Grafted vegetables – the influence of rootstock and scion on postharvest quality

Alexopoulos A.A., Kondylis A., Passam H.C., 2007. Fruit yield and quality of watermelon in relation to grafting. J. Food Agric. Environ. 5: T178-179.Search in Google Scholar

Aloni B., Cohen R., Kar ni L., Aka s H., Edelstein M., 2010. Hormonal signaling in rootstock-scion interactions. Sci. Hortic. 127: 119-126.10.1016/j.scienta.2010.09.003Search in Google Scholar

Amadio A., 2004. Alternatives to methyl bromide adopted for cucurbit production in projects funded by Montreal Protocol. Proc. Fifth International Conference on Alternatives to Methyl Bromide, Lisbon: 71-74.Search in Google Scholar

Arvanitoyannis I.S., Khah E.M., Chr istak ou E.C., Bletsos F.A., 2005. Effect of grafting and modified atmosphere packaging on eggplant quality parameters during storage. Intl. J. Food Sci. Technol. 40: 311-322.10.1111/j.1365-2621.2004.00919.xSearch in Google Scholar

Bekhra di F., Kashi A., Delsha d M., 2011. Effect of three cucurbits rootstocks on vegetative and yield of 'Charleston Gray' watermelon. Intl. J. Plant Prod. 5: 105-110.Search in Google Scholar

Calatayud A., Roca D., Mar tínez P. F., 2006. Spatial- temporal variations in rose leaves under water stress conditions studied by chlorophyll fluorescence imaging. Plant Physiol. Biochem. 44: 564-573.10.1016/j.plaphy.2006.09.01517064922Search in Google Scholar

Calatayud A., San Bautista A., Pascual B., Mar otob J.V., López-Galar za S., 2013. Use of chlorophyll fluorescence imaging as diagnostic technique to predict compatibility in melon graft. Sci. Hortic. 149: 13-18.10.1016/j.scienta.2012.04.019Search in Google Scholar

Chávez-Mendoza C., Sánch ez E., Car vaja l-Millán E., Muñoz-Márquez E., Guevara -Aguilar A., 2013.Search in Google Scholar

Characterization of the nutraceutical quality and antioxidant activity in bell pepper in response to grafting. Molecules 18: 15689-15703.10.3390/molecules181215689627016724352022Search in Google Scholar

Cohen R., Tyutyunik J., Fallik E., Oka Y., Tadmor Y., Edelstein M., 2014. Phytopathological evaluation of exotic watermelon germplasm as a basis for rootstock breeding. Sci. Hort. 165: 203-210.10.1016/j.scienta.2013.11.007Search in Google Scholar

Colla G., Roupha el Y., Leonar di C., Bie Z., 2010. Role of grafting in vegetable crops grown under saline conditions. Sci. Hort. 127: 147-155.10.1016/j.scienta.2010.08.004Search in Google Scholar

Crino P., Lo Bianco C., Roupha el Y., Colla G., Saccar do F., Para tore A., 2007. Evaluation of rootstock resistance to Fusarium wilt and gummy stem blight and effect on yield and quality of a grafted ‘Inodorus’ melon. Hort. Sci. 42: 521-525.10.21273/HORTSCI.42.3.521Search in Google Scholar

Daunay M. C., 2008. Eggplant. In: Handbook of Plant Breeding: Vegetables II. J. Prohens and F. Nuez (eds), Springer, New York, USA: 163-220.10.1007/978-0-387-74110-9_5Search in Google Scholar

Davis A. R., Perk ins-Veazie P., 2005-2006. Rootstock effects on plant vigor and watermelon fruit quality. Cucurbit Genet. Coop. Rep. 28-29: 39-42.Search in Google Scholar

Davis A. R., Perk ins-Veazie P., Hassell R., Levi A., King S. R., Zha ng W., 2008a. Grafting effects on vegetable quality. Hort. Sci. 43: 1670-1672.10.21273/HORTSCI.43.6.1670Search in Google Scholar

