The present study aimed to investigate the effect of somatic cell count (SCC) of raw cow's milk on the volatile organic compound (VOC) profiles of yoghurt. Test yoghurt samples were produced from three batches of cow's milk with low, medium and high SCC, respectively. The VOCs were determined by gas chromatography–mass spectrometry (GC–MS) analysis. A lower diacetyl and acetoin content and a higher content of 2‐heptanone, and butanoic and hexanoic acids were established in the yoghurt samples from batches with high SCC of above 1 000 000 cells/cm3. The increased SCC of cow's milk had a negative effect on the volatile organic compound profiles of yoghurt.
The present study aimed to provide scientific information for the effect of somatic cells count (SCC) of raw cow milk on the fermentation process and quality characteristics of ayran. Test ayran samples were produced from three different batches of cow milk with low (<400,000 cells.cm-3), medium (between 500,000 and 600,000 cells.cm-3) and high (1000,000 cells.cm-3) SCC, respectively. The main physicochemical parameters as pH, total solids, milk fat, protein, lactose, lactic acid content and microbiological parameters as somatic cells count (SCC) and total viable count (TVC) of raw milk and ayran samples were studied. During the first coagulation stages, the higher SCC in the milk seems to have an inhibiting effect on the development of the lactic acid bacteria from the starter culture and on the fermentation process, respectively. Nevertheless, SCC of the raw milk did not have a significant effect on the composition of the ayran. The increase in the SCC values up to 1000,000 cells.cm-3 in the raw cow’s milk affected negatively the organoleptic characteristics of the ayran made from it. Practical applications:The knowledge for the effect of SCC of raw caw milk on the fermentation process allows us to optimize the technology parameters for production of ayran and to improve its quality characteristics. The data from sensory analysis of ayran samples produced by milks with different SCC will provide additional information for the importans of the implementation of the monitoring of somatic cells in raw caw milk quality control.
The objective of the present work was to investigate the effect of somatic cell count (SCC) of raw cow’s milk on the lipolysis and oxidative processes in farmer cheese. The farmer cheese samples were produced from three different batches of raw cow’s milk of low (about 100,000 cells/mL, batch L), medium (between 500,000 and 600,000 cells/mL, batch M), and high (above 1,500,000 cells/mL, batch H) SCC. The farmer cheese samples were aged and cold-stored at 4 ± 1°C for three and ten months, respectively. Lipolysis in the farmer cheese samples was evaluated by monitoring the changes in cheese fatty acid values and peroxide values, as well as the changes in the fatty acid profile. Results indicated intensive lipolysis during aging and cold storage of batch H; increased concentrations of short-chain fatty acids as well as a higher percentage of saturated fatty acids were observed. It can thus be concluded that the accelerated lipolysis in farmer cheese samples made from raw cow’s milk with high SCC could cause some quality defects, and reduce cheeses’ shelf life.
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