Influence of Maturation Degree of Arbutus (Arbutus unedo L.) Fruits in Spirit Composition and Quality
The strawberry tree (Arbutus unedo L.) is a small tree
or shrub from botanical Ericaceae family that grows spontaneously
nearby the Mediterranean basin and produce edible red fruits. A
traditional processed fruit application, in Mediterranean countries, is
the production of a spirit (known as aguardente de medronho, in
Portugal) obtained from the fermented fruit. The main objective of
our study was to contribute to the knowledge about the influence of
the degree of maturation of fruits in the volatile composition and
quality of arbutus spirit. The major volatiles in the three distillates
fractions (head, heart and tail) obtained from fermentation of two
different fruit maturation levels were quantified by GC-FID analysis
and ANOVA one-way was performed. Additionally, the total
antioxidant capacity and total phenolic compounds of both arbutus
fruit spirits were determined, by ABTS and Folin-Ciocalteau method,
respectively. The methanol concentration is higher (1022.39 g/hL
a.a.) in the spirit made from fruits with highest total soluble solids,
which is a value above the legal limit (1000 g/hL a.a.). Overall, our
study emphasizes, for the first time, the influence of maturation
degree of arbutus fruits in the spirit volatile composition and quality.
[1] E. H. Soufleros, S. A. Mygdalia, and P. Natskoulis, “Production process
and characterization of the traditional Greek fruit distillate “Koumaro”
by aromatic and mineral composition”. Journal of Food Composition
Analysis vol. 18, pp. 699–716, 2005.
[2] L. R. Galego, A. N. Martins, and V. R. Almeida, “Valorização da
Aguardente de Medronho - Estudo do Processo Tecnológico”.
Proceedings of VIII Congresso do Algarve, Vilamoura, 1995.
[3] M. Alarcão-e-Silva, A. E. B. Leitão, H. G. Azinheira, and M. C. A.
Leitão, “The Arbutus Berry: Studies on its color and chemical
characteristics at two mature stages”. Journal of Food Composition
Analysis vol. 14 pp. 27–35, 2001. [4] F. A. Ayaz, M. Kucukislamoglu, and M. Reunanen, “Sugar, non-volatile
and phenolic acids composition of strawberry tree (Arbutus unedo L.
var. ellipsoidea) fruits”. Journal of Food Composition Analysis vol. 13
pp. 171–177, 2000.
[5] K. Pallauf, J. C. Rivas-Gonzalo, M. D. del Castillo, M. P. Cano, and S.
Pascual-Teresa, “Characterization of the antioxidant composition of
strawberry tree (Arbutus unedo L.) fruits”. Journal of Food Composition
Analysis vol. 21 pp. 273–281, 2008.
[6] A. M. Pawlowska, M. De Leo, and A. Braca, “Phenolics of Arbutus
unedo L. (Ericaceae) fruits: identification of anthocyanins and gallic acid
derivatives”. Journal of Agricultural and Food Chemistry vol. 54 pp.
10234–10238, 2006.
[7] B. M. Ruiz-Rodríguez, P. Morales, V. Fernández-Ruiz, M.C. Sanchez-
Mata, M Cámara, and C. Díez-Marqués, “Valorization of wild
strawberry-tree fruits (Arbutus unedo L.) through nutritional assessment
and natural production data”. Food Research International vol. 44 pp.
1244-1253, 2011.
[8] M. Simonetti, F. Damiani, L. Gabrielli, L. Cossignani, F. Blasi, and F.
Marini, “Characterization of triacylglycerols in Arbutus unedo L.
Seeds”. Italian Journal of Food Science vol. 20 pp. 49-56, 2008.
[9] T. Cavaco, C. Longuinho, C. Quintas, and I.S. de Carvalho, “Chemical
and microbial changes during the natural fermentation of strawberry tree
(Arbutus unedo L.) fruits”. Journal of Food Biochemistry vol. 31 pp.
715-725, 2007.
[10] R. Morales, “El madroño y sus usos. Plantas y cultura popular: La
etnobotánica en España”. Quercus vol. 12 pp.8-10, 1995.
[11] G. Versini, R. Seeber, A. D. Serra, G. Sferlazzo, J. H. B. Carvalho, and
F. Reniero, “Aroma compounds of Arbutus distillates”. In:
Charalambous G. (Ed.). Food flavors: Generation, Analysis and Process
Influence, Elsevier Science, London; pp. 1779-1790, 1995.
