S; Mitcham, E.J; Mcdonald, R.E. and Lurie, S. (2000). Post harvest heat treatments introduction and workshop summary. Postharvest Biology and Technol, 21:1-6.
Fiddler, J.C. (1982). Fresh fruits and vegetable in recent advance in food Sci., Havasthorn J and Butherworths, K J M Eds., London, pp259-284
Fidler,J.C. and North, C.J. (1967).The effect of conditions of storage on the respiration of apples. I. The effects of temperature and concentrations of carbon dioxide and oxygen on the production of carbon dioxide and uptake of oxygen. J. of Horticultural Sci. 42: 189–206.
Fischer, R.A.,(1960). The Design of Experiments. Hafner Publication Co., New York.
Fishman, S; Rodov V; Peretz, J and Ben-Yehoshua S. (1995). Model for gas exchange dynamics in modified-atmosphere packages of fruits and vegetables. J Food Sci. 60(5):1078–83, 1087.
Fishman, S; Rodov, V. and Ben-Yehoshua, S. (1996). Mathematical model for perforation effect on oxygen and water vapor dynamics in modified-atmosphere packages. J. of Food Sci. 61: 956–961.
Fonseca, S.C; Oliveira, F.A.R. and Brecht, J.K. (2002). Modeling respiration rate of fresh fruits and vegetables for modified atmosphere packages: a review. J Food Eng. 52:99–119..
Fonseca, S.C; Oliveira,F; Brecht, A.R and Chau, K. V. (1999). Development of perforation-mediated modified atmosphere packaging for fresh-cut vegetables. In F. A. R. Oliveira, J. C. Oliveira (Eds.), Processing of foods: Quality optimisation and process assessment (pp. 389–404). Boca Raton, USA: CRC Press.
Frey (1997). Modified atmosphere packaging and its effects on the microbiological quality and safety of produce. IntlJ. Food Sci. Technol. 31:463-79.
Gabriel, O.S; Gustavo, D.T. and Adela, A.F. (1999). Controlled atmosphere storage of tomato fruit: low oxygen or elevated carbon dioxide levels alter galactosidase activity and inhibit exogenous ethylene action. J. of the Sci. of Food and Agriculture. 79: 1065-1070.
Gaur, G.S. and BajpaI, P.N. (1982), Effect of storage on tomato harvested at different stages of maturity. Progressive Horticulture. 14(1): 47-49.
Geeson, J.D; Browne, K; Maddison, J. Shepherd and F. Guaraldi (1985). Modified atmosphere packaging to extend the shelf life of tomatoes. J. Fd. Techol., 20(3): 339-349
Giovannoni, J. (2001). Molecular regulation of fruit maturation and ripening. Annu. Rev. Plant physiol.Plant Mol. Biol. 52: 725-749
Giraldo, L.F; Forero, R.A; Salazar, C.R and Torres R. (1977). The effect of packaging and potassium permanganate on the storage of tomatoes under room conditions. Ravista Inst. Collanbiano Agropecuario. 12(4): 393-405. (Hort, Abstr. 49:4289).
Gomez, K.A and Gomez, A.A., (1984). Statistical Procedure for Agricultural Research. 2nd Edn., John Wiley and sons, Singapor, pp: 18-192. ISBN 0471879312.
Gong, S. and Corey, K. A. (1994). Predicting steady state oxygen concentrations in modified atmosphere packages of tomatoes. J. of the American Society for Horticultural Sci. 119: 546– 550.
Gong, S; Corey, K A. (1994). Predicting steady-state oxygen concentration in modified-atmosphere packages of tomatoes. J. Am. Soc.Hortic. Sci. 119: 546-550.
Gontard N. (2000). Panorama des emballages alimentaires actifs. In: Gontard N, editors. Les emballages actifs. Paris, France: Tec and Doc. p 1–29.
Gontard, N. and Guillaume, C. (2010). Packaging and the shelf life of fruits and
vegetables. In G. L. Robertson (Ed.), Food packaging and shelf life: a practical guide (pp. 297–315). London: CRC.
Gonzalez, A.G.A; Gayosso, L; Cruz, R; Fortiz, J; Baez, R. and Wang, C.Y., (2000). Polyamines induced by hot water treatments reduce chilling injury and decay in pepper fruit. Postharvest Biology and Technol. 18(1): 19-26.
Goodenough, P.W; Tucker, G.A; Grierson, D. and Thomas, T. (1982). Changes in colour, polygalacturonase, monosaccharides and organic acids during storage of tomatoes. Phytochemistry 21(2): 281-284.
Gough, C. and Hobson, G.E. (1990). A comparison of the productivity, quality, shelf-life characteristics and consumer reaction to the crop from cherry tomato plants grown at different levels of salinity. J. Hortic. Sci. 65(4): 431±439.
Gould, W.A.(1992). Tomato Production, Processing and Technol. CTI Publishing Company, USA. Hayes,
Gowda, I.N.D; RamanJaneya, K.H; Anand, N; Sadashiva, A.T. and Tikoo, S.K .(1994) . Studies on the physico-chemical characteristics and processing quality of two I I HR tomato varieties in relation to commercial cultivars. J. Food Sci . Technol. 31(2): 126-129.
