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Journal of Essential Oil Research Volume 28, 2016 - Issue 4
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Articles

Analytical and sensory characterization of ‘Pesca di Leonforte’ (Prunus persica Batsch)

Concetta CondursoDepartment of Chemical Science, University of Messina, Messina, Italy
,
Gianluca TripodiDepartment of Chemical Science, University of Messina, Messina, Italy
,
Fabrizio CincottaDepartment of Chemical Science, University of Messina, Messina, ItalyCorrespondence[email protected]
,
Agata MazzagliaDepartment of Agriculture, Food and Environment, University of Catania, Catania, Italy
&
Antonella VerzeraDepartment of Chemical Science, University of Messina, Messina, Italy
Pages 292-298 | Received 20 Oct 2015, Accepted 30 Jan 2016, Published online: 18 Feb 2016

References

  • N. Parrott, W. Natasha and J. Murdoch, Spatializing quality: regional protection and the alternative geography of food. Eur. Urban Reg. Stud., 9, 241–261 (2002).
  • Commission implementing regulation (EU) n° 425/2013 of 7 May 2013.
  • A. Allegra, E. Barone, P. Inglese, A. Todaro and G. Sortino, Variability of sensory profile and quality characteristics for ‘Pesca di Bivona’and ‘Pesca di Leonforte’peach (Prunus persica Batsch) fresh-cut slices during storage. Postharvest Biol. Tec., 110, 61–69 (2015).
  • M. Scordino, L. Sabatino, A. Muratore, A. Belligno and G. Gagliano, Phenolic Characterization of Sicilian Yellow Flesh Peach (Prunus persicaL.) Cultivars at Different Ripening Stages. J Food Quality, 35, 255–262 (2012).
  • J.G. Bordonaba, C.M. Cantin, C. Larrigaudière, L. López, R. López and G. Echeverria, Suitability of nectarine cultivars for minimal processing: the role of genotype, harvest season and maturity at harvest on quality and sensory attributes. Postharvest Biol. Tec., 93, 49–60 (2014).
  • Y. Wang, C. Yang, S. Li, L. Yang, Y. Wang, J. Zhao and Q. Jiang, Volatile characteristics of 50 peaches and nectarines evaluated by HP–SPME with GC–MS. Food Chem., 116, 356–364 (2009).
  • A. Verzera, G. Dima, G. Tripodi, M. Ziino, C.M. Lanza and A. Mazzaglia, Fast quantitative determination of aroma volatile constituents in melon fruits by headspace–solid-phase microextraction and gas chromatography–mass spectrometry. Food Anal. Method., 4, 141–149 (2011).
  • C. Condurso, A. Verzera, G. Dima, G. Tripodi, P. Crinò, A. Paratore and D. Romano, Effects of different rootstocks on aroma volatile compounds and carotenoid content of melon fruits. Sci. Hortic., 148, 9–1 (2012).
  • UNI 10957, Analisi sensoriale - Metodo per la definizione del profilo sensoriale degli alimenti e bevande. Ente Nazionale Italiano di Certificazione, Milano, Italia (2003).
  • UNI EN ISO 8589, Sensory Analysis - General Guidance for the Design of Test Rooms. UNI: Ente Nazionale Italiano di Unificazione, Milano, Italia (2010).
  • V. Ferreira, N. Ortín, A. Escudero, R. López and J. Cacho, Chemical characterization of the aroma of Grenache rose wines: aroma extract dilution analysis, quantitative determination, and sensory reconstitution studies. J. Agri. Food Chem., 50, 4048–4054 (2002).
  • I.L. Francis and J.L. Newton, Determining wine aroma from compositional data. Austral. J. Grape Wine Res., 11, 114–126 (2005).
  • D. Kourkoutas, J.S. Elmore and D.S. Mottram, Comparison of the volatile compositions and flavour properties of cantaloupe. Galia and honeydew muskmelons. Food Chem., 97, 95–102 (2006).
