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Study of dissected lamb muscles by visible and near infrared reflectance spectroscopy for composition assessment

Published online by Cambridge University Press:  18 August 2016

D. Cozzolino ,
I. Murray ,
J. R. Scaife  and
R. Paterson
D. Cozzolino
Affiliation:
National Institute for Agricultural Research, INIA La Estanzuela, CC 39173, Uruguay
I. Murray
Affiliation:
Scottish Agricultural College, Aberdeen AB21 9YA
J. R. Scaife
Affiliation:
Department of Agriculture, University of Aberdeen, MacRobert Building, Aberdeen AB24 5UA
R. Paterson
Affiliation:
Scottish Agricultural College, Aberdeen AB21 9YA
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Abstract

Near infrared reflectance spectroscopy (NIRS) was used to study the reflectance properties of intact and minced lamb muscles in two presentations to the instrument to predict their chemical composition. A total of 306 muscles were examined from 51 lambs, consisting of the following muscles: longissimus dorsi, supraspinatus, infraspinatus, semimembranosus, semitendinosus and rectus femoris. Modified partial least squares (MPLS) regression models of chemical variables yielded R2 and standard error of cross-validation (SECV) of 0·76 (SECV: 10·4), 0·83 (SECV: 5·5) and 0·73 (SECV: 4·7) for moisture, crude protein and intramuscular fat in the minced samples expressed as g/kg on a fresh-weight basis, respectively. Calibrations for intact samples had lower R2 and higher standard error of cross validation (SECV) compared with the minced samples.

Keywords

lamb (meat)meat compositionmeat qualitynear infrared spectroscopyNIRSoptical properties
Type
Growth, development and meat science
Information
Animal Science , Volume 70 , Issue 3 , June 2000 , pp. 417 - 423
Copyright
Copyright © British Society of Animal Science 2000

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References

Association of Official Analytical Chemists. 1990. Official methods of analysis, 15th edition. Association of Official Analytical Chemists, Arlington, VA.Google Scholar
Atkinson, T., Fowler, V. R., Garton, G.A. and Lough, A.K. 1972. A rapid method for the accurate determination of lipid in animal tissues. Analyst 97: 562568.Google Scholar
Barnes, R. J., Dhanoa, M. S. and Lister, S. J. 1989. Standard normal variate transformation and detrending of near infrared diffuse reflectance spectra. Applied Spectroscopy 43: 777783.Google Scholar
Bartholomew, D. T. and Osuala, C. I. 1988. Use of infraAnalizer in proximate analysis of mutton. Journal of Food Science 53: 379382.Google Scholar
Ben-Gera, I. and Norris, K. H. 1968. Direct spectrophotometric determination of fat and moisture in meat products. Journal of Food Science 33: 6467.Google Scholar
Carrol, M. A. 1966. Problems in beef carcass evaluation. In Reports and proceedings of the ninth international congress of animal production, pp. 117124. Oliver and Boyd, Edinburgh.Google Scholar
Clark, D. H. and Short, R. E. 1994. Comparison of AOAC and light spectroscopy analysis of uncooked ground beef. Journal of Animal Science 72: 925931.Google Scholar
Delpy, D. T. and Cope, M. 1997. Quantification in tissue near infrared spectroscopy. Philosophical Transactions of the Royal Society, Series B, Biological Sciences 352: 549569.Google Scholar
Dransfield, E. 1977. Intramuscular composition and texture of beef muscle. Journal of the Science of Food and Agriculture 28: 833842.Google Scholar
Dransfield, E., Nute, G. R., Hogg, B.W. and Walters, B. R. 1990. Carcass and eating quality of ram, castrated ram and ewe lambs. Animal Production 50: 291299.Google Scholar
Field, R. A., Bass, J. J., Kirton, A. H., Fowke, P. J. and Duganzich, D. M. 1985. Distribution of ether extract, moisture, protein and ash in dissected tissues from ovine carcasses. Journal of Animal Science 60: 977988.Google Scholar
Foegeding, E. A., Lanier, T. C. and Huitín, H. O. 1996. Characteristics of edible muscle tissues. In Food chemistry (ed. Fennema, O. R.), pp. 879931. Marcel Dekker, NY.Google Scholar
Guiader, M. 1986. Cheese and meat analysis by NIR. In NIR/NIT conference, Budapest (ed. Hollo, J., Kaffka, K. J. and Gończy, J. L.), pp. 273291.Google Scholar
Hermansson, O. 1990. Analysis of raw minced meat using near infrared transmittance (NIT). In Third international conference of near infrared spectroscopy, Belgium (ed. Biston, R. and Bartiaux-Thill, N.), pp. 191193.Google Scholar
Kraggerud, H., Martens, H. and Hildrum, K. I. 1986. Analysis of meat batter composition by NIR reflectance spectrometry In NIR/NIT conference, Budapest (ed. Hollo, J., Kaffka, K. J. and Gończy, J. L.), pp. 7385.Google Scholar
Kruggel, W. G., Field, R. A., Riley, M. L., Radloff, H. D. and Horton, K. M. 1981. Near infrared reflectance determination of fat, protein and moisture in fresh meat. Journal of the Association of Official Analytical Chemists 64: 692696.Google Scholar
Lanza, E. 1983. Determination of moisture, protein, fat and calories in raw pork and beef by near infrared. Journal of Food Science 48: 471474.Google Scholar
Lawrie, R. 1979. Meat science, third edition. Pergamon International Library, Oxford.Google Scholar
Mitsumoto, M., Maeda, S., Mitsuhashi, T. and Ozawa, S. 1991. Near infrared spectroscopy determination of physical and chemical characteristics in beef cuts, journal of Food Science 56: 14931496.Google Scholar
Murray, I. 1986. The NIR spectra of homologous series of organic compounds. In NIR/NIT conference, Budapest (ed. Hollo, J., Kaffka, K. J. and Gończy, J. L.), pp. 1328.Google Scholar
NIRS2. 1995. Routine operation and calibration software for near infrared instruments. Perstorp Analytical, Silver Spring, MD.Google Scholar
Shenk, J. S. and Westerhaus, M. O. 1993. Analysis of agriculture and food products by near infrared reflectance spectroscope. Infrasoft International, Port Matilda, PA.Google Scholar
Smith, D. R., Klueter, H. H. and Muir, P.D. 1995. Near infrared reflectance analysis of intramuscular fat in beef. Proceedings of the New Zealand Society of Animal Production 55: 124126.Google Scholar
Swatland, H. J. 1986. Post-mortem spectrophotometry of color intensity of pork and beef using quartz optical fibres. Meat Science 17: 97106.Google Scholar
Swatland, H. J. 1995. On line evaluation of meat. Technomic Publishing Co., Lancaster, USA.Google Scholar