20 Fish-Meat Sausage
Sam Angel and Eliana Mora P.
Fermentation allows the preservation of foods of vegetable or animal origin so that they can be stored and shipped at ambient temperatures and used without further preparation. Lowering the pH is the ideal way to process foods for use in less-developed regions of the world. Proteins, which are needed for growth and development, especially in children, are often in short supply in famine-ravished areas and poor underdeveloped countries. In many areas of the world there are frequently underutilized sources of muscle proteins that could provide excellent starting materials for preservation by fermentation or acidulation.
In Germany a popular noncooked fermented sausage (rohwurst) has been produced from beef and pork for many years (1). Lactic acid produced by fermentation lowers the pH of the meat to its gel point which causes it to firm (2). Further drying increases firmness and reduces water activity. The low pH prevents the development of pathogenic bacteria (3,4), and lower water activity prevents microbial growth and spoilage (5).
The pH can also be lowered by using glucono-delta-lactone, which produces gluconic acid upon contact with water, or using citric or lactic acids. Encapsulated acids release acid more slowly and prevent texture breakdown. In the encapsulation process solid acid granules are coated with hydrogenated vegetable oils or diglycerides, which require heat to release the acid. Graves (6) patented a new water soluble low-temperature release coating for citric acid. The use of acids directly saves fermentation time, and myofibrillar protein gelation can take place within hours after mixing the meat with acids.
RESULTS AND DISCUSSION
Rohwurst beef-pork sausage served as a model for the development of a similar product from underutilized fish, meat trim, and poultry. A sausage-type product allows the combination of muscle from various sources. The object was to use underutilized muscle protein sources, especially fish, to produce a nutritious and acceptable dry sausage. The product was to be eaten out of hand and thus help to alleviate protein deficiency, especially in children.
Underutilized or inexpensive fish, fish tissue residue from filleting operations, red meat trim, and spent layer hens were the raw materials used in Israel, the United States, and Costa Rica to produce fermented dry sausages.
Cod or haddock frames (i.e., skeletons with residual tissue) were mechanically deboned, and the flesh mince was mixed in equal proportions with either beef or pork trim or mince from mechanically deboned spent layer hens. The batters were mixed with salt, sugar, spices, nitrite, and Lactobacillus or Pediococcus starter cultures and stuffed into 20-mm collagen casings. They were fermented at 22°C for up to 24 hours depending on pH development.
Control sausages consisted of beef and pork only. The pH of the fish-meat sausages fell to 5.1 to 5.4, while the pH of the beef-pork controls fell to S.O to 5.1. Drying took I week, at which time the fishmeat sausages contained 17 to 30 percent moisture and the beef-pork controls 25 to 30 percent. Fat content was 17 percent in all the batters at the outset. After drying it was 21 to 30 percent for the fish-meat sausages and 29 to 30 percent for the beef-pork. The fat contents for the fish-meat sausages were significantly lower than for similar commercial sausages in Germany.
Three panel sessions were held. Between 25 and 70 persons participated in each session. All the sausages were found acceptable, as shown in Figure 1. A minority of the participants commented on a fishy taste, especially for the fish-chicken sausages.
In a 3-year cooperative project (7) the flesh of pond-raised silver carp and sea fish in Israel and Costa Rica was deboned and washed. It was then used to prepare fermented or acidulated dry sausages with pork or beef trim or whole-muscle turkey bottom meat. All-fish sausages and 25 to SO percent fish-meat sausages were prepared. Fermentation was induced with Pediococcus plus Lactobacillus starter cultures. Acidulation was carried out by adding encapsulated lowtemperature-release citric or higher-temperature-release lactic acids.
The pH usually fell to 4.85, except for the fish-turkey sausages where the pH did not fall below 5.0. Starting and final pHs were similar for the fermented and the acidulated sausages, but the pHs for the acidulated sausages fell to their final level within a few hours as compared to several times that for the fermented sausages. Thus, the acidulated blend had a head start on drying. The entire process of pH reduction, firmness development, and subsequent drying was shortened considerably for the acidulated fish-meat sausages.
Citric acid was found to reduce the pH at lower concentrations than lactic acid, but in 50 percent fish-meat sausages with 0.65 percent citric acid, which was the maximum concentration used, the pH could not be lowered sufficiently. Lactic acid could be used at higher concentrations to lower the pH when necessary. A pH of 4.80 to 4.85 helped the drying process, and lactic acid was of greater benefit in this respect than citric acid.
The experimental sausages were evaluated on a kibbutz in Israel and in 110 households in Costa Rica. The results of the evaluations in both countries were encouraging. In Israel the scores were 5 to 5.6 out of a maximum of 9 for the 50 percent fish sausage. Over 80 percent of the tasters in Costa Rica gave positive responses to the sausages that contained fish (Figure 2). The highest social class was least enthusiastic about the sausages. In Costa Rica the population is not accustomed to eating nonheated sausages. The evaluators therefore either cooked or fried them before eating. The organoleptic tests are consequently being repeated with new instructions.
To minimize production costs, these sausages should contain a minimum of 50 percent fish (from frames or other underutilized sources such as by-catch and trash fish).
Acidulation produced sausage with a good texture, and it can be recommended as a procedure to reduce processing time.
To improve acceptability and nutritional value as well as reduce costs and ensure quality, more research needs to be done on:
· flavor formulation and colorants to meet local population preferences;
· reduction of fat content and introduction of new sources of fat;
· inclusion of soy or other vegetable proteins;
· chemistry and histochemistry of the acidulation and drying processes to improve the efficiency of these steps;
· the effect of replacing nitrite on the wholesomeness of the product [according to Leistner (8), spores of bacilli and clostridia do not grow when there is a sufficiently low pH and low water activity]; and
· protein efficiency feeding for young children and adolescents.
These products should undergo taste tests for acceptability in other Latin American countries as well as other areas with low protein intake.
1. Klettner, P. G., and P. A. Baumgartner. 1980. The technology of raw dry sausage manufacture. Food Technology in Australia 32:380.
2. Rodel, W., K. Krispien, and L. Leistner. 1979. Measuring water activity of meat and meat products. Fleischwirtschaft 59:649.
3. Baird-Parker, J. and B. Freame. 1967. Combined effect of water activity, pH and temperature on growth of Clostridium botulinum from spore and vegetative cell inocula. Journal of Applied Bacteriology 30:420.
4. Collins-Thompson, D. L., B. Krusky, and W. R. Usborne. 1984. The effect of nitrite on the growth of pathogens during the manufacture of dry and semi-dry sausages. Canadian Institute of Food Science and Technology Journal 17:102.
5. Labots, H. 1981. Aw und pH-wert konzept fur die enteilung von fleischerzengnissen in verberbliche und lagerfahige produkte. Fleischwirtschaft 61: 1.
6. Graves, R. 1988. Sausage fermentation: New ways to control acidulation of meat. The National Provisioner.
7. Angel, S., and E. P. Moral 1991. The development of shelf stable fish, poultry and other meat products through energy saving fermentative processes. Final report, Project DPE 55446536035, submitted to USAID, Washington, D.C.-U.S. Cooperative Development Research Program Between Israel and Costa Rica. 62 pp.
8. Leistner, L. 1986. Personal communication.
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