Grierson, D. and Kader, A.A.(1986). Fruit ripening and quality. In : The tomato crop (J.G. Atherton and J. Rudich, eds.) University Press, Cambridge.Guidelines. In, USDA Agric. Handbook 66. Commercial Storage of Fruits, Vegetables and Ornamentals. K.Gross, M. Saltveit and C.Y. Wang, eds.). http://www.ba.ars.usda.gov/hb66/.
Guillén, F; Castillo, S; .Zapata P; Martínez-Romero, D; Serrano, M. and Valero D. (2006). Efficacy of 1-MCP treatment in tomato fruit. 2. Effect of cultivar and ripening stage at harvest. Postharvest Boil. Tec. 42: 235-242.
Haggar, P. E; Lee, D. S. and Yam, K. L. (1992). Application of an enzyme kinetics based respiration model to closed system experiments for fresh produce. J. of Food Process Engineering 15: 143–157.
Heintz, C.M. and Kader, A.A. (1983). Procedures for the sensory evaluation of horticultural crops. HortSci. 18(1): 18±22.
Henig Y.S. and Gilbert S.G. (1975). Computer analysis of the variable affecting respiration and quality of produce packaged in polymeric films. J. Fd. Sci. 40: 1033-1035
Henig, Y. (1975). Storage stability and quality of produce packaged in polymeric films. ln: Post-harvest Biology and Handling of Fruits and Vegetables (ed. Haard and D.K Salunkhe) Westport. Connecticut: AVI.
Hertog .D. Munro; Forney C.F. and McRae, K.B. (1998). Mathematical model of a modified atmosphere packaging system for horticultural produce, Sci. Technol. Froid. 3: 443.
Hobson, G.E and Bedford, L. (1989). The composition of cherry tomatoes and its relation to consumer acceptability. J. Hortic. Sci. 64: 321±329.
Hobson, G.E. (1981). The short term storage of tomato fruit. J. of Horticultural Sci. 56: 363 - 368.
Hobson, G.E. (1988). Pre- and postharvest strategies in the production of high quality tomato fruit. Appl. Agric. Res. 3(5): 282-287.
Hobson, G.E., Grierson, D. (1993). Tomato In: Biochemistry of Fruit Ripening (Seymour, G.B., Taylor, J.E. and Tucker, G., eds.). Chapman and Hall, London, pp. 405-442.
Holder, R. and Christensen, M.H. (1988). The effect of electrical conductivity on the growth and composition of cherry tomatoes grown on rockwool. Proceedings of the Seventh International Congress on Soilles Culture, Flevohof, NL, 13±21 May, pp. 213±228.
Hong, J. H. and Gross, K.C. (2001). Maintaining quality of fresh-cut tomato slices through modified atmosphere packaging and low-temperature storage. J. Food. Sci., 66, 960-965.
Hong, J.H. and Gross, K.C. (1998). Surface sterilization of whole tomato fruit with sodium hypochloride influences subsequent post-harvest behaviour of fresh-cut slices. Postharvest Biology and Technol. 13: 51-58.
Hongand, G. (2001). Research on the storage of pomegranate (CV.‘Gokbahce’) under different conditions. Acta Hortic. 285: 795-802.
Ibitoye, D.O; Akin-Idowu, P.E. and Ademoyegun, O.T. (2009). Agronomic and lycopene evaluation in tomato (Lycopersicon lycopersicum Mill.) as a function of genotype. World J. Agric. Sci. 5(S): 892-895.
Ilic, Z. and Fallik, E. (2007). Stem scar-major pathway for quality changes in tomato fruit stored at different temperatures. Acta Hort. 741: 213-219.
Irtwange S. V. (2006). Application of Modified Atmosphere Packaging and Related Technol. in Postharvest Handling of Fresh Fruits and Vegetables. Agricultural Engineering International: The CIGR EJ.. Invited Overview No. 4. Vol. VIII.
Islam, M.S; Mafsui, T and Yoshida, Y. (1996). Physical Chemical and physiological Changes in storage tomatoes under various temperatures. Tech.Bull.FacultyAgric.110:1207-214.
Iwahashi, Y; Horigane, A.K; Yoza, K; Nagata, T. and Hosoda, H. (1999). The study of heat stress in tomato fruits by NMR microimaging. Mag. Res. Imag. 17(5): 767-772.
Jagadeesh, S. L; Charles, M. T; Gariepy ; Goyette, B; Raghavan, G. S. V. and Vigneault, C. (2010). Influence of postharvest UV-C ormesis on the bioactive components of tomato during posttreatment handling. Food and Bioprocess Technol. 4: 1463– 1472.
Jagadeesh, S.L. (1994). Studies on storage of guava (Psidium guajava L.) fruits. M.Sc. (Agri.) Thesis, University of Agricultural Sci.s, Dharwad,
Jamil, Q.(1990). Storage stability of tomato concentrate. M.Sc. Thesis. Dept. Food Technol. Univ. Agric. Faisalabad.
Javanmardia, J. and Kubota, C.(2006). Variation of lycopene, antioxidant activity, total soluble solids and weight loss of tomato during postharvest storage. Postharvest Biology and Technol. 41(2): 151–155.
