[Alberici A., Quattrini E., Penati M., Schiavi M., Martinetti L., Marino Gallina P., Ferrante A., 2008. Effect of the reduction of nutrient solution concentration on leafy vegetables quality grown in floating system. Acta Hortic. 801, 1167-1176.10.17660/ActaHortic.2008.801.142]Search in Google Scholar
[Barber M.J., Notton B.A., Kay C.J., Solomonson L.P., 1989. Chloride inhibition of spinach nitrate reductase. Plant Physiol. 90, 70-94.10.1104/pp.90.1.70]Search in Google Scholar
[Bell L., Oruna-Concha M.J., Wagstaff C., 2015. Identification and quantification of glucosinolate and flavonol compounds in rocket salad (Eruca sativa, Eruca vesicaria and Diplotaxis tenuifolia) by LC–MS: Highlighting the potential for improving nutritional value of rocket crops. Food Chem. 172, 852-861.10.1016/j.foodchem.2014.09.116]Search in Google Scholar
[Bennett R.N., Carvalho R., Mellon F.A., Eagles J., Rosa E.A., 2007. Identification and quantification of glucosinolates in sprouts derived from seeds of wild Eruca sativa L. (salad rocket) and Diplotaxis tenuifolia L. (wild rocket) from diverse geographical locations. J. Agric. Food Chem. 55, 67-74.10.1021/jf061997d]Search in Google Scholar
[Bennett R.N., Rosa E.A., Mellon F.A., Kroon P.A., 2006. Ontogenic profiling of glucosinolates, flavonoids, and other secondary metabolites in Eruca sativa (salad rocket), Diplotaxis erucoides (wall rocket), Diplotaxis tenuifolia (wild rocket), and Bunias orientalis (Turkish rocket). J. Agric. Food Chem. 54, 4005-4015.10.1021/jf052756t]Search in Google Scholar
[Bianco V.V., 1995. Rocket, an ancient underutilized vegetable crop and its potential. In: Rocket Genetic Resource Network. S. Padulosi (Ed.), International Plant Genetic Resources Institute, Rome, Italy, 35-57.]Search in Google Scholar
[Bianco V.V., Boari F., 1996. Up-to-date developments on wild rocket cultivation. In: Rocket: A Mediterranean Crop for the World. Report of a Workshop, Legnaro (Italy) 13-14 December 1996. S. Padulosi and D. Pignone (Eds), International Plant Genetic Resources Institute, Rome, Italy, 41-49.]Search in Google Scholar
[Blom-Zandstra M., 1989. Nitrate accumulation in vegetables and its relationship to quality. Ann. Appl. Biol. 115, 553-561.10.1111/j.1744-7348.1989.tb06577.x]Search in Google Scholar
[Bonasia A., Lazzizera C., Elia A., Conversa G., 2017. Nutritional, biophysical and physiological characteristics of wild rocket genotypes as affected by soilless cultivation system, salinity level of nutrient solution and growing period. Front. Plant Sci. 8, 300.10.3389/fpls.2017.00300]Search in Google Scholar
[Bouchereau A., Hamelin J., Lamour I., Renard M., Larher F., 1991. Distribution of sinapine and related compounds in seeds of Brassica and allied genera. Phytochemistry 30, 1873-1881.10.1016/0031-9422(91)85031-T]Search in Google Scholar
[Brock A., Herzfeld T., Paschke R., Koch M., Draeger B., 2006. Brassicaceae contain nortropane alkaloids. Phytochemistry 67, 2050-2057.10.1016/j.phytochem.2006.06.02416884746]Search in Google Scholar
[Bruno S., Amico A., Stefanizzi L., 1980. Vitamin C content of edible and medicinal plants of the Apulian region. Boll. Soc. Ital. Biol. Sper. 56, 2067-2070.]Search in Google Scholar
[Caruso G., Conti S., La Rocca G., 2011. Influence of crop cycle and nitrogen fertilizer form on yield and nitrate content in different species of vegetables. Adv. Hortic. Sci. 25, 81-89.]Search in Google Scholar
[Caruso G., Parrella G., Giorgini M., Nicoletti R., 2018. Crop systems, quality and protection of Diplotaxis tenuifolia. Agriculture 8, 55.10.3390/agriculture8040055]Search in Google Scholar
