Color Shade Nets Improve Vegetables Quality at Harvest and Maintain Quality During Storage

AGATI, G., BRUNETTI, C., FERDINANDO, M.D., FERRINI, F., POLLASTRI, S., TATTINI, M.: Functional roles of flavonoids in photo protection: new evidence, lessons from the past. Plant Physiology and Biochemistry, 72: 35-45, 201310.1016/j.plaphy.2013.03.01423583204Open DOISearch in Google Scholar

ALDRICH, H.T., SALANDANAN, K., KENDALL, P., BUNNING, M., STONAKER, F., OKTAY, K., STUSHNOFF, C.: Cultivar choice provides options for local production of organic and conventionally produced tomatoes with higher quality and antioxidant content. Journal of Science Food and Agriculture, 90: 2548-2555, 201010.1002/jsfa.411620718027Open DOISearch in Google Scholar

ALKALAI-TUVIA, S., GOREN, A., PERZELAN, Y., WEINBERG, T., FALLIK, E.: The influence of colored shade nets on pepper quality after harvest - a possible mode-of-action. Agriculture and Foresttry, 60: 7-18, 2014Search in Google Scholar

AMBRÓZY, Z.S., DAOOD, H., NAGY, Z.S., DARÁZSI, LEDÓ, H., HELYES, L.: Effect of net shading technology and harvest times on yield and fruit quality of sweet pepper. Applied Ecology and Environment Research, 14: 99-109, 201610.15666/aeer/1401_099109Open DOISearch in Google Scholar

APPLING, S.M., Colored shade cloth affects the growth of basil, cilantro, and parsley. M.S.c. thesis, Blacksburg, Virginia Polytechnic Institute and State University. 2012Search in Google Scholar

ARTHURS, S.P., STAMPS, R.H., GIGLIA, F.F.: Environmental modification inside photo-selective shade houses. Horticulturae Science, 48(8): 975-979, 2013Search in Google Scholar

BARKAI-GOLAN, R.: Postharvest diseases of fruits and vegetables: Development and Control. (1^st ed. ) Elsevier Science BV, Amsterdam, The Netherlands. 200110.1016/B978-044450584-2/50001-0Search in Google Scholar

BEN-YAKIR, D., ANTIGNUS, Y., OFFIR, Y., SHAHAK, Y.: Colored shading nets impede insect invasion and decrease the incidences of insect-transmitted viral diseases in vegetable crops. Entomologia Experimentalis et Applicata, 144: 249-257, 2012Search in Google Scholar

BENERAGAMA, C.K., GOTO, K.: Chlorophyll a:b ratio increases under low-light in ‘shade-tolerant’ Euglena gracilis. Tropical Agricultural Research, 22: 12-25, 2010Search in Google Scholar

BRANDT, S., PÉK, Z., BARNA, E., LUGASI, A., HELYES, L.: Lycopene content and colour of ripening tomatoes as affected by environmental conditions. Journal of the Science of Food and Agriculture, 86: 568-572, 200610.1002/jsfa.2390Open DOISearch in Google Scholar

BUTHELEZI, M.N.D., SOUNDY, P., JIFON, J., SIVAKUMAR, D.: Spectral quality of photo-selective nets improves phytochemicals and aroma volatiles in coriander leaves (Coriandrum sativum L. ) after postharvest storage. Journal of Photochemistry and Photobiology B: Biology, 161: 328-334, 2016Search in Google Scholar

CASTELLANO, S., SCARASCIA MUGNOZZA, G., RUSSO, G., BRIASSOULIS, D., MISTRIONIS, A., HEMMING, S., WAAIJENBERG, D.: Plastic nets in Agriculture: A General review of types and applications. Applied Engineering in Agriculture, 24: 799-808, 200810.13031/2013.25368Open DOISearch in Google Scholar

DÍAZ-PÉREZ, J.C.: Bell pepper (Capsicum annuum L. ) crop as affected by shade level: Microenvironment, plant growth, leaf gas exchange, and leaf mineral nutrient concentration. HortScience, 48: 175-182, 2013Search in Google Scholar