John, M.A. (1987). Fruit softening. In : Mangoes-A Review, pp. 78-97 (Prinsley, R.T. and Tucker, G., Eds.) London The Commonwealth Secretariat.
Jones, J. (1999). Tomato plant culture: in the field, greenhouse, and home garden. CRC Press. Boca Raton, FL 1-30.
Jones, R.A. and Scott, S.J. (1983). Improvement of tomato flavor by genetically increasing sugar and acid contents. Euphytica 32(3), 845±855
Jones, R.A. and Scott, S.J.(1984). Genetic potential to improve tomato flavor in commercial F1 hybrids. J. Am. Soc. Hortic. Sci. 109:, 318±321.
Jurin, V. and Karel, M. (1963). Studies on control of respiration of McIntosh apples by packaging methods. Food Technol. 17(6): 104–108
Kader, A. A. (1992). Postharvest Technol. of Horticultural Crops (2nd Edition). UC Publication 3311. University of California, Division of Agriculture and Natural Resources, Oakland, California 94608
Kader, A.A. (1993). Postharvest Handling. In: Preece, J.E. and Read, P.E., The Biology of Horticulture- An Introductory Textbook. New York: John Wiley and Sons. p. 353
Kader, A.A. and Morris, L.L. (1974). Consumer quality improvement foreseen with low oxygen atmosphere shipping. Tomatoes West-Grow Shipping. 45 (7):16.
Kader, A.A. and Morris, L.L. (1985). Ameloration of chilling injury symptoms on tomato fruits. J. Amer. Soc. Hort. Sci. 10: 324.
Kader, A.A. and Watkins, C.B. (2000). Modified atmosphere packaging toward 2000 and beyond. Hort. Technol. 10(3):483–6.
Kader, A.A.(1992). Postharvest biology and Technol.: an overview. In: A.A. Kader (eds.) Postharvest Technol. of Horticultural Crops. University of California, Division of Agriculture and Natural Resources, Publication 3311, California, USA, pp: 15-20.
Kader, A.A.,(1980). Prevention of ripening in fruits by use of controlled atmosphere. Food Technol. 34(3): 51-54.
Kader, A.A; Morris, L.L; Stevens, M.A. and Albright-Holton, M. (1978). Composition and flavor quality of fresh market tomatoes as influenced by some postharvest handling procedures. J. Am. Soc. Hortic. Sci. 103:, 6±13.
Kader, A.A; Stevens, M.A; Albrght-Holton, M; Morris, L.L. and Algazi, M., (1977). Effect of fruit ripeness when picked on flavor and composition in fresh market tomatoes. J. Am. Soc. Hortic. Sci. 102: 724±731.
Kader, A.A; Zagory, D. and Kerbel, E.L., (1989). Modified atmosphere storage of fruits and vegetables. CRC Critical Review in Food Sci. and Nutrition. 28: 1-30.
Kapotis, G; Passam, H.C; Akoumianakis, K. and Olympios, C.M. (2004). Storage of tomatoes in low oxygen atmospheres inhibits ethylene action and polygalacturonase activity. Russian J. of Plant Physiology. 51(1): 112-115.
Kaur, Charanjeet, Binoy, George; Deepa, N; Singh, Balraj and Kapoor, H.C.. (2004). Antioxidant status of fresh and processed tomato - A Review. J. Food Sc i. Technol 41(5): 479-486.
Kaur, G. and Bajaj, K.L. (1987). Effect of room storage on the acidity and pigments in tomato (Lycopersicon esculentum Mill.) at different stages of maturity. Indian Food Packer. 41(3): 19.
Kaur, G; Kanwar, J.S. and Nandpuri, K.S. (1977). Effect of maturity stages on the storage of tomato. The Punjab Horticultural J. 17: 70-74.
Kaynas, K. and Surmeli, N. (1995). Characteristics changes at various ripening stages of tomato fruits stored at different temperatures. Turkis J. Agric. Forestry. 19: 277-285
Ke, D. and Boersig, M. (1996). Sensory and chemical analysis of tomato flavor. Hort Sci. 31(4): 599.
Kerbel, E.L; Kader, A.A. and Zagory, D.(1999). Modified atmosphere packaging of fruits and vegetables. Crit Rev Food Sci Nutr. 28:1–30.
Kidd, F. and West, C. (1932). Gas storage of tomatoes. Great Brit. Dept. Sci. Indus. Res. Food Invest. Board Rept. 209 - 21 1.
Kitinoja, L. and Kader, A. A. (1995). Postharvest Horticulture series no. 8 - March, Small-scale postharvest handling practices - A manual for horticultural crops 3rd edition © Department of Pomology university of California - Davis,
Klieber, A; Ratanachinakorn, B. and Simons, D. H.(1996). Effects of low oxygen and high carbon dioxide on tomato cultivar “Bermuda” fruit physiology and composition. Sci. Hortic. 65: 251-261.
Knee (1980). Photosynthetic response of corn and soybean to foliar application of salicylates. J. Plant Physiology. 160:485-182.\
Koksal AL (1989). Research on the storage of pomegranate (CV. ‘Gokbahce’) under
different conditions. Acta Hortic. 285: 795-802. Lambeth V.N and Ibarbia EA. (1964) Tomato fruit size and quality
interrelationships. LAmer. Soc. Hort. Sci. 96: 199-201. Lange, D.L. (2000). New film technologies for horticultural products. HortTechnol
10(3):487–90.