[Cavarianni R.L., Cecílio Filho A.B., Cazetta J.O., May A., Corradi M.M., 2008. Nutrient contents and production of rocket as affected by nitrogen concentrations in the nutritive solution. Sci. Agric. 65, 652-658.10.1590/S0103-90162008000600013]Search in Google Scholar
[Colla G., Kim H.J., Kyriacou M.C., Rouphael Y., 2018. Nitrate in fruits and vegetables. Sci. Hortic. 237, 221-238.10.1016/j.scienta.2018.04.016]Search in Google Scholar
[D’Antuono L.F., Elementi S., Neri R., 2009. Exploring new potential health-promoting vegetables: Glucosinolates and sensory attributes of rocket salads and related Diplotaxis and Eruca species. J. Sci. Food Agric. 89, 713-722.10.1002/jsfa.3507]Search in Google Scholar
[De Vos A.C., Broekman R., de Almeida Guerra C.C., van Rijsselberghe M., Rozema J., 2013. Developing and testing new halophyte crops: A case study of salt tolerance of two species of the Brassicaceae, Diplotaxis tenuifolia and Cochlearia officinalis. Environ. Exp. Bot. 92, 154-164.10.1016/j.envexpbot.2012.08.003]Search in Google Scholar
[Delaveau P., Paris R., 1958. Sur la composition chimique de l’essence de Diplotaxis tenuifolia (L.) D.C. Ann. Pharm. Fr. 16, 81-86.]Search in Google Scholar
[Di Benedetto P., Giordano A., 2011. Tecnica colturale per la quarta gamma. In “Le insalate”, Bayer Crop Science, www.colturaecultura.it.]Search in Google Scholar
[Erice G., Sanz-Sáez A., Aranjuelo I., Irigoyen J.J., Aguirreolea J., Avice J.-C., Sánchez-Díaz M., 2011. Photosynthesis, N2 fixation and taproot reserves during the cutting regrowth cycle of alfalfa under elevated CO2 and temperature. J. Plant Physiol. 168, 2007-2014.10.1016/j.jplph.2011.07.007]Search in Google Scholar
[Fahey J.W., Zalemann A.T., Talalay P., 2001. The chemical diversity and distribution of glucosinolates and isothiocyanates among plants. Phytochemistry 56, 5-51.10.1016/S0031-9422(00)00316-2]Search in Google Scholar
[Gallie D.R., 2013. Ascorbic acid: a multifunctional molecule supporting plant growth and development. Scientifica 2013, 795964, http://dx.doi.org/10.1155/2013/795964.10.1155/2013/795964382035824278786]Search in Google Scholar
[Giordano S., Molinaro A., Spagnuolo V., Muscariello L., Ferrara R., Cennamo G., Aliotta G., 2005. In vitro allelopathic properties of wild rocket (Diplotaxis tenuifolia DC) extract and of its potential allelochemical S-glucopyranosyl thiohydroximate. J. Plant-Microbe Interact. 1, 51-60.10.1080/17429140500138897]Search in Google Scholar
[Guo R., Yuan G., Wang Q.J., 2013. Effect of NaCl treatments on glucosinolate metabolism in broccoli sprouts. J. Zhejiang Univ.-Sc. B, 14(2), 124-131.10.1631/jzus.B1200096356640523365011]Search in Google Scholar
[Hall M.K.D., Jobling J.J., Rogers G.S., 2012. Factors affecting growth of perennial wall rocket and annual garden rocket. Int. J. Veg. Sci. 18, 393-411.10.1080/19315260.2012.660565]Search in Google Scholar
[Hu Y.C., Schmidhalter U., 2005. Drought and salinity: A comparison of their effects on mineral nutrition of plants. J. Plant Nutr. Soil Sci. 168, 541-549.10.1002/jpln.200420516]Search in Google Scholar
[Hurka H., Bleeker W., Neuffer B., 2003. Evolutionary processes associated with biological invasions in the Brassicaceae. Biol. Invasion 5, 281-292.10.1023/B:BINV.0000005571.19401.81]Search in Google Scholar
[Kyriacou M.C., Rouphael Y., 2018. Towards a new definition of quality for fresh fruits and vegetables. Sci. Hortic. 234, 463-469.10.1016/j.scienta.2017.09.046]Search in Google Scholar
[Maggio A., De Pascale S., Paradiso R., Barbieri G., 2013. Quality and nutritional value of vegetables from organic and conventional farming. Sci. Hortic. 164, 532-539.10.1016/j.scienta.2013.10.005]Search in Google Scholar
