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MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER

Year 2009, Volume: 35 Issue: 1, 19 - 29, 20.11.2009

References

  • Alegakis A . K . , Tsatsakis, A.M., Shtilman, M.I., Lysovenko, D.L., Vlachonikolis, I . G . : Deactivation of mycotoxins. I . An in vitro study of zcaralenone adsorption on new polymeric adsorbents. J. Environ. Sei. Health B.,1999; 34:633-644.
  • Araba, M-, Wyatt, R.D.: Effects of sodium bentonite, hydratcd sodium calcium aluminosilicate NovaSil™. and cthacal on aflatoxicosis in broiler chickens. Poult. Sei.. 1991; 70, Suppl. I,s. 6.
  • Avantaggiato, G . , Havenaar, R., Viscontia, A.: Evaluation of the intestinal absorption of deoxynivalcno and nivalenol by an in vitro gastrointestinal model, and the binding efficacy of activated carbon and other adsorbent materials. Food and Chemical Toxicology, 2004; 42: 817-824.
  • Bauer, J . : Möglichkeiten zur Entgiftung mykotoxinhaitiger Futtermittel. Monatsh. Veterin armed., 1994; 49:175-181.
  • Bhatnagar, D., Payne, G.A., Cleveland, T . E . , Robens, J . F . : Mycotoxins: current issues in USA. In: Barug, D., Egmond, H.V., Lopez-Garcia, R., Osenbruggcn, T.V., Visconti, A. (Eds.), Meeting the Mykotoxin Menace. Wageningen Academic Publishers. 2004. ISBN 9076998280, 17-47 s.
  • Binder, E.M.: Managing the risk of mycotoxins in modem feed production. Animal Feed Science and Technology, 2007; 133: 149-166.
  • Chestnut, A.B., Anderson, P.D., Cochran, M.A., Fribourg, H.A., Gwinn, K.D.: Effects of h yd rated sodium calcium aluminosilicate on fescue toxicosis and mineral absorption, j . Antra Sei., 1992; 70:2838-2846.
  • Diaz, D.E., Hagler, W.M., Blackvvelder, J . T . , Eve, J.A., Hopkins, B.A., Anderson, K . L . , Jones, F.T., Whitlow, L.W.: Aflatoxin binders 11: reduction of anatoxin M I in milk by sequestering agents of cows consuming aflatoxin in feed. Mycopathologia, 2004; 157: 233-241.
  • Diaz-Llano, G . , Smith, T . K . : Effects of feeding grains naturally contaminated with Fusarium mycotoxins with and without a polymeric glucomannan mycotoxin adsorbent on reproductive performance and serum chemistry o f pregnant gilts. J. Anim. Sei.. 2006; 84:2361-2366.
  • Doli, S., Dänicke, S., Valenta, H., Flachowsky, G . : In vitro studies on the evaluation o f mycotoxin detoxifying agents for their efficacy on dcoxynivalenol and zcaralenone. Arch. Anim. Nutr., 2004; 58:311-324.
  • Dwarakanath, C T . , Rayner, E . T . , Man, G . E , Dollear, F.G.: Reduction of aflatoxin levels in cottonseed and peanut meals by ozonization. J. Am. Oil Chcm. Soc, 1968; 45:93-95.
  • El-Nezami, H.S., Chrevatidis, A-, Auriola, S., Salminen, S., Mykkânen, H.: Removal of common Fusarium toxins in vitro by strains o f Lactobacillus and Propionibactcrium. Food Addit. Contam., 2002a; 19:680-686.
  • El-Sharkawy, S., Abul-Hajj, Y . J . : Microbial cleavage of zearalenonc. Xenobiotica, 1988; 18: 365-371.
  • Galvano, F., Pietri, A-, Bertuzzi, T . , Fıısconİ, G., Galvano, M., Piva, A., Piva, G.: Reduction of carry over of anatoxin from cow feed to milk by addition of activated carbons. J. Food Prot., 1996; 59:551-554.