Larmond, E.,(1977).Laboratory methods for sensory evaluation of foods. Research Branch, Canada. Deptt of Agri. Pub No.1637.
Latapi G, Barrett DM (2006). Influence of pre-drying treatments on quality and safety of sun-dried tomatoes .Part II : Effects of storage on nutritional and sensory quality of sun-dried tomatoes pre- treated with sulfur , sodium metbisulfite or salt . J. Food Sci. 71(1): S32-S37.
Lee, D.S; Haggar, P.E; Lee, J. and Yam, K.L. (1991). Model for fresh produce respiration in modified atmospheres based on principles of enzyme kinetics. J Food Sci. 56:1580–5.
Lee, L; Arul, J; Lencki, R. and Castaigne, F. (1996). A review on modified atmosphere packaging and preservation of fresh fruits and vegetables: physiological basis and practical aspects-part 2. Packaging Technol. Sci. 9: 1-17
Lee, S. K. and Kader, A. A. (2000). Preharvest and postharvest factors influencing vitamin C content of horticultural crops. Postharvest Biology and Technol. 20:207-220.
Lingaiah, H.B. (1982). Effect of pre-cooling, waxing and prepackaging of field bean, bell pepper, carrot and tomato on their shelf life and quality. M.Sc. (Agri.) Thesis, University of Agricultural Sci.s, Bangalore.
Lyon, D.H; Francombe, M.A; Hasdell, T.A. and Lawson, K. (1992). Guidelines for sensory analysis in food product development and quality control. Chapman and Hall, London, New York, Tokyo, Melbourne, Madras, pp. 131.
Mahajan, P; Oliveira, F. J. M. and Frias, J. (2007). Development of user-friendly software for design of modified atmosphere packaging for fresh and fresh-cut produce. Innovative Food Sci. and Emerging Technologies. 8(1):84–92
Makino Y. (1999). Development of respiration models for modified atmosphere packaging of horticultural commodities. Japan Agric Rev Quart 33:185–92.
Mannapperuma, J.D. and Singh, R.P. (1987). A Computer-Aided Model for Gas Exchange in Fruits and Vegetables in Polymeric Packages. Paper No. 87-6526, presented at Int. meeting of the ASAI: December 15-18, Chicago (USA)
Mannapperuma, J.D; Zagory, D; Singh, R.P. and Kader A.A. (1989). Design of polymeric packages for modified atmosphere storage of fresh produce. In: Proc. of the Fifth Int. Controlled Atmosphere Research Conf. Wenatchee, W.A., June 14–16 p 225–33.
Markakis, P; Maliwaski, W; Pantos, C.E. and Boloo, R.(1974). Ascorbic acid content of tomatoes ripened on or off in vine. IV International Congress of Food Sci. and Technol. pp. 89-91
Martínez-Romero, D; Guillén, F; Castillo, S; Zapata, P. J; Valero, D. and
Serrano, M.(2009). Effect of concentration on quality parameters of fresh tomatoes using a carbon-heat hybrid ethylene scrubber. Postharvest Biology and Technol., 51, 206–211. OECD. (2009). Guidance on objective tests to determine quality of fruits and vegetables fresh and dry and dried produce.
Matto, A.K; Murata, T; Pantastico, E.B; Chachin, K; Ogata, K. and Phan, C.T. (1975). Chemical changes during ripening and senescence, in postharvest
physiology, handling and utilization of tropical and sub tropical fruit and vegetabes, AVI Publishing, Westport, CT. pp. 13- 15.
Mazumdar, B.C. and Majumder, K. (2003). Methods on Physico-chemical Analysis of Fruits, Daya Publ. House, Delhi, India, pp: 93-139.
McGlasson, W.B. (1989). Objective measurement of quality of fresh market tomatoes. Acta Hortic. 247: 373±376.
McGlasson, W.B; Kast, J.H; Shaw, K.J. and Meldrum, S.K. (1987). Influence of the non-ripening mutants rin and nor on the aroma of tomato fruit. HortSci. 22(4):, 632±634.
McLauchlan, C; Hayata, Y; Kozuka, H; Sakamoto, K and Osajima,Y.(1997) Application of the Porapak Q column extraction method for tomato flavor volatile analysis. J. Agric. Food Chem. 50: 3401-3404.
Merts, D.J; Cleland, N.H; Banks, A.C. and Cleland (1993). Mathematical model of a modified atmosphere packaging system for horticultural produce, Sci. Technol. Froid. 3 443.
Moleyar, V. and Narasimham, P. (1994). Modified atmosphere packaging of vegetables: an appraisal. J. of Food Sci. and Technol. 31: 267-278
Mustafa, A. and Al. Mughrabi. (1994). Effect of packaging methods on the quality changes in tomato (Lycopersicon esculentum Mill.) during storage. Indian Food Packer, July-August, pp. 9-13.
Nagetey, F.K; Mao, L.C. and Mao, L.C. (1999). Hot water immersion alleviates chilling injury in tomato fruit. Acta.Horticulturae. 11(2): 67-72.