[Martínez-Laborde J.B., 1996. A brief account on the genus Diplotaxis. In: Rocket: A Mediterranean Crop for the World. S. Padulosi and D. Pignone (Eds), International Plant Genetic Resources Institute, Rome, Italy, 13-22.]Search in Google Scholar
[Martínez-Sánchez A., Gil-Izquierdo A., Gil M.I., Ferreres F.A., 2008. Comparative study of flavonoid compounds, vitamin C, and antioxidant properties of baby leaf Brassicaceae species. J. Agric. Food Chem. 56, 2330-2340.10.1021/jf072975+18321050]Search in Google Scholar
[Nicola S., Hoeberechts J., Fontana E., 2005. Comparison between traditional and soilless culture systems to produce rocket (Eruca sativa) with low nitrate content. Acta Hortic. 697, 549-555.10.17660/ActaHortic.2005.697.72]Search in Google Scholar
[Nitz G.M., Schnitzler W.H., 2002. Variation der glucosinolatgehalte bei den rucolaarten Eruca sativa und Diplotaxis tenuifolia in abhängigkeit des ernteschnittes. J. Appl. Bot. 76, 82-86.]Search in Google Scholar
[Pasini F., Verardo V., Cerretani L., Caboni M.F., D’Antuono L.F., 2011. Rocket salad (Diplotaxis and Eruca spp.) sensory analysis and relation with glucosinolate and phenolic content. J. Sci. Food Agric. 91, 2858-2864.10.1002/jsfa.453521725983]Search in Google Scholar
[Pignone D., 1996. Present status of rocket genetic resources and conservation activities. In: Rocket: A Mediterranean Crop for the World. Report of a Workshop, Legnaro (Italy) 13-14 December 1996. S. Padulosi and D. Pignone (Eds), International Plant Genetic Resources Institute, Rome, Italy, 2-12.]Search in Google Scholar
[Pimpini F., Enzo M., 1996. Present status and prospects for rocket cultivation in the Veneto region. In: Rocket: A Mediterranean Crop for the World. Report of a Workshop, Legnaro (Italy), 13-14 December 1996. S. Padulosi and D. Pignone (Eds), International Plant Genetic Resources Institute, Rome, Italy, 51-66.]Search in Google Scholar
[Pimpini F., Giannini M., Lazzarin R., 2005. Ortaggi da Foglia e da Taglio; Veneto Agricoltura: Venezia, Italy, 118.]Search in Google Scholar
[Rodriguez S.A., Vela Gurovic M.S., Mulet M.C., Murray A.P., 2006. Diplotaxis tenuifolia (L.) DC, a source of a potentially antifungal essential oil containing nitrile. Biochem. Syst. Ecol. 34, 353-355.10.1016/j.bse.2005.09.008]Search in Google Scholar
[Rouphael Y., Kyriacou M.C., Petropoulos S.A., De Pascale S., Colla G., 2018a. Improving vegetable quality in controlled environments. Sci. Hortic. 234, 275-289.10.1016/j.scienta.2018.02.033]Search in Google Scholar
[Rouphael Y., Petropoulos S.A., Cardarelli M., Colla G., 2018b. Salinity as eustressor for enhancing quality of vegetables. Sci. Hortic. 234, 361-369.10.1016/j.scienta.2018.02.048]Search in Google Scholar
[Santamaria P., Elia A., Serio F., 2002. Effect of solution nitrogen concentration on yield, leaf element content, and water and nitrogen use efficiency of three hydroponically-grown rocket salad genotypes. J. Plant Nutr. 25, 245-258.10.1081/PLN-100108833]Search in Google Scholar
[Santamaria P., Gonnella M., Elia A., Parente A., Serio F., 2001. Ways of reducing rocket salad nitrate content. Acta Hortic. 548, 529-536.10.17660/ActaHortic.2001.548.64]Search in Google Scholar
[Schiattone M.I., Viggiani R., Di Venere D., Sergio L., Cantore V., Todorovic M., et al., 2018. Impact of irrigation regime and nitrogen rate on yield, quality and water use efficiency of wild rocket under greenhouse conditions. Sci. Hortic. 229, 182-192.10.1016/j.scienta.2017.10.036]Search in Google Scholar
[Stefanelli D., Goodwin I., Jones R., 2010. Minimal nitrogen and water use in horticulture: Effects on quality and content of selected nutrients. Food Res. Int. 43, 1833-1843.10.1016/j.foodres.2010.04.022]Search in Google Scholar