[12] Decree-Law nº. 238/2000 de 26 de Setembro. Diário da República I
série A, Imprensa Nacional 223 pp. 5145-5147, 2000.
[13] OIV. Compendium of International Methods of Spirituous Beverages of
Vitivinicultural Origin. OIV, Paris, 2014.
[14] N. Miller, and C. Rice-Evans, “Factors influencing the antioxidant
activity determined by the ABTS radical cation assay”. Free Radical
Research vol. 26 pp. 195-199, 1997.
[15] C. Santos, G. Botelho, I. Caldeira, A. Torres, and F. M. Ferreira,
“Antioxidant activity assessment in fruit liquors and spirits: methods
comparison”. Ciência Técnica Vitivinícola vol. 29 pp. 28-34, 2014.
[16] V. L. Singleton, and J. A. Rossi, “Colorimetry of total phenolics with
phosphomolybdic-phosphotungstic acid reagents”. American Journal of
Enology and Viticulture vol. 16 pp. 144-158, 1965.
[17] Regulation EC nº 110/2008 of the European parliament and of the
council of 15 January 2008 on the definition, description, presentation,
labelling and the protection of geographical indications of spirit drinks
and repealing Council Regulation (EEC) No 1576/89 Official Journal of
the European Communities vol. L39, pp. 16-54, 2008.
[18] A. Luís, D. Mota, O. Anjos, and I. Caldeira, “Single-laboratory
validation of determination of acetaldehyde, ethyl acetate, metanol and
fusel alcohols in wine spirits, brandies and grape marc spirits using GCFID”.
Ciência Técnica Vitivinícola vol. 26 pp. 69-76, 2011.
[19] C. Da Porto, “Grappa and grape-spirit production”. Critical Reviews in
Biotechnology vol. 18 pp. 13-24, 1998.
[20] M. L. Silva, and F. X. Malcata, “Relationships between storage
conditions of grape pomace and volatile composition of spirit obtained
thereform”. American Journal of Enology and Viticulture vol. 49 pp. 56-
64, 1998.
[21] M. L. Silva, and F. X. Malcata, “Effects of time of grape pomace
fermentation and distillation cuts on the chemical composition of grape
marcs”. Zeitschrift für Lebensmittel Untersuchung und Forschung A vol.
208 pp. 134-143, 1999.
[22] M. L.Silva, F. X. Malcata, and G. Revel, “Volatile Contents of Grappe
Marcs in Portugal”. Journal of Food Composition and Analysis vol. 9
pp. 72-80, 1996.
[23] C. B. Watkins, J. F. Nock, and B. D. Whitaker, “Responses of early, mid
and late season apple cultivars to postharvest application of 1-
methylcyclopropene (1-MCP) under air and controlled atmosphere
storage conditions”. Phostharvest Biology and Technology vol.19 pp.
17-32, 2000.
[24] C. P. Zaldivar, J. B. Abda, S. E. Ebeler, and A. A. Kader, “Quality and
chemical changes associated with flavor of camarosa strawberries in
response to a CO2 enriched atmosphere”. Hortscience vol. 42 pp. 299-
303, 2007.
[25] L. Taiz, and E. Zeiger, “Fisiologia vegetal”. 3ª Edição, Artmed, Porto
Alegre, 2004.
[26] L. Nykänen, and H. Suomalainen, “Aroma of beer, wine and distilled
alcoholic beverages”. D. Reidel Pulbishing Company, Dordrecht, 1983.
[27] G. H. Reazin, S. Baldwin, H. S. Scales, H. W. Washington, and A. A.
Andreasen, “Determination of the congeners produced from ethanol
during whisky maturation”. Journal of AOAC vol. 59 pp. 770-776, 1976.
[28] I. Caldeira, S. Canas, S. Costa, E. Carvalho, and A. P. Belchior,
“Formação de uma câmara de prova organoléptica de aguardentes velhas
e selecção de descritores sensoriais”. Ciência Técnica Vitivinícola vol.
14 pp. 21-30, 1999.
[29] A. M. Vera-Guzmán, R. I. Guzmán-Geronimo, and M. G. López, “Major
and minor compounds in a Mexican spirit, young mezcal coming from
two Agave Species”. Czech Journal of Food Science vol. 28 pp. 127-
132, 2010.
[30] P. Ribéreau-Gayon, D. Dubourdieu, B. Donèche, and A. Lonvaud,
“Traité d'Oenologie - Microbiologie du vin. Vinifications”. Editions
Dunod, Paris, 1998.
