Repository logo
 
Profile Picture
Person

Mourato, Miguel

Metadata only
3D1E-4003-BF64
0000-0003-4843-1064

Filters

2012 - 201932020 - 20233
Reset filters

Settings

Search Results

Now showing 1 - 6 of 6
  • Ultrasound assisted coextraction of Cornicabra olives and thyme to obtain flavored olive oils
    Publication . Peres, Maria de Fátima; Marques, Madalena Pinho; Mourato, Miguel; Martins, Luísa; Dias, Suzana Ferreira
    Flavoring olive oils is a new trend in consumer preferences, and different enrichment techniques can be used. Coextraction of olives with a flavoring agent is an option for obtaining a flavored product without the need for further operations. Moreover, ultrasound (US) assisted extraction is an emergent technology able to increase extractability. Combining US and coextraction, it is possible to obtain new products using different types of olives (e.g., cultivar and ripening stage), ingredient(s) with the greatest flavoring and/or bioactive potential, as well as extraction conditions. In the present study, mastic thyme (Thymus mastichina L.) (TM) and lemon thyme (Thymus x citriodorus) (TC) were used for flavoring Cornicabra oils by coextraction. The coextraction trials were performed by (i) thyme addition to the olives during crushing or malaxation and (ii) US application before malaxation. Several parameters were evaluated in the oil: quality criteria parameters, total phenols, fatty acid composition, chlorophyll pigments, phenolic profile and oxidative stability. US application did not change the phenolic profile of Cornicabra olive oils, while the enrichment of olive oils with phenolic compounds or pigments by coextraction was very dependent on the thyme used. TM enrichment showed an improvement of several new phenolic compounds in the oils, while with TC, fewer new phenols were observed. In turn, in the trials with TC, the extraction of chlorophyll pigments was higher, particularly in crushing coprocessing. Moreover, the oils obtained with US and TM added in the mill or in the malaxator showed lower phenol decrease (59%) than oils flavored with TC (76% decrease) or Cornicabra virgin olive oil (80% decrease) over an 8-month storage period. Multivariate data analysis, considering quality parameters, pigments and phenolic contents, showed that flavored oils were mainly grouped by age.
    2023Journal article Open access Show more
  • Bioactive compounds of portuguese virgin olive oils discriminate cultivar and ripening stage
    Publication . Peres, Maria de Fátima; Martins, Luísa; Mourato, Miguel; Vitorino, Conceição; Dias, Suzana Ferreira
    The presence of different bioactive compounds in virgin olive oil affects its nutritional, oxidative and sensorial properties. Phenolic compounds are olive endogenous bioactive compounds highly susceptible to degradation. Olive endogenous oxidoreductases, mainly polyphenol oxidases (PPO) and peroxidases (POD), may play an important role on the profile of bioactive compounds in olive oil by promoting oxidation of phenolic compounds. The aim of this study was to evaluate if changes on PPO and POD activities in olive fruits from two Portuguese cultivars (Olea europaea, cv ‘Cobrançosa’ and cv ‘Galega Vulgar’) are related with the composition of their olive oils, especially phenolic compounds. Pattern recognition techniques [principal component analysis (PCA), cluster analysis(CA), and discriminant analysis (DA)] were used for multivariate data analysis. Olive oils characterized by their FA composition were grouped by cultivar. When olive oils were characterized by their phenolic composition, green pigments, and enzymatic activities in fruits, they could be discriminated by olive ripening stage. Along ripening, PPO activity was only detected in the fruit mesocarp of both cultivars and POD activity was mainly detected in the seeds. The POD activity, as well as vanillin and gamma-tocopherol contents in olive oil increased with the ripening index. Conversely, higher PPO activity in fruits at early ripening stages together with higher levels of total phenols, green pigments, betatocopherol, hydroxytyrosol and p-coumaric acid in olive oils were observed. The ripening stage of fruits showed to be a key factor on the amount and profile of bioactive compounds of olive oil.
    2016Journal article Restricted access Show more
  • Ácidos fenólicos, alcoóis fenólicos secoiridoides, flavonoides e tocoferóis em azeites virgens
    Publication . Peres, Maria de Fátima; Martins, Luísa; Mourato, Miguel; Vitorino, Conceição; Dias, Suzana Ferreira