Naik, D.M; Mulekar, V.G; Chandel, C.G. and Kapse, B.M. (1993). Effect of prepackaging on physico-chemical changes in tomato (Lycopersicon esculentum Mill.) during storage. Indian Food Packer, July-August, pp. 9-13.
Nakhasi, S; Schlimme, D. and Solomos, T. (1991). Storage potential of tomatoes harvested at the breaker stage using modified atmosphere packaging. J. of Food Sci. 56(1): 55-59.
Ngcobo, M.E.K; Opara, U.L. and Thiart, G.D. (2012). Effects of packaging liners on cooling rate and quality attributes of table grape (cv. Regal Seedless). Packaging Technol. and Sci. 25: 73–84.
Oliveira, N. S; Gonzalves, C. M; Coutinho, J. A. P; Ferreira, A; Dorgan, J. and Marrucho, I. M. (2006). Carbon dioxide, ethylene and water vapor sorption in polylactic acid. Fluid Phase Equilibria. 250(1–2): 116–124.
Onwuzulu, O.C; Prabha, T.N. and Ranganna, S.(1995). Modified atmosphere storage of ripening tomatoes : effect on quality and metabolism of 14C-glucose and 14C – acetate. Tropical Sci. 35: 251-258.
Padmini T. (2006). Studies on Storage Behaviour of Tomatoes Coated with Chitosan-Lysozyme Films. Ph. D thesis, McGill University, Canada
Pan, J. and Bhowmik, S.R.(1989). Quality and shelf life of tomatoes stored in controlled atmosphere storage. Poster presented at the 49th Annual Meeting of the Institute of Food Technologists, Chicago, IL.
Pandey, S.K. and Goswami, T.K. (2012). Modelling perforated mediated modified atmospheric packaging of capsicum. International J. of Food Sci. and Technol. 47: 556–563.
Panse, V.G. and Sukhatme, P.V.(1967). Statistical methods for agricultural workers (2nd Ed.), I.A.R.I., New Delhi
Parry, R.T. (Ed.) (1993). Principles and Applications of Modified Atmosphere Packaging of Food, Blackie, Glasgow,.
Paul D.R. and Yampol’skii Y.P. (1994). Polymeric Gas Separation Membranes, CRC Press, Boca Raton,. (Eds.),
Pauly, S.(1989). Permeability and diffusion data. In: Bandrup J, Immergut EH, editors.Polymer handbook, 3rd ed. New York, N.Y.: John Wiley and Sons. p 435–49.
Peppelenbos, H. W., and Leven, J. (1996). Evaluation of four types of inhibition for modelling the influence of carbon dioxide on oxygen consumption fruits and vegetables. Postharvest Biology and Technol. 7: 27–40
Pharr, D. M. and Kattan, A. A. (1971). Effects of air flow rate, storage temperature and harvest maturity on respiraton and ripening of tomato fruits, Plant Physiol. 48:53-55
Phillips, C.A. (1996). Review: modified atmosphere packaging and its effects on the microbiological quality and safety of produce. Intl J. Food Sci. Technol. 31:463-79.
Ping, L.L; Tao, H; Li, L.P. and Han, T. (1996). Study on response of heated tomato after cold storage. Transactions of the Chinese Society of Agricultural Engineering. 12(4): 189-193.
Plocharski, A.S. (1982). Flavour of Tomato and tomato products. Food Rev. Int. 2:309-351.
Prakash, V. (2000). New Development in Processing of Horticultural Crops. In Abstracts publ ished in “National Seminar on Hi-Tech. Horticulture” organized by NAAS and Hort . Soc. of India, New Delhi and I IHR, Bangalore (26- 28t h June, 2000) Abstr . No. 64 p. 159.
Pralkash, A; Chen P. C; Pilling R. L; Johnson N. and Foley D. (2007). 1% calcium chloride treatment in combination with gamma irradiation improves microbial and physicochemical properties of diced tomatoes. J. of Food-borne Pathogen and Disease. 4(1): 89.
Prasad, M.(1995). Development of modified atmosphere packaging system with permselective films for storage of red delicious apples. Unpublished Ph.D.Thesis, Department of Agriculture and Food Engineering, Indian Institute of Technol., Kharagpur, India,.
Raghavan, G. S. V; Alvo, P; Gariépy, Y. and Vigneault, C. (1996). Refrigerated and controlled modified atmosphere storage. In: Somoguy LP, Ramaswamy HS, Hui YH, editors. Processing fruits: Sci. and Technol.. Lancaster, PA: Technomic Publishing Co. p 135-67.
Rahman K; Nielsen, P. V; Bertelsen, G; Lawther, M; Olsen, M. B; Nilsson, N. H. and Mortensen, G. (1993.) Potential of bio based materials for food packaging, Trends. Food Sci. Technol., Vol 10,2, p52- 68
Ranganna, S. (1977). Manual of analysis of fruit and vegetable products. Tata McGraw Hill Publishing Co. Ltd., New Delhi.
Rao, A. and Agarwal, S. (1999). Role of lycopene as antioxidant carotenoid in the prevention of chronic diseases: a review. Nutr. Res. 19(2): 305-323.
Raupp J (1996). Quality of plant products grown with manure fertilization. In comparision of food quality organically versus conventionally grown vegetables.