  • Haskard C . , EI-Nazami, H., Kankaanpaa, P., Salminen, S., Ahokas, J . : Surface binding of aflatoxin B l by lactic acid bacteria. Appl. Environ. Microbiol., 2001; 67:3086-3091.
  • Hoogenboom L.A.P., Polman T.H.G., Neal G . E . , Verma A., Guyomards C . , Tulliez J . , Gautier J.P., Coker R.D., Nagler M.J., Heidenreich E . , Delort-Laval J . : Genotoxicity testing of extracts from aflatoxin-contaminated peanut meal, following chemical decontamination. Food Addit. Contam., 200 a; 18(4): 329-341.
  • Kaya, S., Yarsan, E . : Yem ve yem hammaddelerinde küflenmenin önlenmesi ve mikotoksinlerle kirletilmiş bu tür yemlerin değerlendirilmesine yönelik uygulamalar. Ankara Üni. Vct. Fak. Derg., 1995; 42(2): 111-122.
  • Kells S.A., Mason L . J . , Maier D.E., Woloshuk C P . : Efficacy and fumigation characteristics of ozone in stored maize. Journal of Stored Products Research, 200 ; 37: 3 7 1 - 3S2.
  • Kerkadi, A., Barriault, C , Tuchweber, B., Frohlich, A.A., Marquardt, R.R., Bouchardand, G., Yousef, I.M.: Dietary cholestyramine reduces ochratoxin A-induced nephrotoxicity in the rat by decreasing plasma levels and enhancing fecal excretion of the toxin. J. Toxicol. Environ. Health, 1998; 3:231-250.
  • Kubena, L . F . , Harvey, R.B., Huff, W.E., Elissalde, M.H., Yersin, A.G., Phillips, T.D. Rottinghaus, G . E . : Efficacy of hydrated sodium calcium aluminosilicates to reduce the toxicity of aflatoxin and diacetoxyscirpenoi. Pouit. Sci., 1993; 72:51-59.
  • Kubena, L . F . , Hull", W.E., Harvey, R . B . , Yersin, A . G . , Elissalde, M.H., Witzel, D.A., Giroir, L . E . , Phillips T.D., Petersen, H.D.: Effects of hydrated sodium calcium aluminosilicates on growing turkey poults during aflatoxicosis. Poult. Sci., 1991; 70:1823ı 1830.
  • Lemke, S.L., Mayura, K., Ottinger, S.E., Mckenzie, K.S., Naisyin, W., Fickey, C , Kubena, L . F . , Phillips, T.D.: Assessment of the estrogenic effects of zearalenone after treatment with ozone utilizing the mouse uterine weight bioassay. J. Toxicol. Environ. Health, 1999; 56: 283-295. F-3 2S
  • Lindemann, M.D., Blodgett, D.J., E . T . Kornegay, E . T . , Schurig, G . G . : Potential ameliorators of aflatoxicosis in weanling/growing swine. J. Anim. Sci., 1993; 71:171-178.
  • Maeba, H, Takaınoto, Y , Kamimura, M, Miura, T.: Destruction and detoxification of aflatoxins with ozone. J. Food Sci., 1988; 53(2):667-668.
  • Marquardt, R.R., Frohlich, A . A . : A review o f recent advances in understanding ochratoxicosis. J. Anim. Sci., 1992; 70 (12): 3968-3988.
  • McKenzie, K.S.: Degradation and detoxification of common chemical contaminants of food and water using ozone generated by electrolysis. [Dissertation]. College Station, T X : Texas A & M University. 1997, 200 s.
  • McKenzie, K.S., Kubena, L . F . , Denvir, A . J . , Rogers, T.D., Hitchens, G.D., Bailey, R.H., Harvey, R.B., Buckley, S.A., Phillips, T.D.: Aflatoxicosis in turkey poults is prevented by treatment of naturally contaminated corn with ozone generated by electrolysis. Poultry Sci., 1998;77:1094-1102.
