Characteristics and fatty acid composition of milk fat from Saudi Aradi goat

Sbihi, Hassen Mohamed; Nehdi, Imededdine Arbi; Tan, Chin Ping; Al‐Resayes, Saud I.

doi:10.3989/gya.0233151

Cited by 20 publications

(19 citation statements)

References 25 publications

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“…The profiles of the TG and DTG curves in oxygen showed five stages of decomposition of milk fat, with maximum temperature at 95, 296, 340, 414, and 511°C. Sbihi et al [31] obtained similar results by studying goat milk fat under dry air atmosphere. Milk fat due to its structure is polymorphic fat [32].…”

Section: Resultsmentioning

confidence: 63%

Thermogravimetric characterization of dark and milk chocolates at different processing stages

Ostrowska–Ligęza

Górska

Wirkowska‐Wojdyła

et al. 2018

J Therm Anal Calorim

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The effect of different processing stages of dark and milk chocolate samples on their thermal properties was investigated. The ingredients of chocolates were investigated too. Thermal behavior was evaluated by means of thermogravimetry (TG) and first-derivative thermogravimetry (DTG). The measurements were made at a temperature range of 50-700°C with a heating rate of 10°C min -1 . TG and DTG are thermal techniques, which have been taken advantage of research cocoa liquor, sugar, and cocoa butter in chocolates during the different processing stages. The obtained results evidenced possibility of indicating differences between milk fat and cocoa butter contribution and content of cocoa liquor and sugar which differ for dark and milk chocolates.

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Section: Resultsmentioning

confidence: 63%

Thermogravimetric characterization of dark and milk chocolates at different processing stages

Ostrowska–Ligęza

Górska

Wirkowska‐Wojdyła

et al. 2018

J Therm Anal Calorim

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“…Sbihi et al [21] investigated goat milk fat. They observed that during DSC analysis, melting curve exhibited two melting peaks at 15.4°C and 38.7°C, respectively.…”

Section: Melting Characteristic By Dscmentioning

confidence: 99%

“…In contrast to a nitrogen atmosphere, a TG diagram performed under oxygen atmosphere was characterized by four transitions; therefore, a DTG curve showed four stages of goat milk fat decomposition at maximum temperature peaks: 278.13; 409.77; 417.99; and 502.12°C. Sbihi et al [21] investigated goat milk fat by using TGA/DTG in a dry air atmosphere. The characteristic of the TGA/DTG diagrams showed three stages of decomposition for goat milk fat, with a maximum temperature at 316.5, 440 and at 541.3°C.…”

Section: Thermogravimetrymentioning

confidence: 99%

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Characterization of thermal properties of goat milk fat and goat milk chocolate by using DSC, PDSC and TGA methods

Dolatowska-Żebrowska

Ostrowska–Ligęza

Wirkowska‐Wojdyła

et al. 2019

J Therm Anal Calorim

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A relatively unexplored goat's milk fat and goat's milk chocolate were investigated to enhance thermal properties of both. Differential scanning calorimetry, pressure differential scanning calorimetry and thermogravimetry were successfully used to determine polymorphic forms of goat's milk fat, oxidative stability and the percentage composition of goat's milk chocolate. The thermal profile and characteristic of the goat's milk chocolate showed parameters very similar to dark chocolate. Significant differences were found in the induction times of goat milk fat and fat extracted from goat's chocolate. For the goat's milk fat, the value of activation energy (E a) for a maximum temperature was almost identical to the E a value obtained by the means of onset temperature. However significant difference was observed between values of E a for the fat extracted from goat's milk chocolate.

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“…These methods include gas chromatography to assay fatty acids (Molkentin and Precht, 1987;Glaeser, 2002) and triacylglycerols, which are presently determined according to the Official method (EC Regulation No. 273/2008), liquid chromatography (NogalaKałucka et al, 2008;Derewiaka et al, 2011), near infrared spectroscopy (Heussen et al, 2007), and differential scanning calorimetry, which is commonly used in studies of milk fat from various animals (Sbihi et al, 2015;Tomaszewska-Gras, 2016b). Authenticity assessment of butter is still a big challenge for analytics.…”

Section: Introductionmentioning

confidence: 99%

Multivariate analysis of seasonal variation in the composition and thermal properties of butterfat with an emphasis on authenticity assessment

Tomaszewska-Gras

2016

Grasas y Aceites

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SUMMARY:The aim of this study was to analyze the seasonal variation in the composition and thermal properties of butterfat (BF) in order to evaluate the applicability of differential scanning calorimetry (DSC) for the authenticity assessment of butter. The composition of fatty acids (FA) and triacylglycerols (TAG) and the thermal properties of genuine BF purchased in the summer and in the winter from six producers were determined. Principal component analysis (PCA) was used to recognize variation and as a result, all BF samples were classified into two groups: one composed of mixed samples from the summer and winter and the other comprising only summer BF samples. DSC and GC analysis revealed that the group of only summer BF samples was characterized by lower melting temperatures and peak heights of low-and medium melting fractions and the highest proportions of unsaturated FAs (ΣC18:1, ΣC18:2, ΣC18:3). The results indicated that most of the variation in the composition and thermal properties was affected by summer BF samples, which may result from the alternative animal feeding systems employed in the summer season, i.e., pasture vs. indoor. Therefore, seasonal variation should be taken into consideration during the elaboration of the analytical method of authenticity assessment. KEYWORDS: Butter; DSC; Fatty acids; Melting properties; PCA; TriacylglycerolsRESUMEN: Análisis multifactorial de la variable estacional sobre la composición y las propiedades térmicas de la grasa de mantequilla, con énfasis en la evaluación de la autenticidad. El objetivo de este estudio fue analizar la variable estacional sobre la composición y las propiedades térmicas de grasa de mantequilla (GM) con el fin de evaluar la aplicabilidad de la calorimetría diferencial de barrido (CDB) en la evaluación de la autenticidad de la mantequilla. Se determinó la composición de ácidos grasos (AG) y triglicéridos (TG) y las propiedades térmicas de GM genuina de seis productores en verano e invierno. Se utilizó el análisis de componentes (ACP) principales para reconocer la variación y, como resultado, todas las muestras de GM se clasificaron en dos grupos: uno compuesto de muestras mixtas de verano e invierno y los otro que comprende muestras BF solamente de verano. El análisis mediante CDB y cromatografía gaseosa, mostró que el grupo de la GM de verano se caracteriza por temperaturas de fusión más bajas y alturas de los picos de las fracciones de bajo y medio punto de fusión y mayores proporciones de AG insaturado (ΣC18:1, ΣC18:2, ΣC18:3). Los resultados indicaron que la mayor parte de la variación en la composición y las propiedades térmicas se deben a las muestras de GM de verano, que puede ser debido al sistema de alimentación alternativo utilizado en la temporada de verano: es decir, pasto vs cobertura. Por lo tanto, la variación estacional se debe tomar en cuenta durante la elaboración del método de análisis para la evaluación de la autenticidad. PALABRAS CLAVE: Ácidos grasos; ACP; CDB; Mantequilla; Propiedades de fusión; TriglicéridosCitati...

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Characteristics and fatty acid composition of milk fat from Saudi Aradi goat

Cited by 20 publications

References 25 publications

Thermogravimetric characterization of dark and milk chocolates at different processing stages

Thermogravimetric characterization of dark and milk chocolates at different processing stages

Characterization of thermal properties of goat milk fat and goat milk chocolate by using DSC, PDSC and TGA methods

Multivariate analysis of seasonal variation in the composition and thermal properties of butterfat with an emphasis on authenticity assessment

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