[31] L. Galego, “Traditional algarvian distillats and liqueurs historic
scientific aspects”. Conference Proceedings of Traditional Food
Processing and Technological Innovation in Peripheral Regions. Faro,
2006.
[32] D. M. C. E. Santo, “Controlo e análise do processo de produção de
Aguardente de Medronho na Serra do Caldeirão”. Dissertação de
Mestrado. Instituto Superior de Engenharia, Universidade do Algarve.
Faro, 2010.
[33] L. R. Galego, “Optimização de parâmetros para a aguardente de
medronho”. Dissertação de Mestrado. Faculdade de Ciências e
Tecnologia, Universidade Nova de Lisboa. Lisboa, 1995.
[34] C. Bauer-Christoph, H. Wachter, N. Christoph, A. Roßmann, and L.
Adam, “Assignment of raw material and authentication of spirits by gas
chromatography, hydrogen- and carbon-isotope ratio measurements”.
Zeitschrift fur Lebensmittel Untersuchung und Forschung A vol. 204 pp.
445-452, 1997.
[35] V. Ferreira, P. Hernández-Orte, A. Escudeiro, R. López, and J. Cacho,
“Semipreparative reserved-phase liquid chromatographic fractionation
of aroma extracts from wine and other alcoholic beverages”. Journal of
Chromatography A vol. 864 pp. 77-78. 1999.
[36] I. Caldeira, R. Bruno-de-Sousa, A. P. Belchior and M. C. Clímaco, “A
sensory and chemical approach to the aroma of wooden aged Lourinhã
wine brandy”. Ciência Técnica Vitivinícola vol. 23 pp. 97-110, 2008.
[37] L. Nykänen, and I. Nykänen, Distilled beverages. Volatile compounds in
food and beverages. Marcell Dekker Inc., New York, 1991.
[38] T. M. G. Cavaco, “Caracterização química e bioquímica dos frutos de
“Arbutus unedo L.” e de “Rubus fruticosus Agg.” - Contribuição para a
sua valorização”. Dissertação de Mestrado. Faculdade de Engenharia de
Recursos Naturais, Universidade do Algarve, Faro, 2007.
[39] D. E. Santo, L. Galego, T. Gonçalves, and C. Quintas, “Yeast diversity
in the Mediterranean strawberry tree (Arbutus unedo L.) fruits'
fermentations”. Food Research International vol. 47 pp. 45–50, 2012.
[40] L. Galego, and V. Almeida, “Aguardente de frutos e licores do Algarve.
História, técnica de produção e legislação”. 1ª Edição, Edições Colibri,
Lisboa, 2007.
[41] F. M. Abdoul-Latif, R. G. Bayili, L-C. Obame, I. H. N Bassolé, and M.
Dicko, “Comparison of phenolic compounds and antioxidant capacities
of traditional sorghum beers with other alcoholic beverages”. African
Journal of Biotechnology vol. 81 pp.14671-14678, 2012.
[42] S. Canas, V. Casanova, and A. P. Belchior, “Antioxidant activity and
phenolic content of Portuguese wine aged brandies”. Journal of Food
Composition and Analysis vol. 21 pp.626-633, 2008.
[43] S. Dudonné, X. Vitrac, P. Coutière, M. Woillez, and J. M. Mérillon,
“Comparative study of antioxidant properties and total phenolic content
of 30 plant extracts of industrial interest using DPPH, ABTS, FRAP,
SOD, and ORAC assays”. Journal of Agricultural and Food Chemistry
vol. 57 pp. 1768–1774, 2009.
[44] A. Floegel, D-O. Kim, S-J. Chung, S. I. Koo, and O. K. Chun,
“Comparison of ABTS/DPPH assays to measure antioxidant capacity in
popular antioxidant-rich US foods”. Journal of Food Composition and
Analysis vol. 24 pp. 1043-1048, 2011.
[45] S. Gorinstein, R. Haruenkit, S. Poovarodom, S. Vearasilp, P. Ruamsuke,
J. Namiesnik, M. Leontowicz, H. Leontowicz, M. Suhaj, and G. P
Sheng, “Some analytical assays for the determination of bioactivity of
exotic fruits”. Phytochemical Analysis vol. 21 pp. 355–362, 2010.
[1] E. H. Soufleros, S. A. Mygdalia, and P. Natskoulis, “Production process
and characterization of the traditional Greek fruit distillate “Koumaro”
by aromatic and mineral composition”. Journal of Food Composition
Analysis vol. 18, pp. 699–716, 2005.
