Paper Titles

The Research on Growthtraits of Alfalfa Irradiated by ¹²C^{6 +} Ion Beam
p.2156

Effect of Nitric Oxide Treatment on Storage Quality and Disease Resistance of Satsuma Mandarin Fruits
p.2163

Effects of Ensiling Fodder Ramie (Boehmeria nivea L.) with Lactic Acid Bacteria and Molasses on Fermentation Quality
p.2167

Fermentation Performance and Flavor Characteristics of Corn Wine
p.2172

Occurrence, Rapid Analysis, and Detoxification of Fumonisins in Maize and its Feeds: Review
p.2180

Optimization of Preparation Conditions of Crosslinked Potato Starch Microsphere through Orthogonal Experimental Design
p.2188

Predicting Starch Concentration with NIR Spectroscopy in Relation to Reference Method
p.2199

The Mechanism of Leaf Senescence in Tobacco
p.2211

The Study Analysis of the Flour Quality Influence on Baked Goods
p.2218

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 524-527Occurrence, Rapid Analysis, and Detoxification of...

Occurrence, Rapid Analysis, and Detoxification of Fumonisins in Maize and its Feeds: Review

Article Preview

Abstract:

Maize (Zea mays L.) is one of the main cereals as a source of food, forage and processed products for industry, especially for feeds. However, in worldwide approximately 25% of crops are affected by mycotoxins annually, especially in feeds with fumonisins(FUM). Moreover, the exact mechanism of FUM toxicity is not completely established. This paper gives an overview about the occurrence, toxicity, rapid non-invasive analysis, and detoxification of FUM in maize and its feeds. Due to economic losses engendered by FUM and its impact on animal and human health, several strategies for detecting mycotoxins with non-invasive methods and detoxifying contaminated feeds have been described.

You might also be interested in these eBooks

Natural Resources and Sustainable Development II

Info:

Periodical:

Advanced Materials Research (Volumes 524-527)

Pages:

2180-2187

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.524-527.2180

Citation:

Cite this paper

Online since:

May 2012

Authors:

Guo Hao Yang, Feng Jia, Li Zhang, Jin Shui Wang

Keywords:

Detoxification, Feeds, Fumonisins, Rapid Analysis, Toxicity

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] S. Chulze: Food Additives and Contaminants Vol. 27 (2010), p.651

[2] CAST, "Mycotoxins: Economic and Health Risks," ed. Ames, Iowa: Council for Agricultural Science and Technology (1989).

[3] E.R. Palencia, D.M. Hinton, and C.W. Bacon: Toxins Vol. 2 (2010), p.399

[4] L. Folcher, M. Delos, E. Marengue, M. Jarry, A. Weissenberger, N. Eychenne, and C. Regnault-Roger: Agronomy for Sustainable Development Vol. 30 (2010), p.711.

DOI: 10.1051/agro/2010005

[5] W. Marasas: Environmental health perspectives Vol. 109 (2001), p.239

[6] IARC,in: Some traditional herbal medicines, some mycotoxins, naphthalene and styreneInternational Agency for Research on Cancer Press, Lyon(2002).

[7] G.S. Shephard, P.G. Thiel, S. Stockenström, and E.W. Sydenham: Journal of AOAC international Vol. 79 (1996), p.671

[8] L. Whitlow and W. Hagler Jr: Feedstuffs Vol. 14 (2005), p.69

[9] M. Löffler, B. Kessel, M. Ouzunova, and T. Miedaner: Theoretical and Applied Genetics Vol. 122 (2010), p.925

[10] F. Trail, N. Mahanti, and J. Linz: Microbiology Vol. 141 (1995), p.755

[11] CAST, "Mycotoxins: risk in plant, animal, and human system," Council for agricultural science and technology, Ames, Iowa, USA2003.