  • Mckenzie, K.S., Sarr, A.B., Mayura, K , Bailey, R.H., D. R. Mdlcr, D.R., Rogers, T.D., Norred, W.P., Voss, K.A., R. D. Plattner, R.D., Kubena, L . F . , And T. D. Phillips, T.D.: Oxidative Degradation and Detoxification of Mycotoxins Using a Novel Source of Ozone. Food and Chemical Toxicology, 1997; 35: 807-820.
  • Millan, T.F.R., Martinez Y . A . J . : Efficacy and stability of ammoniation process as aflatoxin B I decontamination technology in rice. Arch. Latinoam Nutr.. 2003; 53(3):287-92
  • Molnar, O., Schatzmay, G., Fuchs, E . , Prillinger, H.: Trichosporon mycotoxiiiivorans sp. nov., A New Yeast Species Useful in Biological Detoxification of Various Mycotoxins. System. Appl. Microbiol., 2004; 27: 661-671.
  • Norred, W.P., Voss, K.A., Bacon, C.W., Riley, R.T.: Effectiveness of ammonia treatment in detoxification of fumonisin-contaminated corn. Food Chem. Toxicol.. 1991: 29(12J:815- 819.
  • Oğuz, H., Kurtoğlu, V., Coşkun, B.: Preventive efficacy o f clinoptüolite in broilers during chronic aflatoxin (50 and 100 ppb) exposure. Research in Veterinary Science, 2000; 69: 197ı 201.
  • Oğuz, H., Kurtoğlu, V., Ortatatlı, M.: Preventive efficiency of dietary zeolite (clinoptilolite) in broiler chickens during aflatoxicosis. Proceedings X V European Symposium on the Quality of Poultry Meat. 9-12 September, Kuşadası-Turkey, 2001 ;145- 150 s.
  • Parlat, S.S., Yildİz, A.Ö., Oğuz, H,: Effect of clinoptilolite on performance of Japanese quail (Coturnix cotumix japónica) during experimental aflatoxicosis. Br. Poult. Sci., 1999; 40: 495-500.
  • Mikotoksinlcrin Önlenmesinde Kullanılan Bazı Yöntemler
  • Phillips, T.D., Kubena, L . F . , Harvey, R.B., Taylor, D.R., Heidclbaugh, N.D.: Hydrated sodium calcium aluminosilicate. A high affinity sorbent for aflatoxin. Poult. Sei.. 1988; 67:243-247.
  • Raymond, S.L., Smith, T . K . , Swamy, H.V.L.N.: Effects of feeding a blend of grains naturally contaminated with Fusarium mycotoxins on feed intake, serum chemistry, and hematology o f horses, and the efficacy of a polymeric glucomannan mycotoxin adsorbent. J. Anim. Sei., 2003; 81:2123-2130.
  • Solfrizzo, M., Visconti, A., Avantaggiato, G . , Torres, A., Chulze, S-: In vitro and in vivo studies lo assess the effectiveness of cholestyramine as a binding agent for fumonisins. Mycopathologia. 2001; 151:147-153.
  • Stanley, V . G . , Ojo, R., Woldesenbet, S., Hutchinson, D.H.: The use of Saccharomyces cerevisiae to suppress the effects of aflatoxicosis in broiler chicks. Poult. Sei., 1993; 72: 1867-1872.
  • Watts, C M . , Chen, Y . C . , Ledoux, D.R., J.N. Broomhead, J.N., Bermudez, A . J . , Rottinghaus, G . E . : Effects of multiple mycotoxins and a hydrated sodium calcium aluminosilicate in poultry. Inter. J. Poult. Sei., 2003; 2:372-378.
  • Wegst, W., Lingens, F . : Bacterial degradation of ochratoxin A. FEMS Microbiology Letters, 1983; 17: 341-344.
Year 2009, Volume: 35 Issue: 1, 19 - 29, 20.11.2009

