Document Type : Original Article

Author

M.sc.Student of Animal Sciences, Faculty of Agriculture Razi University, Kermanshah, Iran

10.26655/ijabbr.2019.1.3

Abstract

Isotopic and nuclear techniques play an important role in food and agriculture, health and industry. In the agricultural sciences and food technology sectors, recent research has elucidated the new potential application of radiation for microbial decontamination, food preservation, improve the nutritional quality of  foods  and effectively utilise its potential as human food or animal feed. The information presented will help researchers to identify techniques of relevance to them. Simplification of some of these techniques must be addressed so that they can be used more widely, especially in developing countries. This review suggest that a key challenge for the future is to use these techniques for improving efficiency of livestock production and decreasing environmental pollution.

Keywords

Ahloowalia, B.S., Maluszynski, M., Nichterlein, K., (2004). Global impact of mutation-derived varieties. Euphytica 135, 187–204.
Andrassy-Baka, G., Romvari, R., Milisits, G., Suto, Z., Szabo, A., Locsmandi, L., horn P., (2003) Non-invasive body composition measurement of broiler chickens between 4–18 weeks of age by computer tomography. Archiv fur Tierzucht. forschungsinstitut fur die Biologie landwirtschaftlicher Nutztiere, Dummerstorf, germany 46 (6), 585–595.
Bacon, J.R., Crain, J.S., Vaeck, L.V., Williams, J.D., (1999). Atomic mass spectrometry. J. Anal. At. Spectrom. 14, 1633–1659.
Bamford, S.A., Wegrzynek, D., Chinea-Cano, E., Markowicz, A., (2004). application of X-ray fluorescence techniques  for  the  determination  of  hazardous and  essential  trace  elements  in  environmental  and  biological materials. nukleonika 49, 87–95.
Behgar M., Ghasemi S., Naserian A., Borzoie A., Fatollahi H. (2011). Gamma radiation effects on phenolics, antioxidants activity and in vitro digestion of pistachio (Pistachia vera) hull. Radiat. Phys. Chem. 80, 963-967.
Bhat, R., & Sridhar, K. R. (2008). Nutritional quality evaluation of electron beam irradiated (Nelumbo nucifera) seeds. Food Chemistry, 107, 174e184.
Bhat, R., Sridhar, K. R., & Yokotani, K. T. (2007). Effect of ionizing radiation on antinutritional features of velvet bean seeds (Mucuna pruriens). Food Chemistry, 103, 860e866.
Brenoe, U.T., Kolstad, K., (2000). Body composition and development measured repeatedly by computer tomography during growth in two types of turkeys. Poult. sci. 79, 546–552.
Chen, K. H., Huber, J. T., Simas, J., Theurer, C. B., Yu, P., Chan, S. C., et al. (1995). Effect of enzyme treatment or steam flaking of sorghum grain on lactation and digestion in dairy cows. Journal of Dairy Science, 78, 1721–1727.
Chmielewski, A.G. & Migdal, W. (2005). Radiation decontamination of herbs and species. Nukleonika, 50, 179-184.
Delincee, H.,1983.Recent advances in radiation chemistry of proteins.In:Elias, P.S. ,cohen, A.J. (Eds.), Recent Advances in Food Irradiation. Elsevier Biomedical press, Amsterdam, pp. 129–147.
Diehl, J.F., Josephson, E.S., (1994). Assessment of the wholesomeness of irradiated food (a review). Acta Aliment. 23, 195–214.
Dunshea, F.R., Suster, D., Kerton, D.J., Leury, B.J., 2003. Exogenous porcine somatotropin administered to neonatal pigs at high doses can alter lifetime fat but not lean tissue deposition. Br. J. Nutr. 89, 795–801.
Elias, P.S., Cohen, A.J., (1997). Radiation Chemistry of Major Food Components. elsevier Scientific, Amsterdam.
Fombang, E. N., Taylor, J. R. N., Mbofung, C. M. F., & Minnaar, A. (2005). Use of c-irradiation to alleviate the poor protein digestibility of sorghum porridge. Food chemistry, 91, 695–703.