DÍAZ-PÉREZ, J.C.: Bell pepper (Capsicum annuum L. ) crop as affected by shade level: fruit yield, quality, and postharvest attributes, and incidence of phytophthora blight (caused by Phytophthora capsici Leon. ). HortScience, 49: 891-900, 2014Search in Google Scholar

DUMAS, Y., DADOMO, M., DI LUCCA, G., GROLIER, P.: Effects of environmental factors and agricultural techniques on antioxidant content of tomatoes. J. Sci. Food Agric. 83, 369-382, 200310.1002/jsfa.1370Open DOISearch in Google Scholar

EL-GIZAWY, A.M., ABDALLAH, M.M.F., GOMAA, H.M., MOHAMED, S.S.: Effect of different shading levels on tomato plants 2. Yield and fruit quality. Acta Horticulturae, 323: 349-354, 1992Search in Google Scholar

GAUTIER, H., ROCCI, A., BURET, M., GRASSELLY, D., CAUSSE, M.: Fruit load or fruit position alters response to temperature and subsequently cherry tomato quality. Journal of the Science Food and Agriculturae, 85:1009-1016, 2005Search in Google Scholar

GENT, M.P.N.: Density and duration of shade affect water and nutrient use in greenhouse tomato. J. Amer. Soc. Horticulturae Science, 133: 619-627, 2008Search in Google Scholar

GOREN, A., ALKALAI-TUVIA, S., PERZELAN, Y., AHARON, Z., FALLIK, E.: Photoselective shade nets reduce postharvest decay development in pepper fruits. Advances in Horticultural Science, 25: 26-31, 2011Search in Google Scholar

GONZALEZ-CEBRINO, F., LOZANO, M., AYUSO, M.C., BERNALTE, M.J., VIDAL-ARAGON, M.C., GONZALEZ-GOMEZ, D.: Characterization of traditional tomato varieties grown in organic conditions. Spanish Jouranl of Agricultural Research, 9: 444-452, 2011Search in Google Scholar

GUPTA, A., KAWATRA, A., SEHGAL, S.: Physical-chemical properties and nutritional evaluation of newly developed tomato genotypes. African Journal of Food Science and Technology, 2: 167-172, 2011.Search in Google Scholar

FALLIK, E., ALKALAI-TUVIA, S., PARSELAN, Y., AHARON, Z., ELMANN, A., OFFIR, Y., MATAN, E., YEHEZKEL, H., RATNER, K., ZUR, N., SHAHAK, Y.: Can colored shade nets maintain sweet pepper quality during storage and marketing? Acta Hortic. 830, 37-44, 200910.17660/ActaHortic.2009.830.3Search in Google Scholar

FAVORY, J.J., STEE, A., GRUBER, H., RIZZINI, L., ORAVEEZ, A., FUNK, M.: Interaction of COPI and UVR regulates UVB-induced photomorphogenesis and stress acclimation in Arabidopis. EMBO Journal, 28: 591-601, 200910.1038/emboj.2009.4265758619165148Open DOISearch in Google Scholar

FERNANDEZ-TRUJILLO, J.P., SERRANO, J.M., MARTINEZ, J.A.: Quality of red sweet pepper fruit treated with 1-MCP during a simulated post-harvest handling chain. Food Science and Technology International, 15: 23-30, 2009Search in Google Scholar

FERNÁNDEZ-TRUJILLO, J.P., LESTER, G. E., DOS-SANTOS, N., MARTÍNEZ, J. A., ESTEVA, J., JIFON, J. L., VARÓ, P.: Pre- and postharvest muskmelon fruit cracking: Causes and potential remedies. Hort Technolology. 23(3): 266-275, 2013Search in Google Scholar

FLAISHMAN, M.A., PELES, Y., DAHAN, Y., MILO-COCHAVI, S., FRIEMAN, A., NAOR, A.: Differential response of cell-cycle and cell-expansion regulators to heat stress in apple (Malus domestics) fruitlets. Plant Science, 233: 82-89, 2015Search in Google Scholar

ILIĆ, Z., MILENKOVIC, L., DUROVKA, M., KAPOULAS, N.: The effect of color shade nets on the greenhouse climate and pepper yield. In: Sym. Proceed. 46^th Croation and 6^th Inter Sym Agric. Opatija, pp. 529-533, 2011Search in Google Scholar