Davis A. R., Perk ins-Veazie P., Saka ta Y., López- Galar za S., Mar oto J. V., Lee S. G., et al., 2008b. Cucurbit grafting. Crit. Rev. Plant Sci. 27: 50-74.10.1080/07352680802053940Search in Google Scholar

Di Gioia F., Serio F., Buttar o D., Ayala O., Santamar ia P., 2010. Influence of rootstock on vegetative growth, fruit yield and quality in ‘Cuore di Bue’, an heirloom tomato. J. Hort. Sci. Biotechnol. 85: 477-482.10.1080/14620316.2010.11512701Search in Google Scholar

Di Gioia F., Signore A., Serio F., Santamar ia P., 2013. Grafting improves tomato salinity tolerance through sodium partitioning within the shoot. Hort. Sci. 48: 855-862.10.21273/HORTSCI.48.7.855Search in Google Scholar

Djidonou D., Gao Z., Zha o X., 2013. Economic analysis of grafted tomato production in sandy soils in northern Florida. HortTechnology 23: 613-621.10.21273/HORTTECH.23.5.613Search in Google Scholar

Edelstein M., Tyutyunik J., Fallik E., Meir A., Tadmor Y., Cohen R., 2014. Horticultural evaluation of exotic watermelon germplasm as potential rootstocks. Sci. Hort. 165: 196-202.10.1016/j.scienta.2013.11.010Search in Google Scholar

Flores F. B., Sanch ez-Bel P., Estan M. T., Mar tinez- Rodriguez M. M., Moyano E., Mora les B., et al., 2010. The effectiveness of grafting to improve tomato fruit quality. Sci. Hort. 125: 211-217.10.1016/j.scienta.2010.03.026Search in Google Scholar

Gao J. H., Liao H. J., 2006. Effect of grafting on watermelon quality. China Cucurbits Veg. 5: 12-14.Search in Google Scholar

Gisbert C., Prohens J., Raigón M. D., Stommel J. R., Nuez F., 2011. Eggplant relatives as sources of variation for developing new rootstocks: Effects of grafting on eggplant yield and fruit apparent quality and composition. Sci. Hort. 128: 14-22.10.1016/j.scienta.2010.12.007Search in Google Scholar

Hassell R.L., Memmott F., Lierc e D.J., 2008. Grafting methods for watermelon production. HortScience 43: 1677-1679.10.21273/HORTSCI.43.6.1677Search in Google Scholar

Jang Y., Moon J.-H., Lee J.-W., Lee S. G., Kim S. Y., Chun C., 2013. Effects of different rootstocks on fruit quality of grafted pepper (Capsicum annuum L.). Korean J. Hort. Sci. Technol. 31: 687-699.10.7235/hort.2013.13047Search in Google Scholar

Khah E., 2011. Effect of grafting on growth, performance and yield of aubergine (Solanum melongena L.) in greenhouse and open-field. Intl. J. Plant Prod. 5: 359-366.Search in Google Scholar

King S.R., Davis A.R., Zha ng X., Crosby K., 2010. Genetics, breeding and selection of rootstocks for Solanaceae and Cucurbitaceae. Sci. Hort. 127: 106-111.10.1016/j.scienta.2010.08.001Search in Google Scholar

Kolayli S., Kara M., Tezca n F., Erim B., Sah in H., Ulusoy S., Aliyazicioglu R., 2010. Comparative study of chemical and biochemical properties of different melon cultivars: standard, hybrid, and grafted melons. J. Agric. Food Chem. 58: 9764-9769.10.1021/jf102408y20715772Search in Google Scholar

Kouassi K.C., Koff i-Nevry R., Guillaume L.Y., Yéssé Z.N., Koussémon M., Kab lan T., Atha nase K.K., 2012. Profiles of bioactive compounds of some pepper fruit (Capsicum L.) varieties grown in Côte D’Ivoire. Innovat. Rom. Food Biotechnol. 11: 23-31.Search in Google Scholar

