Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-26T19:54:34.484Z Has data issue: false hasContentIssue false

Effect of freezing and frozen storage on the physicochemical, organoleptic and microbiological characteristics of a semi-hard ewes' milk cheese

Published online by Cambridge University Press:  01 June 2009

Javier Fontecha
Affiliation:
Instituto del Frío (CSIC), Ciudad Universitaria, 28040 Madrid, España
Carmen Peláez
Affiliation:
Instituto del Frío (CSIC), Ciudad Universitaria, 28040 Madrid, España
Manuela Juárez
Affiliation:
Instituto del Frío (CSIC), Ciudad Universitaria, 28040 Madrid, España
M. Carmen Martín-Hernández
Affiliation:
Instituto del Frío (CSIC), Ciudad Universitaria, 28040 Madrid, España

Summary

Physicochemical, organoleptic and microbiological characteristics of semi-hard ewes' milk cheeses, frozen immediately after manufacture under two different conditions at −35 and −80°C and stored at −20°C for 4 months, were studied during subsequent ripening. Frozen storage after either freezing condition did not result in marked alterations in overall composition or rheological and sensory properties of the cheeses after 45 d ripening. Water activity decreased over the ripening period and this decrease was more pronounced in the frozen batches. The water-holding capacities of the protein in the frozen cheese batches were higher than for the control batch. The level of proteolysis, estimated from the level of amino groups, was higher in the previously frozen cheese. Freezing also reduced the viability of the microbial flora in the cheese. The differences in these characteristics for the two freezing conditions were not significant.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1994

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Alichanidis, E., Polychroniadou, A., Tzanetakis, N. & Vafopoulu, A. 1981 Teleme cheese from deep-frozen curd. Journal of Dairy Science 64 732739CrossRefGoogle Scholar
Alonso, L. 1985 [Study of Physicochemical Characteristics of Cabrales Cheese During Ripening. Effect of Freezing Curds.] PhD Thesis, Madrid Complutense University, SpainGoogle Scholar
Alonso, L., Juárez, M., Ramos, M. & Martín-Alvarez, P. J. 1987 Effects of changes during ripening and frozen storage on the physicochemical and sensory characteristics of Cabrales cheeses. International Journal of Food Science and Technology 22 525534CrossRefGoogle Scholar
Blond, G. & Montupet, I. 1989 [Water retention capacity of milk proteins.] Lait 69 151154CrossRefGoogle Scholar
Church, F. C., Catignani, G. L. & Swaisgood, H. E. 1981 Hydrolysis of milk proteins by immobilized Streptomyces griseus pronase. Journal of Dairy Science 64 724731CrossRefGoogle Scholar
Creamer, L. K. & Olson, N. F. 1982 Rheological evaluation of maturing Cheddar cheese. Journal of Food Science 47 631636, 646CrossRefGoogle Scholar
Dalles, T., Kalatzopoulos, G. & Kehagias, C. 1984 Freezing preservation of soft cheeses with and without mold from goat's and sheep's milk. In Thermal Processing and Quality of Foods (Seminar, 1983), pp. 740744 (Eds Zeuthen, P., Cheftel, J. C., Eriksson, C., Jul, M., Leniger, H., Linko, P., Varela, G. and Vos, G.). London: Elsevier Science PublishersGoogle Scholar
Dixson, W. J. 1988 BMDP. Statistical Software Manual. Los Angeles, CA: University of California PressGoogle Scholar
Filchacova, N., Pankova, R. I., Mishenina, Z. A. & Ovcharova, G. 1983 Changes of protein properties during freezing. XVI International Congress of Refrigeration, Paris, pp. 502506. International Institute of RefrigerationGoogle Scholar
Fontecha, J., Bellanato, J. & Juárez, M. 1993 Infrared and Raman spectroscopy study of casein in cheese. Effect of freezing and frozen storage. Journal of Dairy Science (in press)CrossRefGoogle Scholar
International Dairy Federation 1985 Milk and milk products. Methods of sampling. International Dairy Federation Standard no. 50BGoogle Scholar
International Dairy Federation 1987 a Milk and milk products. Enumeration of microorganisms-colony count at 30°C. International Dairy Federation Standard no. 100AGoogle Scholar
International Dairy Federation 1987 b Sensory evaluation of dairy products, International Dairy Federation Standard no. 99AGoogle Scholar
Kim, K. S. & Yu, J. H. 1988 [Survival and activity of lactic acid bacteria during frozen storage.] Korean Journal of Dairy Science 10 170179Google Scholar
Kramer, A., Burkhardt, G. J., & Rogers, H. P. 1951 The shear press, a device for measuring food quality. Canner 112 2434Google Scholar
Kuchroo, C. N. & Fox, P. F. 1982 Soluble nitrogen in Cheddar cheese: comparison of extraction procedures. Milchwissenchaft 37 331335Google Scholar
Kuohroo, C. N., Rahilly, J. & Fox, P. F. 1983 Assessment of proteolysis in cheese by reaction with trinitrobenzene sulphonic acid. Irish Journal of Food Science and Technology 7 129133Google Scholar
Lawrence, R. C., Creamer, L. K. & Gilles, J. 1987 Texture development during cheese ripening. Journal of Dairy Science 70 17481760CrossRefGoogle Scholar
Marcos, A., Fernández-Salguero, J., Esteban, M. A., León, F. & Alcalá, M. 1985 Water activity measurement near to 1·00. Journal of Food Technology 20 523526Google Scholar
Martín-Hernández, M. C. 1988 [Study of Physicochemical Characteristics of Fresh and Semi-hard Goats' Milk Cheeses. Effects of the Freezing Process.] PhD Thesis, Madrid Complutense University, SpainGoogle Scholar
Martín-Hernández, M. C., Juárez, M., Ramos, M. & Martín-Alvarez, P. 1990 Effects of freezing and frozen storage on the physicochemical and sensory characteristics of four types of goat's cheese. Zeitschrift für Lebensmittel-Untersuchung und -Forschung 190 325330CrossRefGoogle Scholar
Ordoñez, J. A., Barneto, R. & Ramos, M. 1978 Studies on Manchego cheese ripened in olive oil. Milchwissenchaft 33 609613Google Scholar
Ramanauskas, R. I. 1984 [Effect of storage at near-cryoscopic temperatures on cheese quality.] Molochnaya Promyshlennost', no. 7 13–16, 47Google Scholar
Ramos, M., Cáceres, I., Polo, C., Alonso, L. & Juarez, M. 1987 Effect of freezing on soluble nitrogen fraction of Cabrales cheese. Food Chemistry 24 271278Google Scholar
Ramos, M., Martínez-Castro, I. & Juárez, M. 1977 Detection of cow's milk in Manchego cheese. Journal of Dairy Science 60 870877CrossRefGoogle Scholar
Regenstein, J. M. & Regenstein, C. E. 1984 Food Protein Chemistry: an Introduction for Food Scientists. Orlando, FL: Academic PressGoogle Scholar
Requena, T., Peláez, C. & Desmazeaud, M. J. 1991 Characterization of lactococci and lactobacilli isolated from semi-hard goats' cheese. Journal of Dairy Research 58 137145CrossRefGoogle Scholar