[12] G. Avantaggiato, F. Quaranta, E. Desiderio, and A. Visconti: Journal of the Science of Food and Agriculture Vol. 83 (2003), p.13

[13] A. Molinelli, K. Grossalber, and R. Krska: Analytical and bioanalytical chemistry Vol. 395 (2009), p.1309

[14] P.F. Ross, L.G. Rice, G.D. Osweiler, P.E. Nelson, J.L. Richard, and T.M. Wilson: Mycopathologia Vol. 117 (1992), p.109

[15] K.A. Scudamore and S. Patel: Food Additives and Contaminants Vol. 17 (2000), p.407

[16] M.E. Cawood, W.C.A. Gelderblom, R. Vleggaar, Y. Behrend, P.G. Thiel, and W.F.O. Marasas: Journal of agricultural and food chemistry Vol. 39 (1991), p. (1958)

DOI: 10.1021/jf00011a014

[17] W. Gelderblom, K. Jaskiewicz, W. Marasas, P. Thiel, R. Horak, R. Vleggaar, and N. Kriek: Applied and Environmental Microbiology Vol. 54 (1988), p.1806.

DOI: 10.1128/aem.54.7.1806-1811.1988

[18] W. Marasas, T. Kellerman, W. Gelderblom, J. Coetzer, P. Thiel, and J. Van der Lugt: The Onderstepoort journal of veterinary research Vol. 55 (1988), p.197

[19] T. Kellerman, W. Marasas, P. Thiel, W. Gelderblom, M. Cawood, and J. Coetzer: Onderstepoort Journal of Veterinary Research Vol. 57 (1990), p.269

[20] L.R. Harrison, B.M. Colvin, J.T. Greene, L.E. Newman, and J.R. Cole: Journal of Veterinary Diagnostic Investigation Vol. 2 (1990), p.217.

[21] B.M. Colvin and L.R. Harrison: Mycopathologia Vol. 117 (1992), p.79

[22] W. Gelderblom, N. Kriek, W. Marasas, and P. Thiel: Carcinogenesis Vol. 12 (1991), p.1247

[23] T. Weibking, D. Ledoux, A. Bermudez, J. Turk, G. Rottinghaus, E. Wang, and A. Merrill Jr: Poultry science Vol. 72 (1993), p.456

DOI: 10.3382/ps.0720456

[24] L. Kubena, T. Edrington, R. Harvey, S. Buckley, T. Phillips, G. Rottinghaus, and H. Casper: Poultry science Vol. 76 (1997), p.1239

DOI: 10.1093/ps/76.9.1239

[25] M. Henry and R. Wyatt: Poultry science Vol. 80 (2001), p.401

[26] T. Javed, G. Bennett, J. Richard, M. Dombrink-Kurtzman, L. Cote, and W. Buck: Mycopathologia Vol. 123 (1993), p.171

[27] P.A. Murphy, L.G. Rice, and P.F. Ross: Journal of agricultural and food chemistry Vol. 41 (1993), p.263

[28] H.M. Müller and K. Schwadorf: Mycopathologia Vol. 121 (1993), p.115

[29] D.S. Wang, "Co-contamination of mycotoxins in corn harvested in Haimen, a high risk area of primary liver cancer in China," 1995, p.67

[30] S.N. Chulze, M.L. Ramirez, M.C. Farnochi, M. Pascale, A. Visconti, and G. March: Journal of agricultural and food chemistry Vol. 44 (1996), p.2797

DOI: 10.1021/jf950381d

[31] M.B. Doko, S. Rapior, A. Visconti, and J.E. Schjoth: Journal of agricultural and food chemistry Vol. 43 (1995), p.429

[32] R.T. Riley and K.A. Voss: Toxicological Sciences Vol. 92 (2006), p.335

[33] W.C.A. Gelderblom, W.F.O. Marasas, R. Vleggaar, P.G. Thiel, and M. Cawood: Mycopathologia Vol. 117 (1992), p.11

DOI: 10.1007/bf00497273

[34] S. Wang, Y. Quan, N. Lee, and I.R. Kennedy: Journal of agricultural and food chemistry Vol. 54 (2006), p.2491.