Krumbein A., Schwar z D., 2013. Grafting: A possibility to enhance health-promoting and flavour compounds in tomato fruits of shaded plants? Sci. Hort. 149: 97-107.10.1016/j.scienta.2012.09.003Search in Google Scholar

Kubota C., 2008. Use of grafted seedlings for vegetable production in North America. Acta Hort. 770: 21-28.10.17660/ActaHortic.2008.770.2Search in Google Scholar

Kubota C., Mcclure M.A., Koka lis-Burelle N., Bausher M.G., Rosskopf E.N., 2008. Vegetable grafting: History, use, and current technology status in North America. Hort. Sci. 43: 1664-1669.10.21273/HORTSCI.43.6.1664Search in Google Scholar

Kyriac ou M.C., Soteriou G.A., 2012. Postharvest change in compositional, visual and textural quality of grafted watermelon cultivars. Acta Hort. 934: 985-991.10.17660/ActaHortic.2012.934.131Search in Google Scholar

Leal-Fernández C., Godoy-Hernández H., Núñez- Colín C.A., Anaya-López J.A., Villalobos-Reyes S., Castellanos J.Z., 2013. Morphological response and fruit yield of sweet pepper (Capsicum annuum L.) grafted onto different commercial rootstocks. Biol. Agric. Hortic. 29: 1-11. 10.1080/01448765.2012.746063Search in Google Scholar

Lee J.M., Oda M., 2003. Grafting of herbaceous vegetable and ornamental crops. Hort. Rev. 28: 61-124.10.1002/9780470650851.ch2Search in Google Scholar

Lee J.-M., Kubota C., Tsao S.J., Bie Z., Ech evarr ia P.H., Morra L., Oda M., 2010. Current status of vegetable grafting: diffusion, grafting techniques, automation. Sci. Hortic. 127: 93-105.10.1016/j.scienta.2010.08.003Search in Google Scholar

Liu H.Y., Zhu Z. J., Diao M., Guo Z. P., 2006. Characteristic of the sugar metabolism in leaves and fruits of grafted watermelon during fruit development. Plant Physiol. Commun. 42: 835-840.Search in Google Scholar

Liu N., Yang J.-H., Guo S.-G., Xu Y., Zha ng M.-F., 2013. Genome-wide identification and comparative analysis of conserved and novel microRNAs in grafted watermelon by high-throughput sequencing. PLOS ONE 8: 1-13.10.1371/journal.pone.0057359358256823468976Search in Google Scholar

López-Mar ín J., González A., Pérez-Alfocea F., Egea- Gilab ert C., Fernández J.A., 2013. Grafting is an efficient alternative to shading screens to alleviate thermal stress in greenhouse-grown sweet pepper. Sci. Hort. 149: 39-46.10.1016/j.scienta.2012.02.034Search in Google Scholar

Louws F.J., Rivar d C.L., Kubota C., 2010. Grafting fruiting vegetables to manage soilborne pathogens, foliar pathogens, arthropods and weeds. Sci. Hort. 127: 127-146.10.1016/j.scienta.2010.09.023Search in Google Scholar

Mauromica le G., Longo A.M.G., Lo Monac o A., 2011. The effect of organic supplementation of solarized soil on the quality of tomato fruit. Sci. Hort. 129: 189-196.10.1016/j.scienta.2011.03.024Search in Google Scholar

Meng C., Xu D., Son Y.-J., Kubota C., Lewis M., Tronstad R., 2014. An integrated simulation and AHP approach to vegetable grafting operation design. Comp. Electron. Agric. 102: 73-84.10.1016/j.compag.2014.01.007Search in Google Scholar

Miguel A., Mar oto J.V., 2000. Nuevas técnicas en el cultivo de la sandía (Citrullus lanatus (Thunb.) Matsum. and Nakai). Consellería de Agricultura, Pesca y Alimentación de la Generalitat Valenciana y Fundación Caja Rural Valencia. 37-38.Search in Google Scholar