Renault, P; Souty, M. and Chambroy,Y.(1994). Gas exchange in modified atmosphere packaging. 1: A new theoretical approach for micro-perforated packs. International J. of Food Sci. and Technol. 29: 365-378.
Rennie, T. J. and Tavoularis, S. (2009). Perforation-mediated modified atmosphere packaging part I. Development of a mathematical model. Postharvest Biology and Technol. 51: 1–9.
Rhim, J. W. and Kim, J. H. (2009). Properties of poly(lactide)-coated paperboard for
the use of 1-way paper cup. J. of Food Sci. 74(2): 105–111. Rhim, J. W; Lee, J. H. and Hong, S. I. (2007). Increase in water resistance of
paperboard by coating with poly(lactide). Packaging Technol. and Sci.20:392–402.
Richardson, A. R. and Kosittarkum, J. B. (1995). Quality of processing tomato
(Lycopersicon esculentum) fruit from four bloom dates in relation to optimal harvest timing. New Zealand J. of Crop and Horticultural Sci. 26:161-168.
Riquelme, L; Devlieghere, F; Van Beest M; de Kruijf, N. and Debevere,J. (1997). Developments in the active packaging of foods. Trends Food Sci.Tech. 10:77–86
Roberts, P.K; Sargent, S.A. and Fox, A.J. (2002). Effect of storage temperature on ripening and postharvest quality of grape and mini-pear tomatoes. Proc. Fla. State Hort. Soc. 115:80-84.
Robertson, G.L. (2006). Food packaging: principles and practice, 2nd ed. Taylor and Francis. Boca Raton, FL: CRC Press
Rodriguez-Aguilera, R. and Oliveira, J. (2009). Review of design engineering methods and applications of active and modified atmosphere packaging systems. Food Engineering Reviews. 1(1):66–83.
Rodríguez-Lafuente, A; Lerin, C. and Batlle, R. (2010). Active paraffin-based paper packaging for extending the shelf life of cherry tomatoes. J. of Agricultural and Food Chemistry. 58: 6780–6786.
Roonet M.L. (Ed.) (1995). Active Food Packaging, Blackie, Glasgow.
Rooney, M.L. (1995). Active Food Packaging, Blackie, Glasgow,. Madaiah N, Radhakr ishnaiah set tee G, Krishna Prakash MS, NauJunda Swamy AM, Patwardhan MX (1986) . Studies on the physicochemical characteristics of some new tomato varieties f or their suitability f or preparing tomato paste. Indian Food Packer , 40(3): 6-12.
Roussel, E. (2000). Les emballages absorbeurs d’oxygène. In: Gontard N, editor. Les Emballages Actifs. Paris, France: Tec and Doc. p 31–42.
Ryall, A.L. and Lipton, W.J. (1972). Handling, transportation and storage of fruits and vegetables. Vol 1. Vegetables and Melons. West Port, Connecticut, A VI.
Sablani, S. S; Opara, L. U. and Al-Balushi, K. (2006). Influence of bruising and storage temperature on vitamin C content of tomato fruit. J. of Food Agriculture and Environment. 4(1):54-56.
Saimbhi, M.C. (1969). Quality of different varieties of tomato at various stages of fruit maturity. J. of Research of Ludhiana. 6: 776-791.
Salisbury, A. and Ross, A.C. (1992). Measuring transpiration rates of tomato and other detached fruit. HortSci. 28: 1035-1038.
Salunkha, D.K; Jadhar, S.J. and Yu, M.H. (1974). Quality and nutritional composition of tomato fruits influenced by certain biochemical and physiological changes. Qualitas plantarum. 24: 85-113.
Salunkhe, D.K. and Wu, M.T. (1973). Effects of low oxygen atmosphere storage on ripening and associated biochemical changes of tomato fruits. J. of the American Society for Horticultural Sci.s. 98(1): 12-14.
Salunkhe, D.K; Boe, A.A. and Do, J.Y(1967). Some biochemical changes during the development and ripening of tomato fruits. Indian J. of Horticulture. 24: 160- 165.
Salunkhe, D.K; Do, J.Y; Pantastico, E.B. and Chachin, K. (1971). Chemical Modifications, in Postharvest physiology, Handling and Utilization of Tropical
and Subtropical Fruits and Vegtables, Pantastico EB, AVI Ed., Publishing, Westport CT, p. 148.
Sammi, S. and Masud, T. (2009). Effect of different packaging systems on the quality of tomato (Lycopersicon esculentum var. Rio Grande) fruits during storage. International J. of Food Sci. and Technol. 44: 918–926.
Sandhya, A. (2010). Modified atmosphere packaging of fresh produce:current status
and future needs. LWT-Food Sci. and Technol. 43: 381–392.
Sands, C.E. (1950). A review of chemical investigation of the tomato. U.S. Department of Agriculture and Technol. Bulletin, p. 859.
Sen A. M; Scaramagli, S; Costa, G; Sabatini, E; Ziosi, V; Biondi, S. and Torrigiani,P.(2002).Peach(Prunus persica) fruit ripening: Aminoetoxyvinylglycine (AVG) and exogenous polyamines affect ethylene emission and flesh firmness. Physiol. Plant. 114: 472-481.