    As características excepcionais do azeite virgem extra devem-se não só ao seu perfil em ácidos gordos mas também à presença de compostos de natureza fenólica que contribuem para o seu valor nutricional. Os estudos mais actuais evidenciam diversos benefícios para a saúde destes compostos, o que levou a União Europeia a aprovar uma alegação nutricional em 2012 sobre “polifenóis do azeite”. Os compostos fenólicos do azeite virgem apresentam também propriedades sensoriais, nomeadamente pela sua contribuição para o sabor amargo. Além disso, contribuem para a estabilidade oxidativa do azeite, pelo que, quando presentes em elevada quantidade, aumentam o seu tempo de vida. A sua avaliação nos azeites pode vir a ter uma importância fundamental para a diferenciação de azeites de elevada qualidade nutricional e sensorial. No presente trabalho, estudaram-se os compostos fenólicos de natureza hidrofílica e lipofílica, em azeites provenientes das cultivares ‘Cobrançosa’ e ‘Galega Vulgar’. Por HPLC-FLD, foram quantificados alfa, beta e gama tocoferóis (fenóis lipofílicos). Nos azeites de ambas as cultivares, os teores de alfa-tocoferol foram sempre superiores a 200 mg kg-1, apresentando os azeites ‘Galega Vulgar’ maiores teores de gama tocoferol. Relativamente ao perfil em compostos fenólicos (hidrofílicos), avaliados por HPLCDAD, foi possível quantificar os teores de hidroxitirosol, tirosol, ácido vanílico, vanilina, ácido o-cumárico, luteolina e apigenina. Identificou-se ainda a presença de 3,4-DHPEA-EDA, p-HPEA-EDA, 3,4-DHPEA-EA e p-HPEA-EA. O composto fenólico maioritário nos azeites foi o 3,4-DHPEA-EDA, representando em alguns azeites mais de 50 % do total de compostos fenólicos. Foram encontrados baixos teores de hidroxitirosol e tirosol, como é expectável em azeites recentemente extraídos. Os azeites ‘Cobrançosa’ apresentaram, em geral, teores mais elevados de flavonóides.
    2015Conference object Open access Show more
  • Co-processed olive oils with Thymus mastichina L.: New product optimization
    Publication . Peres, Maria de Fátima; Roldão, Marta; Mourato, Miguel; Martins, Luísa; Dias, Suzana Ferreira
    Olive co-processing consists of the addition of ingredients either in the mill or in the malaxator. This technique allows selecting the type of olives, the ingredients with the greatest flavoring and bioactive potential, and the technological extraction conditions. A new product—a gourmet flavored oil—was developed by co-processing olives with Thymus mastichina L. The trials were performed using overripe fruits with low aroma potential (cv. ‘Galega Vulgar’; ripening index 6.4). Experimental conditions were dictated by a central composite rotatable design (CCRD) as a function of thyme (0.4−4.6%, w/w) and water (8.3−19.7%, w/w) contents used in malaxation. A flavored oil was also obtained by adding 2.5% thyme during milling, followed by 14% water addition in the malaxator (central point conditions of CCRD). The chemical characterization of the raw materials, as well as the analysis of the flavored and unflavored oils, were performed (chemical quality criteria, sensory analysis, major fatty acid composition, and phenolic compounds). Considering chemical quality criteria, the flavored oils have the characteristics of “Virgin Olive Oil” (VOO), but they cannot have this classification due to legislation issues. Flavored oils obtained under optimized co-processing conditions (thyme concentrations > 3.5−4.0% and water contents varying from 14 to 18%) presented higher phenolic contents and biologic value than the non-flavored VOO. In flavored oils, thyme flavor was detected with high intensity, while the defect of “wet wood”, perceived in VOO, was not detected. The flavored oil, obtained by T. mastichina addition in the mill, showed higher oxidative stability (19.03 h) than the VOO and the co-processed oil with thyme addition in the malaxator (14.07 h), even after six-month storage in the dark (16.6 vs. 10.3 h).
    2021Journal article Open access Show more
  • Development of Cobrançosa "functional olive oils" by co-processing techniques
    Publication . Marques, Madalena Pinho; Dias, Suzana Ferreira; Gouveia, Cecília; Vitorino, Conceição; Mourato, Miguel; Martins, Luísa; Peres, Maria de Fátima
    The aim of this work was to develop "functional olive oils" by co-processing techniques of ‘Cobrançosa’ olives with the addition of Thymus citriodorus (TL, lemon thyme) and T. mastichina L. (TM) from organic agriculture. The “functional olive oils” were prepared by: (i) thyme addition to the olives during the unit operations of crushing or malaxation, and (ii) implementation of ultrasound before the malaxation of the olive paste.
    2022Conference object Open access Show more
  • Changes in virgin olive oil antioxidants, polyphenol oxidase and peroxidase activities during fruit ripening
    Publication . Peres, Maria de Fátima; Martins, Luísa; Mourato, Miguel; Dias, Suzana Ferreira
    One of the current challenges in olive oil quality is to assure that olive antioxidante compounds are preserved in order to maintain their role on oxidative degradation protection. (...)
    2012Conference object Open access Show more