  • J.M. Obando-Ulloa, E. Moreno, J. García-Mas, B. Nicolai, J. Lammertyn, A.J. Monforte and J.P. Fernández-Trujillo, Climacteric or non-climacteric behavior in melon fruit: 1. Aroma volatiles. Postharvest Biol. Tec., 49, 27–37 (2008).
  • I. Eduardo, G. Chietera, D. Bassi, L. Rossini and A. Vecchietti, Identification of key odor volatile compounds in the essential oil of nine peach accessions. J. Sci. Food Agr., 90, 1146–1154 (2010).
  • W.P. Xi, B.O. Zhang, L.I. Liang, J.Y. Shen, W.W. Wei, C.J. Xu and K.S. Chen Postharvest temperature influences volatile lacto ne production via regulation of acyl‐CoA oxidases in peach fruit. Plant Cell Envir., 35, 534–545 (2012).
  • R.J. Horvat and G.W. Chapman, Comparison of volatile compounds from peach fruit and leaves (cv. Monroe) during maturation. J. Agric. Food Chem., 38, 1442–1444 (1990).
  • R. Tressl and W. Albrecht, Biogenesis of aroma compounds through acyl pathways. In: Biogeneration of Aromas. Edits., T.H. Parliament and R. Croteau, pp. 114–133, ACS, Washington, DC(1986).
  • C. Sanz, J.M. Olias and A.G. Perez, Aroma biochemistry of fruits and vegetables. In: Proceedings-Phytochemical Society of Europe. Edits., F.A. Tomás-Barberán and R.J. Robins, pp. 125–156, Oxford University Press Inc., (1996).
  • C. Aubert and C. Chanforan, Postharvest changes in physicochemical properties and volatile constituents of apricot (Prunus armeniaca L.). Characterization of 28 cultivars. J. Agric. Food Chem., 55, 3074–3082 (2007).
  • V.I. Babushok, P.J. Linstrom and I.G. Zenkevich, Retention indices for frequently reported compounds of plant essential oils. J. Physic. Chem. Ref. Data, 40, 1–47 (2011). doi:10.1063/1.3653552.
  • D. Kourkoutas, J.S. Elmore and D.S. Mottram, Comparison of the volatile compositions and flavour properties of cantaloupe. Galia and honeydew muskmelons. Food Chem., 97, 95–102 (2006).
  • M.A. Pozo-Bayón, A. Ruíz-Rodríguez, K. Pernin and N. Cayot, Influence of eggs on the aroma composition of a sponge cake and on the aroma release in model studies on flavored sponge cakes. J. Agric. Food Chem., 55, 1418–1426 (2007).
  • M. Riu-Aumatell, E. López-Tamames and S. Buxaderas, Assessment of the volatile composition of juices of apricot, peach, and pear according to two pectolytic treatments. J. Agric. Food Chem., 53, 7837–7843 (2005).
  • C.B. Steingass, T. Grauwet and R. Carle, Influence of harvest maturity and fruit logistics on pineapple (Ananas comosus [L.] Merr.) volatiles assessed by headspace solid phase microextraction and gas chromatography–mass spectrometry (HS-SPME-GC/MS). Food Chem., 150, 382–391 (2014).
  • the volatile aroma constituents, A. Verzera, G. Tripodi, G. Dima, C. Condurso, A. Scacco, F. Cincotta and A. Sparacio, Leaf removal and wine composition of Vitis vinifera L. cv. Nero d'Avola. J. Sci. Food Agric., 96, 150–159 (2016).
  • J. Cano-Salazar, G. Echeverría, C.H. Crisosto and L. Lopez, Cold-storage potential of four yellow-fleshed peach cultivars defined by their volatile compounds emissions, standard quality parameters, and consumer acceptance. J. Agric. Food Chem., 60, 1266–1282 (2012).
  • P. Montero-Prado, K. Bentayeb and C. Nerín, Pattern recognition of peach cultivars (Prunus persica L.) from their volatile components. Food Chem., 138, 724–731 (2013).
  • M.R. Tabilio, D. Fiorini, E. Marcantoni, S. Materazzi, M. Delfini, F.R. De Salvador and S. Musmeci, Impact of the Mediterranean fruit fly (medfly) Ceratitis capitata on different peach cultivars: the possible role of peach volatile compounds. Food Chem., 140, 375–381 (2013).

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