Sethi, V.(1994). Efficacy of various preservatives for preserving whole tomato concentrate. Indian Food Packer. 48(1): 11-15.
Seyoum, T.W. (2002). The improvement of the shelf life of vegetables through pre and post harvest treatment. Ph.D. dissertation presented to the University of Free State. South Africa, p. 270.
Shibli, R.A; Erei fej K.I; Aj louni, M.A. and Hussain, A. (1995). Physico-chemical properties of fruits of four open pollinated tomato (Lycopersicon esculentum Mill.) cul t ivars grown under rainfed conditions in Jordan. J. Food Sc i. Technol. 32(6): 489-492.
Siddiqui, S; Gupta, O.P. and Pandey, U.C. (1986). Assessment of quality of tomato (Lycopersicon esculentum Mill.) varieties at various stages of fruit maturity. Progressive Horticulture. 18(1-2): 97-100.
Singh, B.K; Ray, P.K. and Mishra, K.A. (1983). Biochemical composition of tomato in relation to maturity on the vine. Indian Food Packer, May-June, pp. 72-75.
Siripatrawan, U. and Assatarakul, K. (2009). Methyl jasmonate coupled with modified atmosphere packaging to extend shelf life of tomato (Lycopersicon esculentum Mill.) during cold storage. International J. of Food Sci. and Technol. 44(5): 1065–1071.
Smith, J. P; Ramaswamy, H. S; Ranganna, B. and Raghavan, G. S. V. (2003).
Packaging of fruits and vegetables. In H. S. Ramaswamy, A. S. Mujumdar, G. S.V. Raghavan, and A. Chakraverty (Eds.), Handbook of postharvest Technol. (pp. 539–553). NewYork: Marcel Dekker.
Smith, J.S. and Hui, Y.H. (2004). Food Processing, Principles and applications. Blackwell Publishing Company, USA.
Smith, R.B. and Reyes, A.A. (1988). Controlled atmosphere storage of ontario- grown celery. J. of American Society for Horticultural Sci. 113(3): 390-394.
Smith, R.B; Song, J. and Reyes, A.A. (1987). Controlled atmosphere storage of
ontario-grown celery. J. of American Society for Horticultural Sci. 113(3): 390-394.
Smith, S.E. (1991). Post harvest diseases of selected commodities, In: Postharvest technology of horticultural crops. A.A. Kader (eds.) University of California, Division of Agriculture and Natural Resources, USA. Pp-136.
Smyth, A.B; Song J. and Cameron A.C. (1998). Modified atmosphere packaged cut iceberg lettuce: effect of temperature and O2 partial pressure on respiration and quality, J. Agric. Food Chem. 46 4556.
Somogyi, M. (1945). A new reagent for determination of sugar . J. Biol . Chem. pp. 160-161.
Sompoch, G. and Chanthaporn, C. (2006). Effect of calcium chloride infiltration on quality and storage life of tomato (Lycopersicon esculentum Mill). Proceeding of the 32nd Congress on Sci. and Technol. of Thailand.
Sowinska, M. and Koronbis, E. (1966). The effect of degree of maturity on the vitamin C. content of tomatoes. Prezem Spozyoo 5: 38-40.
Srivastava, R.P. and Kumar, S.(1993). Important methods for analysis of variance.
Stone, H; Sidel, J.L; Joel, O.S; Woolsey, A. and Singleton, R.C. (1974). Sensory evaluation by quantitative descriptive analysis. Food Technol. 28:, 24±34.
Subir, A. B; Song, J. and Cameron, A. C. (2011). Modified atmosphere packaged cut iceberg lettuce: effect of temperature and O2 partial pressure on respiration and quality. J. of Agricultural and Food Chemistry. 46: 4556–4562.
Syamal, M.M. (1991). Biochemical composition of tomato fruits during storage. Acta Horticulturae. 287: 369-374.
Talasila P.C. and Cameron A.C. (1997). Free-volume changes in flexible, hermetic packages containing respiring produce. J. Food Sci. 62: 659.
Talasila, P.C. and Cameron, A.C. (1997). Prediction equations for gases in flexible modified atmosphere packages of respiring produce are different than those for rigid packages. J. of Food Sci. 62: 926-930.
Talasila, P.C; Chau, K.V. and Brecht J.K. (1995). Design of rigid modified atmosphere packages for fresh fruits and vegetables. J. of Food Sci. 60: 758-761, 769.
Talukder, S; Khalequzzaman, K. M; Khuda, S.M.K.E; Islam, M.S. and Chowdhury,M.N.A. (2003). Prepackaging, storage losses and physiological
changes of fresh tomato as influenced by post harvest treatments. Pakistan J. of Biological Sci.s 6: 1205-1207
Tasdelen, O. and Bayindirli, L. (1998). Controlled atmosphere storage and edible coating effects on storage life and quality of tomatoes, J. Food Proc. Pres 22: 303-320
Thompson, J.F. (1998). Postharvest Technol. of Horticultural Crops Berkeley: Cooperative Extension, Univ. of California, Division of Agriculture and Natural Resources 192pp.
Tomkins, R.G. (1963). The effect of temperature, extent of evaporation and restriction of ventilation on the storage life of tomatoes. J. of Horticultural Sci, 38: 35- 347.
