372 Part III: Muscle Foods
Al-Kahtani HA, Abu-Tarbouch HM, Bajabe AS, Atia
M, Abou-Arab AA, El-Mojaddidi MA. 1996. Chem-
ical changes after irradiation and post-irradiation
storage in tilapia and Spanish mackerel. Journal of
Food Science 61(4): 729–733.
Amano K, Tomiya F. 1953. Studies on the green discol-
oration of frozen swordfish (Xiphia gladisL.) II.
Some experiments on the cause of discoloration. Bull
Japanese Soc Scientific Fisheries 19(5): 671–678.
Amano K, Yamada K. 1965. The biological formation
of formaldehyde in cod fish. In: R Kreuzer, editor,
The Technology of Fish Utilization, pp. 73–87. Lon-
don: Fishing News Books, Ltd.
Ang JF, Hultin HO. 1989. Denaturation of cod myosin
during freezing after modification with formalde-
hyde. Journal of Food Science 54:814–818.
Angelo, Allen J. St. 1996. Lipid oxidation in foods.
Critical Reviews in Food Science and Human
Nutrition 36(3): 175–224.
Aubourg SP. 1998. Influence of formaldehyde in the
formation of fluorescence related to fish deteriora-
tion. Zeitschrift fur Lebensmittel-Untersuchung und-
Forschung A—Food Research and Technology 206:
29–32.
———. 2001. Review: Loss of quality during the man-
ufacture of canned fish products. Food Science and
Technology International 7(3): 199–215.
Barrett I, Brinner L, Brwon WD, Doiev A, Kwon TW,
Little A, Olcott HS, Schaefer MB, Schrader P. 1965.
Changes in tuna quality and associated biochemical
changes during handling and storage aboard vessels.
Food Technol 19(2): 108–117.
Benjakul S, Bauer F. 2000. Physicochemical and enzy-
matic changes of cod muscle proteins subjected to
different freeze-thaw cycles. Journal of the Science
of Food and Agriculture. 80:1143–1150.
———. 2001. Biochemical and physiochemical
changes in catfish (Silurus glanisLinne) muscle as
influenced by different freeze-thaw cycles. Food
Chemistry 72(2): 207–217.
Blond G, Le Meste M. 2004. Principles of Frozen
Storage. In: YH Hui, P Cornillon, IG Legaretta, MH
Lim, KD Murrell, WK Nip, editors, Handbook of
Frozen Foods, pp. 25–53. New York: Marcel Dekker,
Inc.
Bonnell AD. 1994. Quality Assurance in Seafood Pro-
cessing: A Practical Guide, pp. 74–75.London:
Chapman and Hall.
Brake NC, Fennema OR. 1999. Lipolysis and lipid oxi-
dation in frozen minced mackerel as related to Tg’,
molecular diffusion, and presence of gelatin. Journal
of Food Science, 64: 25–32.
Bremmer HA. 1977. Storage trials on the mechanically
separated flesh of three Australian mid-water fish
species. 1. Analytical tests. Food Technology in
Australia. 29:89–93.
———. 1992. Fish flesh structure and the role of colla-
gen–Its post-mortem aspects and implications for
fish processing. In: HH Huss, M Jakobsen, J Liston,
editors, Quality Assurance in the Fish Industry, pp.
39–62. Amsterdam: Elsevier.
Brown WD. 1962. The concentration of myoglobin
hemoglobin in tuna flesh. Jour Food Sci 27(1): 26-–
28.
Buttkus H. 1970. Accerelated denaturation of myosin
in frozen solution. Journal of Food Science, 35:558–
562.
Bykowski P, Kolodziejski W. 1983. Wlasciwosci Miesa
z Kryla odskorupionego Metoda Rolkowa. Bull Sea
Fisheries Inst, Gdynia. 14(5–6): 53–57.
Careche M, Tejada M. 1994. Hake natural actomyosin
interaction with free fatty acids during frozen stor-
age. Journal of the Science of Food and Agriculture
64:501–507.
Castell C, Neal W, Date J. 1973. Comparison of changes
in TMA, DMA, and extarctable protein in iced and
frozen stored gadoid fillets. Jour Fish Res Board
Canada 30:1246–1250.
Chanmugam O, Boudreau M, Hwang DH. 1986.
Differences in the 3 fatty acid contents in pond-
reared and wild fish and shellfish. Journal of Food
Science 51(6): 1556–1557.
Chiou TK, Matsui T, Konosu S. 1989. Proteolytic
activities of mullet and Alaska pollack roes and their
changes during processing. Nippon Suisan Gak-
kaishi 55:805–809.
Ciarlo AS, Boeri RL, Giannini DH. 1985. Storage life
of frozen blocks of Patagonian Hake (Merluccius
hubbsi)filleted and minced. Journal of Food Science
50:723–726.
Coggins PC, Chamul RS. 2004. Food Sensory At-
tributes. In: YH Hui, P Cornillon, IG Legaretta, MH
Lim, KD Murrell, WK Nip, editors, Handbook of
Frozen Foods, pp. 93–147. New York: Marcel
Dekker, Inc.
Crawford D, Law D, Babbitt J, McGill L. 1979.
Comparative stability and desirability of frozen
Pacific hake fillet and minced flesh blocks. Journal
of Food Science, 44:363–367.
De Koning AJ, Milkovitch A, Mol TH. 1987. The ori-
gin of free fatty acids formed in frozen cape hake
mince (Merluccius capensis, castelnau)during cold
storage at 18°C. Journal of the Science of Food
and Agriculture 39:79–84.