ILIĆ, Z.S., MILENKOVIĆ, L., STANOJEVIĆ, L., CVETKOVIĆ, D., FALLIK, E.: Effects of the modification of light intensity by color shade nets on yield and quality of tomato fruits. Scientia Horticulturae, 139, 90-95, 201210.1016/j.scienta.2012.03.009Search in Google Scholar

ILIĆ, S.Z., MILENKOVIĆ, L.: The influence of photoselective shade nets on quality of tomatoes grown under a plastic tunnels and field conditions. In: Book of Proceed. The 4^th Joint UNS - PSU Inter. Conf. BioScience. Biotechnology and Biodivesity. Novi Sad, pp. 25-34, 2012Search in Google Scholar

ILIĆ, S.Z., MILENKOVIĆ, L., ŠUNIĆ, L., FALLIK, E.: Effect of coloured shade-nets on plant leaf parameters and tomato fruit quality. Journal of the Science of Food and Agriculture, 95, 2660-2667, 201510.1002/jsfa.700025389124Search in Google Scholar

ILIĆ S.Z, FALLIK, E. : Light quality manipulation improve vegetables quality at harvest and postharvest: A review. Environmental and Experimental Botany. 139: 79-90, 2017Search in Google Scholar

ILIĆ, S.Z., MILENKOVIĆ, L., ŠUNIĆ, L., FALLIK, E.: Effect of shading by colour nets on plant development, yield and fruit quality of sweet pepper grown under plastic tunnels and open field. Zemdirbyste-Agriculture, 104 (1): 53-62, 2017aSearch in Google Scholar

ILIĆ S.Z., MILENKOVIĆ, L., DIMITRIJEVIĆ, A., STANOJEVIĆ, L., CVETKOVIĆ, D., MASTILOVIĆ, J., KEVREŠAN, Ž.: Effect of coloured shade-nets on yield and quality of lettuce (Lactuca sativa L. ) during summer production. Scientia Horticulturae. 226: 389-397, 2017bSearch in Google Scholar

FALLIK E., ILIĆ Z.: Pre and postharvest treatments affecting flavor quality of fruits and vegetables. p.139-169 In: Siddiqui M.W.(ed), Preharvest modulation of postharvest fruits and vegetables quality. AAP-CRC Press, USA. 201710.1016/B978-0-12-809807-3.00006-8Search in Google Scholar

KONG, Y., AVRAHAM, L., PERZELAN, Y., ALKALAI-TUVIA, S., RATNER, K., SHAHAK, Y., FALLIK, E.: Pearl netting affects postharvest quality in ’Vergasa’ sweet pepper via light environment manipulation. Scientia Horticulturae, 150: 290-298, 2013Search in Google Scholar

KOSMA, C., TRIANTAFYLLIDIS, V., PAPASAVVAS, A., SALAHAS, G., PATAKAS, A.: Yield and nutritional quality of greenhouse lettuce as affected by shading and cultivation season. Emirates Journal of Food and Agriculture 25: 974-979, 2013Search in Google Scholar

LOPEZ, D., CARAZO, N., RODRIGO, M.C., GARCIA, J.: Coloured shade nets effects on tomato crops quality. Acta Horticulturae, 747: 121-124, 2007Search in Google Scholar

MAKLED, A.M.H., ABOLMAATY, S.M., HASSANEIN, M.K., ABD EL-GHAFAR, N.Y.: Impact of type of greenhouse cover sheets on certain major cucumber pests under protected cultivation. New York Science Journal, 5: 19-24, 2012Search in Google Scholar

MASHABELA, M.N., SELAHLE, K.M., SOUNDY, P., CROSBY, K.M., SIVAKUMAR, D.: Bioactive compounds and fruit quality of green sweet pepper grown under different colored shade netting during postharvest storage. Journal of Food Science, 16: 2612-2618, 2015Search in Google Scholar

MILENKOVIĆ, L., ILIĆ, S.Z., ĐUROVKA, M., KAPOULAS, N., MIRECKI, N., FALLIK, E.: Yield and pepper quality as affected by light intensity using color shade nets. Agriculture and Forestry, 58: 19-23, 2012Search in Google Scholar