[35] S.C. Bezuidenhout, W.C.A. Gelderblom, C.P. Gorst-Allman, R.M. Horak, W.F.O. Marasas, G. Spiteller, and R. Vleggaar: J. Chem. Soc., Chem. Commun. (1988), p.743

DOI: 10.1039/c39880000743

[36] G.D. Osweiler, P. Ross, T. Wilson, P. Nelson, S. Witte, T. Carson, L. Rice, and H. Nelson: Journal of Veterinary Diagnostic Investigation Vol. 4 (1992), p.53

[37] E. Wang, W. Norred, C. Bacon, R. Riley, and A. Merrill: Journal of Biological Chemistry Vol. 266 (1991), p.14486.

[38] J. Rheeder, W. Marasas, P. Theil, E. Sydenham, G. Shephard, and D. Van Schalkwyk: Phytopathology Vol. 82 (1992), p.353

[39] F.S. Chu and G.Y. Li: Applied and Environmental Microbiology Vol. 60 (1994), p.847

[40] P. Ross, L. Rice, J. Reagor, G. Osweiler, T. Wilson, H. Nelson, D. Owens, R. Plattner, K. Harlin, and J. Richard: Journal of Veterinary Diagnostic Investigation Vol. 3 (1991), p.238

DOI: 10.1177/104063879100300310

[41] G. Osweiler, M. Kehrli, J. Stabel, J. Thurston, P. Ross, and T. Wilson: Journal of animal science Vol. 71 (1993), p.459.

[42] R. Riley and J. Pestka. (2005). Mycotoxins: metabolism, mechanisms and biochemical markers.

[43] R. Riley, D. Hinton, W. Chamberlain, C. Bacon, E. Wang, A. Merrill Jr, and K. Voss: The Journal of nutrition Vol. 124 (1994), p.594

[44] W.F.O. Marasas, R.T. Riley, K.A. Hendricks, V.L. Stevens, T.W. Sadler, J. Gelineau-van Waes, S.A. Missmer, J. Cabrera, O. Torres, and W.C.A. Gelderblom: The Journal of nutrition Vol. 134 (2004), p.711

DOI: 10.1093/jn/134.4.711

[45] G.W. Smith, P.D. Constable, J.H. Foreman, R.M. Eppley, A.L. Waggoner, M.E. Tumbleson, and W.M. Haschek: American journal of veterinary research Vol. 63 (2002), p.538

DOI: 10.2460/ajvr.2002.63.538

[46] D. Wilson, H. Segall, L. Pan, M. Lame, J. Estep, and D. Morin: CRC Critical Reviews in Toxicology Vol. 22 (1992), p.307

[47] E. Wang, P.F. Ross, T.M. Wilson, R.T. Riley, and A.H. Merrill: The Journal of nutrition Vol. 122 (1992), p.1706

[48] T. M. Wilson, P. F. Ross, L. G. Rice, G. D. Osweiler, H. A. Nelson, D. L. Owens, R. D. Plattner, C. Reggiardo, T. H. Noon, and J. W. Pickrell: Journal of Veterinary Diagnostic Investigation Vol. 2 (1990), p.213.

DOI: 10.1177/104063879000200311

[49] P. Ross, P. Nelson, J. Richard, G. Osweiler, L. Rice, R. Plattner, and T. Wilson: Applied and Environmental Microbiology Vol. 56 (1990), p.3225

[50] W.M. Haschek, G. Motelin, D.K. Ness, K.S. Harlin, W.F. Hall, R.F. Vesonder, R.E. Peterson, and V.R. Beasley: Mycopathologia Vol. 117 (1992), p.83

DOI: 10.1007/bf00497283

[51] N. Kriek, T. Kellerman, and W.F. Marasas: The Onderstepoort journal of veterinary research Vol. 48 (1981), p.129

[52] D. Diaz, B. Hopkins, L. Leonard, W. Hagler Jr, and L. Whitlow: J. Dairy Sci Vol. 83 (2000), p.138

[53] J. Richard, G. Meerdink, C. Maragos, M. Tumbleson, G. Bordson, L. Rice, and P. Ross: Mycopathologia Vol. 133 (1996), p.123

DOI: 10.1007/bf00439124

[54] P. Scott, T. Delgado, D. Prelusky, H. Trenholm, and J. Miller: Journal of Environmental Science & Health Part B Vol. 29 (1994), p.989