[2] L. R. Galego, A. N. Martins, and V. R. Almeida, “Valorização da
Aguardente de Medronho - Estudo do Processo Tecnológico”.
Proceedings of VIII Congresso do Algarve, Vilamoura, 1995.
[3] M. Alarcão-e-Silva, A. E. B. Leitão, H. G. Azinheira, and M. C. A.
Leitão, “The Arbutus Berry: Studies on its color and chemical
characteristics at two mature stages”. Journal of Food Composition
Analysis vol. 14 pp. 27–35, 2001. [4] F. A. Ayaz, M. Kucukislamoglu, and M. Reunanen, “Sugar, non-volatile
and phenolic acids composition of strawberry tree (Arbutus unedo L.
var. ellipsoidea) fruits”. Journal of Food Composition Analysis vol. 13
pp. 171–177, 2000.
[5] K. Pallauf, J. C. Rivas-Gonzalo, M. D. del Castillo, M. P. Cano, and S.
Pascual-Teresa, “Characterization of the antioxidant composition of
strawberry tree (Arbutus unedo L.) fruits”. Journal of Food Composition
Analysis vol. 21 pp. 273–281, 2008.
[6] A. M. Pawlowska, M. De Leo, and A. Braca, “Phenolics of Arbutus
unedo L. (Ericaceae) fruits: identification of anthocyanins and gallic acid
derivatives”. Journal of Agricultural and Food Chemistry vol. 54 pp.
10234–10238, 2006.
[7] B. M. Ruiz-Rodríguez, P. Morales, V. Fernández-Ruiz, M.C. Sanchez-
Mata, M Cámara, and C. Díez-Marqués, “Valorization of wild
strawberry-tree fruits (Arbutus unedo L.) through nutritional assessment
and natural production data”. Food Research International vol. 44 pp.
1244-1253, 2011.
[8] M. Simonetti, F. Damiani, L. Gabrielli, L. Cossignani, F. Blasi, and F.
Marini, “Characterization of triacylglycerols in Arbutus unedo L.
Seeds”. Italian Journal of Food Science vol. 20 pp. 49-56, 2008.
[9] T. Cavaco, C. Longuinho, C. Quintas, and I.S. de Carvalho, “Chemical
and microbial changes during the natural fermentation of strawberry tree
(Arbutus unedo L.) fruits”. Journal of Food Biochemistry vol. 31 pp.
715-725, 2007.
[10] R. Morales, “El madroño y sus usos. Plantas y cultura popular: La
etnobotánica en España”. Quercus vol. 12 pp.8-10, 1995.
[11] G. Versini, R. Seeber, A. D. Serra, G. Sferlazzo, J. H. B. Carvalho, and
F. Reniero, “Aroma compounds of Arbutus distillates”. In:
Charalambous G. (Ed.). Food flavors: Generation, Analysis and Process
Influence, Elsevier Science, London; pp. 1779-1790, 1995.
[12] Decree-Law nº. 238/2000 de 26 de Setembro. Diário da República I
série A, Imprensa Nacional 223 pp. 5145-5147, 2000.
[13] OIV. Compendium of International Methods of Spirituous Beverages of
Vitivinicultural Origin. OIV, Paris, 2014.
[14] N. Miller, and C. Rice-Evans, “Factors influencing the antioxidant
activity determined by the ABTS radical cation assay”. Free Radical
Research vol. 26 pp. 195-199, 1997.
[15] C. Santos, G. Botelho, I. Caldeira, A. Torres, and F. M. Ferreira,
“Antioxidant activity assessment in fruit liquors and spirits: methods
comparison”. Ciência Técnica Vitivinícola vol. 29 pp. 28-34, 2014.
[16] V. L. Singleton, and J. A. Rossi, “Colorimetry of total phenolics with
phosphomolybdic-phosphotungstic acid reagents”. American Journal of
Enology and Viticulture vol. 16 pp. 144-158, 1965.
[17] Regulation EC nº 110/2008 of the European parliament and of the
council of 15 January 2008 on the definition, description, presentation,
labelling and the protection of geographical indications of spirit drinks
and repealing Council Regulation (EEC) No 1576/89 Official Journal of
the European Communities vol. L39, pp. 16-54, 2008.