MEENA, R.K., VASHISTH, A., SINGH, R., SINGH, B., MANJAIH, K.M.: Study on change in microenvironment under different colour shade nets and its impact on yield of spinach (Spinacia oleracea L. ). J. Agrometeorology, 16: 104-111, 2014Search in Google Scholar

MILLER G., SUZUKI, N., YILMAZ, S., MITTLER R.: Reactive oxygen species homeostasis and signalling during drought and salinity stresses. Plant Cell and Environment, 33(4):453-467, 201010.1111/j.1365-3040.2009.02041.x19712065Open DOISearch in Google Scholar

MOLLER, M., ASSOULINE, S.: Effects of a shading screen on microclimate and crop water requirements. Irrigation Science, 25: 171-181, 200710.1007/s00271-006-0045-9Open DOISearch in Google Scholar

NTSOANE, M. L.: Effect of photo-selective nettings on plant growth, quality at harvest and after postharvest storage in lettuce varieties. M.S.c. thesis. Dep. Crop Sci. Fac. Sci. Tshwane University of Technology. Pretoria. South Africa, 2015Search in Google Scholar

OMBÓDI, A., PÉK, Z., SZUVANDZSIEV, P., TÓTHNÉ-TASKOVICS, Z., KOHÁZI-KIS, A., KOVÁCS, A., LEDÓNÉ DARÁZSI, H., HELYES, L.: Effects of external coloured shade nets on sweet peppers cultivated in walk-in plastic tunnels. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 43: 398-403, 2016Search in Google Scholar

PERUCKA, I., OLSZOWKA, K., CHILCZUK, B.: Changes in the chlorophyll content in stored lettuce (Lactuca sativa L. ) after pre-harvest foliar application of CaCl₂. Acta Agrobotanica, 66: 137-142, 201410.5586/aa.2013.060Open DOISearch in Google Scholar

RAJAPAKSE, N.M., SHAHAK Y.: Light quality manipulation by horticulture industry. In: Whitelam, G., Halliday, K. (Eds). Light and plant development. Annual Review of Plant Biology, 30: 290-312, 2007Search in Google Scholar

RIGA, P., ANZA, M., GARBISU, C.: Tomato quality is more dependent on temperature than on photosynthetically active radiation. Journal of the Science of Food and Agriculture, 88:158-166, 2008Search in Google Scholar

SANTANA, J.O., BALBINO, M.A., TAVARES, T.R., BEZERRA, R.S., FARIAS, J.G., FERREIRA, R.C.: Effect of photoselective screens in the development and productivity of red and yellow sweet pepper. Acta Horticulturae, 956: 493-500, 2012Search in Google Scholar

SCHREINER, M.: Phytochemicals in fruit and vegetables: health promotion and postharvest elicitors. Critical Reviews in Plant Sciences, 25: 267-278, 200610.1080/07352680600671661Open DOISearch in Google Scholar

SELAHLE, K.M., SIVAKUMAR, D., JIFON, J., SOUNDY, P.: Postharvest responses of red and yellow sweet peppers grown under photo-selective nets. Food Chemistry, 173: 951-956, 2015Search in Google Scholar

SHAHAK, Y.: Photoselective netting: an overview of the concept, R&D and practical implementation in agriculture. Acta Horticulturae, 1015: 155-162, 2014Search in Google Scholar

SHAHAK, Y.: Photo-selective netting for improved performance of horticultural crops. A review of ornamental and vegetable studies in Israel. Acta Horticulturae, 770: 161-168, 200810.17660/ActaHortic.2008.770.18Search in Google Scholar

STAMPS, R.H.: Use of colored shade netting in horticulture. HortScience, 44: 239-241, 2009Search in Google Scholar

TEITEL, M., LIRON, O., HAIM, Y., SEGINER, I.: Flow through inclined and concertina-shape screens. Acta Horticulturae, 801, 99-106, 200810.17660/ActaHortic.2008.801.5Search in Google Scholar

TINYANE, P.P., SIVAKUMAR, D., VAN ROOYEN, Z.: Influence of photo-selective shade nettings to improve fruit quality at harvest and during postharvest. ‘South African avocado growers Association’ Yearbook, 38, 2015Search in Google Scholar