Miguel A., Mar oto J.V., San Bautista A., Baixauli C., Cebolla V., Pascual B., López, S., Guar diola, J. L., 2004. The grafting of triploid watermelon is an advantageous alternative to soil fumigation by methyl bromide for control of Fusarium wilt. Sci. Hort. 103: 9-17.10.1016/j.scienta.2004.04.007Search in Google Scholar

Moha med F.H., Abd El-Hamed K.E., Elwa n M.W.M., Hussien M.N.E., 2014. Evaluation of different grafting methods and rootstocks in watermelon grown in Egypt. Sci. Hort. 168: 145-150.10.1016/j.scienta.2014.01.029Search in Google Scholar

Monca da A., Miceli A., Vetra no F., Mineo V., Planeta D., D’anna F., 2013. Effect of grafting on yield and quality of eggplant (Solanum melongena L.). Sci. Hort. 149: 108-114.10.1016/j.scienta.2012.06.015Search in Google Scholar

Nicoletto C., Tosini F., Sambo P., 2013. Effect of grafting and ripening conditions on some qualitative traits of ‘Cuore di bue’ tomato fruits. J. Sci. Food Agric. 93: 1397-1403.10.1002/jsfa.590623070949Search in Google Scholar

Oshiro N., Kuniyoshi K., Naka mura A., Arak i Y., Tamanaha K., Inaf uku Y., 2008. A case of food poisoning due to ingestion of eggplant, Solanum melongena, grafted on devil’s trumpet, Datura metel. Shokuhin Eiseigaku Zasshi 49: 376-379 [in Japanese].10.3358/shokueishi.49.37619029791Search in Google Scholar

Passam H.C., Stylianoy M., Kotsira s A., 2005.Search in Google Scholar

Performance of eggplant grafted on tomato and eggplant rootstocks. Eur. J. Hort. Sci. 70: 130-134.Search in Google Scholar

Proietti S., Roupha el Y., Colla G., Car dra elli M., De Aga zio M., Zacch ini M., Rea E., Mosca tello S., Battistelli A., 2008. Fruit quality of miniwatermelon as affected by grafting and irrigation regimes. J. Sci. Food. Agric. 88: 1107-1114.10.1002/jsfa.3207Search in Google Scholar

Ricárdez-Salinas M., Huitrón-Ramírez M.V., Tello- Mar quina J.C., Camach o-Ferr e F., 2010. Planting density for grafted melon as an alternative to methyl bromide use in Mexico. Sci. Hort. 126: 236-241.10.1016/j.scienta.2010.07.022Search in Google Scholar

Roupha el Y., Schwar z D., Krumbein A., Colla G., 2010. Impact of grafting on product quality of fruit vegetables. Sci. Hort. 127: 172-179.10.1016/j.scienta.2010.09.001Search in Google Scholar

San Bautista A., Calatayud A., Neba uer S.G., Pascual B., Mar oto J.V., López-Galar za S., 2011. Effects of simple and double grafting melon plants on mineral absorption, photosynthesis, biomass and yield. Sci. Hort. 130: 575-580.10.1016/j.scienta.2011.08.009Search in Google Scholar

Sánch ez-Rodríguez E., Leyva R., Constán-Aguilar C., Romero L., Ruiz J.M., 2014. How does grafting affect the ionome of cherry tomato plants under water stress? Soil Sci. Plant Nutr. 60: 145-155.10.1080/00380768.2013.870873Search in Google Scholar

Savvas D., Colla G., Roupha e, Y., Schwar z D., 2010. Amelioration of heavy metal and nutrient stress in fruit vegetables by grafting. Sci. Hort. 127: 156-161.10.1016/j.scienta.2010.09.011Search in Google Scholar

Savvas D., Savva A., Ntatsi G., Ropokis A., Kara panos I., Krumbein A., Olympios C., 2011. Effects of three commercial rootstocks on mineral nutrition, fruit yield, and quality of salinized tomato. J. Plant Nutr. Soil Sci. 174: 154-162.10.1002/jpln.201000099Search in Google Scholar