[18] A. Luís, D. Mota, O. Anjos, and I. Caldeira, “Single-laboratory
validation of determination of acetaldehyde, ethyl acetate, metanol and
fusel alcohols in wine spirits, brandies and grape marc spirits using GCFID”.
Ciência Técnica Vitivinícola vol. 26 pp. 69-76, 2011.
[19] C. Da Porto, “Grappa and grape-spirit production”. Critical Reviews in
Biotechnology vol. 18 pp. 13-24, 1998.
[20] M. L. Silva, and F. X. Malcata, “Relationships between storage
conditions of grape pomace and volatile composition of spirit obtained
thereform”. American Journal of Enology and Viticulture vol. 49 pp. 56-
64, 1998.
[21] M. L. Silva, and F. X. Malcata, “Effects of time of grape pomace
fermentation and distillation cuts on the chemical composition of grape
marcs”. Zeitschrift für Lebensmittel Untersuchung und Forschung A vol.
208 pp. 134-143, 1999.
[22] M. L.Silva, F. X. Malcata, and G. Revel, “Volatile Contents of Grappe
Marcs in Portugal”. Journal of Food Composition and Analysis vol. 9
pp. 72-80, 1996.
[23] C. B. Watkins, J. F. Nock, and B. D. Whitaker, “Responses of early, mid
and late season apple cultivars to postharvest application of 1-
methylcyclopropene (1-MCP) under air and controlled atmosphere
storage conditions”. Phostharvest Biology and Technology vol.19 pp.
17-32, 2000.
[24] C. P. Zaldivar, J. B. Abda, S. E. Ebeler, and A. A. Kader, “Quality and
chemical changes associated with flavor of camarosa strawberries in
response to a CO2 enriched atmosphere”. Hortscience vol. 42 pp. 299-
303, 2007.
[25] L. Taiz, and E. Zeiger, “Fisiologia vegetal”. 3ª Edição, Artmed, Porto
Alegre, 2004.
[26] L. Nykänen, and H. Suomalainen, “Aroma of beer, wine and distilled
alcoholic beverages”. D. Reidel Pulbishing Company, Dordrecht, 1983.
[27] G. H. Reazin, S. Baldwin, H. S. Scales, H. W. Washington, and A. A.
Andreasen, “Determination of the congeners produced from ethanol
during whisky maturation”. Journal of AOAC vol. 59 pp. 770-776, 1976.
[28] I. Caldeira, S. Canas, S. Costa, E. Carvalho, and A. P. Belchior,
“Formação de uma câmara de prova organoléptica de aguardentes velhas
e selecção de descritores sensoriais”. Ciência Técnica Vitivinícola vol.
14 pp. 21-30, 1999.
[29] A. M. Vera-Guzmán, R. I. Guzmán-Geronimo, and M. G. López, “Major
and minor compounds in a Mexican spirit, young mezcal coming from
two Agave Species”. Czech Journal of Food Science vol. 28 pp. 127-
132, 2010.
[30] P. Ribéreau-Gayon, D. Dubourdieu, B. Donèche, and A. Lonvaud,
“Traité d'Oenologie - Microbiologie du vin. Vinifications”. Editions
Dunod, Paris, 1998.
[31] L. Galego, “Traditional algarvian distillats and liqueurs historic
scientific aspects”. Conference Proceedings of Traditional Food
Processing and Technological Innovation in Peripheral Regions. Faro,
2006.
[32] D. M. C. E. Santo, “Controlo e análise do processo de produção de
Aguardente de Medronho na Serra do Caldeirão”. Dissertação de
Mestrado. Instituto Superior de Engenharia, Universidade do Algarve.
Faro, 2010.
[33] L. R. Galego, “Optimização de parâmetros para a aguardente de
medronho”. Dissertação de Mestrado. Faculdade de Ciências e
Tecnologia, Universidade Nova de Lisboa. Lisboa, 1995.
[34] C. Bauer-Christoph, H. Wachter, N. Christoph, A. Roßmann, and L.
Adam, “Assignment of raw material and authentication of spirits by gas
chromatography, hydrogen- and carbon-isotope ratio measurements”.
Zeitschrift fur Lebensmittel Untersuchung und Forschung A vol. 204 pp.
445-452, 1997.
[35] V. Ferreira, P. Hernández-Orte, A. Escudeiro, R. López, and J. Cacho,
“Semipreparative reserved-phase liquid chromatographic fractionation
of aroma extracts from wine and other alcoholic beverages”. Journal of
Chromatography A vol. 864 pp. 77-78. 1999.