Toor, R.K. and Savage, G.P. (2006). Changes in major antioxidant components of tomatoes du Zagory ring post-harvest storage. Food Chemistry. 99: 724-727.
Tranchant, I. (1969). Practical Manual of Gas Chromatography. Elsevier Sci., Pub. Co., Amsterdam, The Netharlands, pp. 1-10
USDA. (2007). The US and World Situation: Fresh and Processed tomatoes.
Varoquaux, P and Wiley, R.C.(1994). Biological and biochemical changes in minimally processed refrigerated fruits and vegetables. In: Wiley RC (Ed.), Minimally Processed Refrigerated Fruits and Vegetables. Chapman and Hall, New York. pp. 226-268.
Vashista, A. (1998). Development of Ready- to-Drink tomato juice and instant soup f rom newly evolved tomato cultivars. M.Sc. Thesis submi t ted to Dept . of Food and Nutrition, CCS Haryana Agricultural University, Hisar ,India.vegetables and root crops: A Training Manual, Forest Finance Working Paper.
Wang, C.V. (1989). Chilling injury of fruit and vegetables. Food Revol. Int. 5(2): 209-236.
Wang, Z.F; Ying, T.J; Bao, B.L. and Huang, X.D. (2005). Characteristics of fruit ripening in tomato mutant epi,. J. Zhejiang Univ. Sci., 6B: 502-507.
Watada, A. E. (1987). Ethylene absorbent to maintain quality of lightly processed fruits and vegetables. J. Food Sci. 56: 1589-1592.
Watkins, C.B. (2000). Responses of Horticultural Commodities to High Carbon Dioxide as related to Modified Atmosphere Packaging. HortTechnol. 10(3): 501-506.
Weichmann, C. B. (1986). Responses to horticultural commodities to high carbon dioxide as related to modified atmosphere packaging. HortTechnol. 10: 501-506.
Whitaker, J.R. (1996). Enzymes: In Food Chemistry. (3rd ed.) O.R. Fennema (Ed.), Marcel Dekker, New York, p 431-530
Williamsl, H; Roth, U. and Friebe, A. (1994). Brassinosteroids-induced stress
tolerances of plants. Recent Res. Dev. Phytochem. 5: 169-183
Wills, R. (1981). Postharvest: an introduction to the physiology and handling of fruit and vegetables. McGlasson, Graham, and Joyce (ed). Avi Publishing Co., Connecticut, p 120.
Wills, R. H. H; Lee, T. H; Graham, W. B. and Hall, E. G. (1981). Postharvest: An Introduction to the Physiology and Handling of Fruit and Vegetables. New South Wells Press, Kensington.
Woolf, A. (1997). Effect of controlled atmosphere storage on the quality and carotenoid content of sliced persimmons and peaches, Postharvest Biol. Tec. 10: 89-97.
Y. Makino; Iwasaki, K. and Hirata, T. (1997). Application of transition state theory in model development for temperature dependence of fresh produce, J. Agric. Eng. Res. 67 47.
Yahia, E.M; Soto, G; Brecht, J; Gardea, A. and Steta, M. (2003). The effect of hot air treatments in air or in low oxygen atmosphere on the quality and antioxidants of tomato fruit. Acta Horticulturae. 604(1): 285-291.
Yang and Chinnan (1988). Mathematical modeling of gas exchange in modified atmosphere packaging. Transactions of the American Society of Agricultural Engineers. 34: 239–245.
Yang, C.C and Chinnan, M.S. (1988). Modeling the effect of O2 and CO2 on respiration and quality of stored tomatoes. Trans ASAE 31:920–5. MS20030013 Submitted 1/7/03, Revised 3/24/03, Accepted 4/8/03, Received 4/15/03
Zagory, D. (1990). Principles and practice of modified atmosphere packaging of horticultural commodities. In: Farber JM, Dodds KL, editors. Principles of modified-atmosphere and sous-vide product packaging. Lancaster, PA: Technomic Publishing Co Inc. p 175-204
Zagory, D. and Kader, A.A. (1988). Modified atmosphere packaging of fresh produce, Food Technol. 42: 70.
Zagory, D. and Kader, A.A.,(1988). Modified atmosphere packaging of fresh produce. Food Technol., 42 (9) : 70. fresh Hawaiian tropical and subtropical fruits. Acta Hort., 57: 151-153. http://www.actahort.org/books/57/57_19.htm
Zagory, D.(1995). Principles and practice of modified atmosphere packaging of horticultural commodities. In: Farber JM, Dodds KL, editors. Principles of modified-atmosphere and sous-vide product packaging. Lancaster, PA: Technomic Publishing Co Inc. p 175-204.
Znidarcic D. and Požrl, T. (2006). Comparative study of quality changes in tomato cv. ‘Malike’ (Lycopersicon esculentum Mill.) whilst stored at different temperatures. Acta Agriculturae Slovenica. 87(2):235-243.
Znidarcic, D; Trdan, S. and Zlatič, E. (2003). Impact of various growing methods on tomato (Lycopersicon esculentum Mill.) yield and sensory quality. Research Reports Biotechnical Faculty University of Ljubljana, Agriculture 81:341-348.