Schwar z D., Roupha el Y., Colla G., Venema J.H., 2010. Grafting as a tool to improve tolerance of vegetables to abiotic stresses: thermal stress, water stress and organic pollutants. Sci. Hort. 127: 162-171.10.1016/j.scienta.2010.09.016Search in Google Scholar

Shotorba ni N., Jamei R., Heidar i R., 2013. Antioxidant activities of two sweet pepper Capsicum annuum L. varieties phenolics extracts and the effects of thermal treatment. Avicenna J. Phytomed. 3: 25-34.Search in Google Scholar

Soteriou G.A., Kyriac ou M.C., Siomos A.S., Gera sopoulos D., 2014. Evolution of watermelon fruit physicochemical and phytochemical composition during ripening as affected by grafting. Food Chem. 165: 282-289.10.1016/j.foodchem.2014.04.12025038677Search in Google Scholar

Taylor M., Bruton B., Fish W., Roberts W., 2006. Economics of grafted vs conventional watermelon plants. Hort. Sci. 41: 519-520.10.21273/HORTSCI.41.3.519DSearch in Google Scholar

Temperini O., Calabr ese N., Temperini A., Roupha el Y., Tesi R., Lenzi A., Car ito A., Colla G., 2013. Grafting artichoke onto cardoon rootstocks: Graft compatibility, yield and Verticillium wilt incidence. Sci. Hort. 149: 22-27. 10.1016/j.scienta.2012.06.014Search in Google Scholar

Tian S.B., Ashraf M.A., Kondo N., Shiigi T., Momin M.A., 2013. Optimization of machine vision for tomato grafting robot. Sensor Lett. 11: 1190-1194.10.1166/sl.2013.2899Search in Google Scholar

Tsaba lla A., Atha nasiadis C., Pasentsis K., Ganopoulos I., Nianiou-Obeidat I., Tsaf tar is A., 2013. Molecular studies of inheritable grafting induced changes in pepper (Capsicum annuum) fruit shape. Sci. Hort. 149: 2-8.10.1016/j.scienta.2012.06.018Search in Google Scholar

Verzera A., Dima G., Tripodi G., Condurso C., Crinò P., Romano D., Mazzag lia A., Lanza C. M., Restuccia C., Para tore A., 2014. Aroma and sensory quality of honeydew melon fruits (Cucumis melo L. subsp. melo var. inodorus H. Jacq.) in relation to different rootstocks. Sci. Hort. 169: 118-124.10.1016/j.scienta.2014.02.008Search in Google Scholar

Vinkovic Vrc ek I., Samobor V., Bojic M., Medic- Sar ic M., Vukobra tovic M., Erha tic R., Horvat D., Matotan Z., 2011. The effect of grafting on the antioxidant properties of tomato (Solanum lycopersicum L.). Span. J. Agric. Res. 9: 844-851.10.5424/sjar/20110903-414-10Search in Google Scholar

Wu C.-C., Cha ng Y.-C., Chiu Y.-C., 2007. Study on physiological metabolism of tomato grafted seedlings. J. Taiwan Soc. Hort. Sci. 53: 195-203.Search in Google Scholar

Xu C. Q., Li T. L., Qi H. Y., 2006a. Effects of grafting on development, carbohydrate content, and sucrose metabolizing enzymes activities of muskmelon fruit. Acta Hort. Sinica 33: 773-778.Search in Google Scholar

Xu C. Q., Li T. L., Qi H. Y., Wang H., 2006b. Effects of grafting on development and sugar content of muskmelon fruit. J. Shenyang Agric. Univ. 37: 378-381.Search in Google Scholar

Zha o X., Guo Y., Huber D.J., Lee J., 2011. Grafting effects on postharvest ripening and quality of 1-methylcyclopropene-treated muskmelon fruit. Sci. Hort. 130: 581-587.10.1016/j.scienta.2011.08.010Search in Google Scholar

Zhuang Y., Chen L., Sun L., Cao J., 2012. Bioactive characteristics and antioxidant activities of nine peppers. J. Funct. Foods 4: 331-338. 10.1016/j.jff.2012.01.001Search in Google Scholar