[36] I. Caldeira, R. Bruno-de-Sousa, A. P. Belchior and M. C. Clímaco, “A
sensory and chemical approach to the aroma of wooden aged Lourinhã
wine brandy”. Ciência Técnica Vitivinícola vol. 23 pp. 97-110, 2008.
[37] L. Nykänen, and I. Nykänen, Distilled beverages. Volatile compounds in
food and beverages. Marcell Dekker Inc., New York, 1991.
[38] T. M. G. Cavaco, “Caracterização química e bioquímica dos frutos de
“Arbutus unedo L.” e de “Rubus fruticosus Agg.” - Contribuição para a
sua valorização”. Dissertação de Mestrado. Faculdade de Engenharia de
Recursos Naturais, Universidade do Algarve, Faro, 2007.
[39] D. E. Santo, L. Galego, T. Gonçalves, and C. Quintas, “Yeast diversity
in the Mediterranean strawberry tree (Arbutus unedo L.) fruits'
fermentations”. Food Research International vol. 47 pp. 45–50, 2012.
[40] L. Galego, and V. Almeida, “Aguardente de frutos e licores do Algarve.
História, técnica de produção e legislação”. 1ª Edição, Edições Colibri,
Lisboa, 2007.
[41] F. M. Abdoul-Latif, R. G. Bayili, L-C. Obame, I. H. N Bassolé, and M.
Dicko, “Comparison of phenolic compounds and antioxidant capacities
of traditional sorghum beers with other alcoholic beverages”. African
Journal of Biotechnology vol. 81 pp.14671-14678, 2012.
[42] S. Canas, V. Casanova, and A. P. Belchior, “Antioxidant activity and
phenolic content of Portuguese wine aged brandies”. Journal of Food
Composition and Analysis vol. 21 pp.626-633, 2008.
[43] S. Dudonné, X. Vitrac, P. Coutière, M. Woillez, and J. M. Mérillon,
“Comparative study of antioxidant properties and total phenolic content
of 30 plant extracts of industrial interest using DPPH, ABTS, FRAP,
SOD, and ORAC assays”. Journal of Agricultural and Food Chemistry
vol. 57 pp. 1768–1774, 2009.
[44] A. Floegel, D-O. Kim, S-J. Chung, S. I. Koo, and O. K. Chun,
“Comparison of ABTS/DPPH assays to measure antioxidant capacity in
popular antioxidant-rich US foods”. Journal of Food Composition and
Analysis vol. 24 pp. 1043-1048, 2011.
[45] S. Gorinstein, R. Haruenkit, S. Poovarodom, S. Vearasilp, P. Ruamsuke,
J. Namiesnik, M. Leontowicz, H. Leontowicz, M. Suhaj, and G. P
Sheng, “Some analytical assays for the determination of bioactivity of
exotic fruits”. Phytochemical Analysis vol. 21 pp. 355–362, 2010.
@article{"International Journal of Biological, Life and Agricultural Sciences:69920", author = "Goreti Botelho and Filomena Gomes and Fernanda M. Ferreira and Ilda Caldeira", title = "Influence of Maturation Degree of Arbutus (Arbutus unedo L.) Fruits in Spirit Composition and Quality", abstract = "The strawberry tree (Arbutus unedo L.) is a small tree
or shrub from botanical Ericaceae family that grows spontaneously
nearby the Mediterranean basin and produce edible red fruits. A
traditional processed fruit application, in Mediterranean countries, is
the production of a spirit (known as aguardente de medronho, in
Portugal) obtained from the fermented fruit. The main objective of
our study was to contribute to the knowledge about the influence of
the degree of maturation of fruits in the volatile composition and
quality of arbutus spirit. The major volatiles in the three distillates
fractions (head, heart and tail) obtained from fermentation of two
different fruit maturation levels were quantified by GC-FID analysis
and ANOVA one-way was performed. Additionally, the total
antioxidant capacity and total phenolic compounds of both arbutus
fruit spirits were determined, by ABTS and Folin-Ciocalteau method,
respectively. The methanol concentration is higher (1022.39 g/hL
a.a.) in the spirit made from fruits with highest total soluble solids,
which is a value above the legal limit (1000 g/hL a.a.). Overall, our
study emphasizes, for the first time, the influence of maturation
degree of arbutus fruits in the spirit volatile composition and quality.", keywords = "Arbutus fruit, maturation, quality, spirit.", volume = "9", number = "6", pages = "594-6", }