References

  • Alegakis A . K . , Tsatsakis, A.M., Shtilman, M.I., Lysovenko, D.L., Vlachonikolis, I . G . : Deactivation of mycotoxins. I . An in vitro study of zcaralenone adsorption on new polymeric adsorbents. J. Environ. Sei. Health B.,1999; 34:633-644.
  • Araba, M-, Wyatt, R.D.: Effects of sodium bentonite, hydratcd sodium calcium aluminosilicate NovaSil™. and cthacal on aflatoxicosis in broiler chickens. Poult. Sei.. 1991; 70, Suppl. I,s. 6.
  • Avantaggiato, G . , Havenaar, R., Viscontia, A.: Evaluation of the intestinal absorption of deoxynivalcno and nivalenol by an in vitro gastrointestinal model, and the binding efficacy of activated carbon and other adsorbent materials. Food and Chemical Toxicology, 2004; 42: 817-824.
  • Bauer, J . : Möglichkeiten zur Entgiftung mykotoxinhaitiger Futtermittel. Monatsh. Veterin armed., 1994; 49:175-181.
  • Bhatnagar, D., Payne, G.A., Cleveland, T . E . , Robens, J . F . : Mycotoxins: current issues in USA. In: Barug, D., Egmond, H.V., Lopez-Garcia, R., Osenbruggcn, T.V., Visconti, A. (Eds.), Meeting the Mykotoxin Menace. Wageningen Academic Publishers. 2004. ISBN 9076998280, 17-47 s.
  • Binder, E.M.: Managing the risk of mycotoxins in modem feed production. Animal Feed Science and Technology, 2007; 133: 149-166.
  • Chestnut, A.B., Anderson, P.D., Cochran, M.A., Fribourg, H.A., Gwinn, K.D.: Effects of h yd rated sodium calcium aluminosilicate on fescue toxicosis and mineral absorption, j . Antra Sei., 1992; 70:2838-2846.
  • Diaz, D.E., Hagler, W.M., Blackvvelder, J . T . , Eve, J.A., Hopkins, B.A., Anderson, K . L . , Jones, F.T., Whitlow, L.W.: Aflatoxin binders 11: reduction of anatoxin M I in milk by sequestering agents of cows consuming aflatoxin in feed. Mycopathologia, 2004; 157: 233-241.
  • Diaz-Llano, G . , Smith, T . K . : Effects of feeding grains naturally contaminated with Fusarium mycotoxins with and without a polymeric glucomannan mycotoxin adsorbent on reproductive performance and serum chemistry o f pregnant gilts. J. Anim. Sei.. 2006; 84:2361-2366.
  • Doli, S., Dänicke, S., Valenta, H., Flachowsky, G . : In vitro studies on the evaluation o f mycotoxin detoxifying agents for their efficacy on dcoxynivalenol and zcaralenone. Arch. Anim. Nutr., 2004; 58:311-324.
  • Dwarakanath, C T . , Rayner, E . T . , Man, G . E , Dollear, F.G.: Reduction of aflatoxin levels in cottonseed and peanut meals by ozonization. J. Am. Oil Chcm. Soc, 1968; 45:93-95.
  • El-Nezami, H.S., Chrevatidis, A-, Auriola, S., Salminen, S., Mykkânen, H.: Removal of common Fusarium toxins in vitro by strains o f Lactobacillus and Propionibactcrium. Food Addit. Contam., 2002a; 19:680-686.
  • El-Sharkawy, S., Abul-Hajj, Y . J . : Microbial cleavage of zearalenonc. Xenobiotica, 1988; 18: 365-371.
  • Galvano, F., Pietri, A-, Bertuzzi, T . , Fıısconİ, G., Galvano, M., Piva, A., Piva, G.: Reduction of carry over of anatoxin from cow feed to milk by addition of activated carbons. J. Food Prot., 1996; 59:551-554.
  • Haskard C . , EI-Nazami, H., Kankaanpaa, P., Salminen, S., Ahokas, J . : Surface binding of aflatoxin B l by lactic acid bacteria. Appl. Environ. Microbiol., 2001; 67:3086-3091.
  • Hoogenboom L.A.P., Polman T.H.G., Neal G . E . , Verma A., Guyomards C . , Tulliez J . , Gautier J.P., Coker R.D., Nagler M.J., Heidenreich E . , Delort-Laval J . : Genotoxicity testing of extracts from aflatoxin-contaminated peanut meal, following chemical decontamination. Food Addit. Contam., 200 a; 18(4): 329-341.
  • Kaya, S., Yarsan, E . : Yem ve yem hammaddelerinde küflenmenin önlenmesi ve mikotoksinlerle kirletilmiş bu tür yemlerin değerlendirilmesine yönelik uygulamalar. Ankara Üni. Vct. Fak. Derg., 1995; 42(2): 111-122.
  • Kells S.A., Mason L . J . , Maier D.E., Woloshuk C P . : Efficacy and fumigation characteristics of ozone in stored maize. Journal of Stored Products Research, 200 ; 37: 3 7 1 - 3S2.
  • Kerkadi, A., Barriault, C , Tuchweber, B., Frohlich, A.A., Marquardt, R.R., Bouchardand, G., Yousef, I.M.: Dietary cholestyramine reduces ochratoxin A-induced nephrotoxicity in the rat by decreasing plasma levels and enhancing fecal excretion of the toxin. J. Toxicol. Environ. Health, 1998; 3:231-250.
  • Kubena, L . F . , Harvey, R.B., Huff, W.E., Elissalde, M.H., Yersin, A.G., Phillips, T.D. Rottinghaus, G . E . : Efficacy of hydrated sodium calcium aluminosilicates to reduce the toxicity of aflatoxin and diacetoxyscirpenoi. Pouit. Sci., 1993; 72:51-59.