Food and Drug Administration, (1981). Irradiation in the production, processing, and handling of food; final rule. 21 CFR Part 179. Federal Register 51, 13376–13399.
Francis, G., Makkar, H.P.S., Becker, K., (2001). Antinutritional factors present in plant-derived alternate fish feed ingredients and their effects in fish. Aquaculture 199, 197–227.
Gamble, G.R., Akin, D.E., Makkar, H.P.S., Becker, K., (1996). Biological degradation of tannins in Sericea Lespedeza by the white rot fungi Ceriporiopsisw subvermispora and Cyathus stercoreus analyzed by solid state 13C NMR spectroscopy. Appl. Environ. Microbiol. 62, 3600–3604.
Hancz, C., Romvari, R., Szabo, A., Molnar, T., Magyary, I., Horn, P., (2003). measurement of total body composition changes of common carp by computer tomography. Aquacult. Res. 34 (12), 991–997.
Hong, Y.-H., Park, J.-Y., Park, J.-H., Chung, M.-S., Kwon, K.-S., Chung, K., et al. (2008). Inactivation of Enterobacter sakazakii, Bacillus cereus, and Salmonella typhimurium in powdered weaning food by electron-beam irradiation. Radiation physics and Chemistry, 77, 1097e1100.
Jones, H.E., Lewis, R.M., Young, M.J., Simm, G., (2004). Genetic parameters for carcass composition and muscularity in sheep measured by X-ray computer tomography, ultrasound and dissection. Livestock Prod. Sci. 90 (2/3), 167–179.
Junkuszew, A., Ringdorfer, F., (2005). Computer tomography and ultrasound measurement as methods for prediction of the body composition of lambs. Small rumin. Res. 56 (1–3), 121–125.
Kamba, M., Kimura, K., Koda, M., Ogawa, T., (2001). Proton magnetic resonance spectroscopy for assessment of human body composition. Am. J. Clin. Nutr. 73, 172–176.
Kolstad, K., Vangen, O., (1996). Breed differences in maintenance requirements of growing pigs when accounting for changes in body composition. Livestock Prod. sci. 47, 23–32.
Kondos, A. C., & Foale, M. A. (1983). Comparison of the nutritional value of low and medium  tannin  sorghum  grains  for  pigs.Animal Feed Science technology,  8, 85–90.
Kumar, S., Raju, V.S., (2003). Application of nuclear microprobe techniques in the analysis of biological materials. In: International Conference on Isotopic and nuclear Analytical Techniques for Health and Environment, IAEA-CN-103/039. IAEA, Vienna, Austria.
Lacroix, M., & Ouattara, B. (2000). Combined industrial processes with irradiation to assure innocuity and preservation of food products e a review. Food Research international, 33, 719e724.
Makkar, H.P.S., Becker, K., (1999). Plant toxins and detoxification methods to improve feed quality of tropical seeds. Asian-Australian J. Anim. Sci. 12, 467–480.
Marcoux, M., Bernier, J.F., Pomar, C., (2003). Estimation of Canadian and european lean yields and composition of pig carcasses by dual-energy X-ray absorptiometry. meat Sci. 63, 359–365.
Mexis, S. F., Badeka, A.V.,Chouliara, E., Riganakos, K. A., & Kontominas, M. G. (2009). Effect of g-irradiation on the physico-chemical and sensory properties of raw unpeeled almond kernels (Prunus dulcis). Innovative Food Science and emerging Technologies, 10, 87e92
Milisits, G., Levai, A., Andrassy-Baka, G., Romvari, R., (2003). In vivo examination of fat deposition in growing rabbits selected for high and low body fat content. agriculturae Conspectus Scientificus (Poljoprivredna Znanstvena Smotra) 68, 145–149.
Mitchell, A.D., Scholz, A.M., Pursel, V.G., (2003). Prediction of pork carcass composition based on cross-sectional region analysis of dual energy X-ray absorptiometry (DXA) scans. Meat Sci. 63, 265–271.
Olsen, D., (1998). Irradiation of food. Scientific status summary. Food Technol. 52, 56–62.