  • Kubena, L . F . , Hull", W.E., Harvey, R . B . , Yersin, A . G . , Elissalde, M.H., Witzel, D.A., Giroir, L . E . , Phillips T.D., Petersen, H.D.: Effects of hydrated sodium calcium aluminosilicates on growing turkey poults during aflatoxicosis. Poult. Sci., 1991; 70:1823ı 1830.
  • Lemke, S.L., Mayura, K., Ottinger, S.E., Mckenzie, K.S., Naisyin, W., Fickey, C , Kubena, L . F . , Phillips, T.D.: Assessment of the estrogenic effects of zearalenone after treatment with ozone utilizing the mouse uterine weight bioassay. J. Toxicol. Environ. Health, 1999; 56: 283-295. F-3 2S
  • Lindemann, M.D., Blodgett, D.J., E . T . Kornegay, E . T . , Schurig, G . G . : Potential ameliorators of aflatoxicosis in weanling/growing swine. J. Anim. Sci., 1993; 71:171-178.
  • Maeba, H, Takaınoto, Y , Kamimura, M, Miura, T.: Destruction and detoxification of aflatoxins with ozone. J. Food Sci., 1988; 53(2):667-668.
  • Marquardt, R.R., Frohlich, A . A . : A review o f recent advances in understanding ochratoxicosis. J. Anim. Sci., 1992; 70 (12): 3968-3988.
  • McKenzie, K.S.: Degradation and detoxification of common chemical contaminants of food and water using ozone generated by electrolysis. [Dissertation]. College Station, T X : Texas A & M University. 1997, 200 s.
  • McKenzie, K.S., Kubena, L . F . , Denvir, A . J . , Rogers, T.D., Hitchens, G.D., Bailey, R.H., Harvey, R.B., Buckley, S.A., Phillips, T.D.: Aflatoxicosis in turkey poults is prevented by treatment of naturally contaminated corn with ozone generated by electrolysis. Poultry Sci., 1998;77:1094-1102.
  • Mckenzie, K.S., Sarr, A.B., Mayura, K , Bailey, R.H., D. R. Mdlcr, D.R., Rogers, T.D., Norred, W.P., Voss, K.A., R. D. Plattner, R.D., Kubena, L . F . , And T. D. Phillips, T.D.: Oxidative Degradation and Detoxification of Mycotoxins Using a Novel Source of Ozone. Food and Chemical Toxicology, 1997; 35: 807-820.
  • Millan, T.F.R., Martinez Y . A . J . : Efficacy and stability of ammoniation process as aflatoxin B I decontamination technology in rice. Arch. Latinoam Nutr.. 2003; 53(3):287-92
  • Molnar, O., Schatzmay, G., Fuchs, E . , Prillinger, H.: Trichosporon mycotoxiiiivorans sp. nov., A New Yeast Species Useful in Biological Detoxification of Various Mycotoxins. System. Appl. Microbiol., 2004; 27: 661-671.
  • Norred, W.P., Voss, K.A., Bacon, C.W., Riley, R.T.: Effectiveness of ammonia treatment in detoxification of fumonisin-contaminated corn. Food Chem. Toxicol.. 1991: 29(12J:815- 819.
  • Oğuz, H., Kurtoğlu, V., Coşkun, B.: Preventive efficacy o f clinoptüolite in broilers during chronic aflatoxin (50 and 100 ppb) exposure. Research in Veterinary Science, 2000; 69: 197ı 201.
  • Oğuz, H., Kurtoğlu, V., Ortatatlı, M.: Preventive efficiency of dietary zeolite (clinoptilolite) in broiler chickens during aflatoxicosis. Proceedings X V European Symposium on the Quality of Poultry Meat. 9-12 September, Kuşadası-Turkey, 2001 ;145- 150 s.
  • Parlat, S.S., Yildİz, A.Ö., Oğuz, H,: Effect of clinoptilolite on performance of Japanese quail (Coturnix cotumix japónica) during experimental aflatoxicosis. Br. Poult. Sci., 1999; 40: 495-500.
  • Mikotoksinlcrin Önlenmesinde Kullanılan Bazı Yöntemler
  • Phillips, T.D., Kubena, L . F . , Harvey, R.B., Taylor, D.R., Heidclbaugh, N.D.: Hydrated sodium calcium aluminosilicate. A high affinity sorbent for aflatoxin. Poult. Sei.. 1988; 67:243-247.
  • Raymond, S.L., Smith, T . K . , Swamy, H.V.L.N.: Effects of feeding a blend of grains naturally contaminated with Fusarium mycotoxins on feed intake, serum chemistry, and hematology o f horses, and the efficacy of a polymeric glucomannan mycotoxin adsorbent. J. Anim. Sei., 2003; 81:2123-2130.
  • Solfrizzo, M., Visconti, A., Avantaggiato, G . , Torres, A., Chulze, S-: In vitro and in vivo studies lo assess the effectiveness of cholestyramine as a binding agent for fumonisins. Mycopathologia. 2001; 151:147-153.
  • Stanley, V . G . , Ojo, R., Woldesenbet, S., Hutchinson, D.H.: The use of Saccharomyces cerevisiae to suppress the effects of aflatoxicosis in broiler chicks. Poult. Sei., 1993; 72: 1867-1872.
  • Watts, C M . , Chen, Y . C . , Ledoux, D.R., J.N. Broomhead, J.N., Bermudez, A . J . , Rottinghaus, G . E . : Effects of multiple mycotoxins and a hydrated sodium calcium aluminosilicate in poultry. Inter. J. Poult. Sei., 2003; 2:372-378.
  • Wegst, W., Lingens, F . : Bacterial degradation of ochratoxin A. FEMS Microbiology Letters, 1983; 17: 341-344.
There are 41 citations in total.

Details

Primary Language Turkish
Journal Section Review
Authors

Onur Keser

Halil Kutay

Publication Date November 20, 2009
Published in Issue Year 2009 Volume: 35 Issue: 1

Cite

APA Keser, O., & Kutay, H. (2009). MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER. İstanbul Üniversitesi Veteriner Fakültesi Dergisi, 35(1), 19-29. https://doi.org/10.16988/iuvfd.95100
AMA Keser O, Kutay H. MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER. iuvfd. November 2009;35(1):19-29. doi:10.16988/iuvfd.95100
Chicago Keser, Onur, and Halil Kutay. “MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER”. İstanbul Üniversitesi Veteriner Fakültesi Dergisi 35, no. 1 (November 2009): 19-29. https://doi.org/10.16988/iuvfd.95100.
EndNote Keser O, Kutay H (November 1, 2009) MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER. İstanbul Üniversitesi Veteriner Fakültesi Dergisi 35 1 19–29.
IEEE O. Keser and H. Kutay, “MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER”, iuvfd, vol. 35, no. 1, pp. 19–29, 2009, doi: 10.16988/iuvfd.95100.
ISNAD Keser, Onur - Kutay, Halil. “MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER”. İstanbul Üniversitesi Veteriner Fakültesi Dergisi 35/1 (November 2009), 19-29. https://doi.org/10.16988/iuvfd.95100.
JAMA Keser O, Kutay H. MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER. iuvfd. 2009;35:19–29.
MLA Keser, Onur and Halil Kutay. “MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER”. İstanbul Üniversitesi Veteriner Fakültesi Dergisi, vol. 35, no. 1, 2009, pp. 19-29, doi:10.16988/iuvfd.95100.
Vancouver Keser O, Kutay H. MİKOTOKSİNLERiN ÖNLENMESİNDE KULLANILAN BAZI YÖNTEMLER II. KiMYASAL VE BİYOLOJİK YÖNTEMLER. iuvfd. 2009;35(1):19-2.