Radomyski, T., Murano, E.A., Olson, D.G., Murano, P.S., 1994. Elimination of pathogens of significance in food by low-dose irradiation: a review. J. Food protect. 57, 73–86.
Shawrang, P., Nikkhah, A., Zare-Shahneh, A., Sadeghi, A. A., Raisali, G., & moradi-Shahrebabak, M. (2008). Effects of gamma irradiation on chemical composition and ruminal protein degradation of canola meal. Radiation Physics chemistry, 77, 918–922.
Shawrang, P., Nikkhah, A., Zare-Shahneh, A., Sadeghi, A. A., Raisali, G., & moradi-Shahrebabak, M. (2007). Effects of gamma irradiation on protein degradation of soybean meal. Animal Feed Science Technology, 134, 140–151.
Siddhuraju, P., Makkar, H.P.S., Becker, K., (2002). The effect of ionising radiation on antinutritional factors and the nutritional value of plant materials with reference to human and animal food: a review. Food Chem. 78, 187–205.
Stobiecki, M., Makkar, H.P.S., (2004). Recent advances in analytical methods for identification and quantification of phenolic compounds. In: Muzquiz, M., Hill, g.D., Burbano, C., Cuadrado, C., Pedrosa, M.M. (Eds.), Recent Advances of research in Antinutritional Factors in Legume Seeds and Oilseeds. Wageningen press, The Netherlands, pp. 11–28.
Suster, D., Leury, B.J., Hofmeyr, C.D., D’Souza, D.N., Dunshea, F.R., (2004). The  accuracy of dual energy X-ray absorptiometry (DXA), weight and P2 back fat to predict half-carcass and primal-cut composition in pigs within and across research experiments. Aust. J. Agric. Res. 55, 973–982.
Taghinejad-Roudbaneh M., S.R. Ebrahimi , S. Azizi  , P. Shawrangm, (2010). effects of electron beam irradiation on chemical composition, antinutritional factors, ruminal degradation and in vitro protein digestibility of canola meal, radiat. Phys. chem. 79, 1264-1269.
Tamatelatos, I.E., Kasvikli, K., Green, S., Gainey, M., Kalef-Ezra, J., Beddoe, A., (2003). International Conference on Isotopic and Nuclear Analytical Techniques for health and Environment IAEA-CN-103/074. IAEA, Vienna, Austria.
Teets, A. S., Sundararaman, M., & Were, L. M. (2008). Electron beam irradiated almond skin powder inhibition of lipid oxidation in coked salted ground chicken breast. Food Chemistry, 111, 934e941.
Tuniz, C., (2003). Advanced nuclear techniques for health and environment. In: international Conference on Isotopic and Nuclear Analytical Techniques for Health and Environment, IAEA-CN-103/123. IAEA, Vienna, Austria.
Turnlund, J.R., Keyes, W.R., (2002). Isotope ratios of trace elements in samples from human nutrition studies determined by TIMS and ICP-MS: precision and accuracy compared. Food Nutr. Bullet. 23, 129–132.
Tylavsky, F.A., Lohman, T.G., Dockrell, M., Lang, T., Schoeller, D.A., Wan, J.Y., fuerst, T., Cauley, J.A., Nevitt, M., Harris, T.B., (2003). Comparison of the effectiveness of 2 dual-energy X-ray absorptiometers with that of total body water and computed tomography in assessing changes in body composition during weight change. Am. J. Clin. Nutr. 77, 356–363.
WHO, 1981.Wholesomeness of irradiated food, Report ofa joint FAO/IAEA/WHO expert Committee. WHOTechnical Report Series 659, Geneva.
WHO, (1999). High-dose irradiation: wholesomeness of food irradiated with doses above 10 kGy, Report of a joint FAO/IAEA/WHO study group. WHO Technical report Series 890, World Health Organization, Geneva.
Yu,  P.,  (2004).  Applications  of  advances  synchrotron  radiation-based  Fourier transform  infrared  (SR-FTIR) microspectroscopy to animal nutrition and feed science: a novel approach. Br. J. Nutr. 92, 869–885.
Zobel, A. M. (1997). Coumarins in fruit and vegetables. In F. A. Toma´s-barbera´n, & R. J. Robbins (Eds.), Photochemistry of fruit and vegetables (pp. 173e204). Oxford, UK: Clanderon Press.