[55] F. Caloni, M. Spotti, H. Auerbach, H. Op den Camp, J. Fink Gremmels, and G. Pompa: Veterinary Research Communications Vol. 24 (2000), p.379

DOI: 10.1023/a:1006422200226

[56] N. Gurung, D. Rankins Jr, and R. Shelby: Veterinary and human toxicology Vol. 41 (1999), p.196

[57] E.V. Wattenberg, F.A. Badria, and W.T. Shier: Biochemical and biophysical research communications Vol. 227 (1996), p.622

[58] S.A. Missmer, L. Suarez, M. Felkner, E. Wang, A. H. Merrill Jr, K. J. Rothman, and K. A. Hendricks: Environmental health perspectives Vol. 114 (2006), p.237

DOI: 10.1289/ehp.8221

[59] A.H. Merrill Jr, G. Van Echten, E. Wang, and K. Sandhoff: Journal of Biological Chemistry Vol. 268 (1993), p.27299

[60] W.M. Hagler Jr, K. Tyczkowska, and P. Hamilton: Applied and Environmental Microbiology Vol. 47 (1984), p.151

[61] P.C. Williams and K.H. Norris, Eds., Near Infrared Technology in the Agricultural and Food Industries (American Association of Cereal Chemists. St Paul, USA, (1987).

DOI: 10.1002/star.19880401015

[62] E. Deaville and P.C. Flinn, Eds., Near infrared (NIR) spectroscopy: an alternative approach for the estimation of forage quality and voluntary intake (Forage evaluation in ruminant nutrition. CAB International, (2000).

DOI: 10.1079/9780851993447.0301

[63] N. Berardo, V. Pisacane, P. Battilani, A. Scandolara, A. Pietri, and A. Marocco: Journal of agricultural and food chemistry Vol. 53 (2005), p.8128

DOI: 10.1021/jf0512297

[64] Q. Xu, J. Han, Z. Yu, and W. Yue: Spectroscopy and Spectral Analysis Vol. 30 (2010), p.1243

[65] Y. Yi, D. Li, Y. Zhang, and F. Yang: Spectroscopy and Spectral Analysis Vol. 29 (2009), p.1826

[66] X. Jin, L. Chen, J. Jiang, G. Shen, and R. Yu: Biosensors and Bioelectronics Vol. 24 (2009), p.2580

[67] L. Wang and X.X. Gan: Bioprocess and biosystems engineering Vol. 32 (2009), p.109

[68] A. Pointon: Physical Science, Measurement and Instrumentation, Management and Education-Reviews, IEE Proceedings A Vol. 129 (1982), p.285

[69] G. Juodeikiene, L. Basinskiene, D. Vidmantiene, E. Bartkiene, B. Bakutis, and V. Baliukoniene: World Mycotoxin Journal Vol. 4 (2011), p.395

DOI: 10.3920/wmj2011.1297

[70] A. Zinedine, J. M. Soriano, J.C. Molto, and J. Manes: Food and Chemical Toxicology Vol. 45 (2007), p.1

[71] D.L. Park, R. Lopez-Garcia, S. Trujillo-Preciado, and R. L. Price: Advances in experimental medicine and biology Vol. 392 (1996), p.335

[72] K. McKenzie, A. Sarr, K. Mayura, R. Bailey, D. Miller, T. Rogers, W. Norred, K. Voss, R. Plattner, and L. Kubena: Food and Chemical Toxicology Vol. 35 (1997), p.807

DOI: 10.1016/s0278-6915(97)00052-5

[73] D. Cazzaniga, J. Basilico, R. Gonzalez, R. Torres, and D. De Greef: Letters in applied microbiology Vol. 33 (2001), p.144

[74] M. Castells, S. Marin, V. Sanchis, and A. Ramos: Food Additives and Contaminants Vol. 22 (2005), p.150

[75] R.D. Coker: Natural toxicants in food Vol. 2 (1998), p.284

[76] A. Huwig, S. Freimund, O. Käppeli, and H. Dutler: Toxicology letters Vol. 122 (2001), p.179

DOI: 10.1016/s0378-4274(01)00360-5

[77] F. Galvano, A. Pietri, T. Bertuzzi, M. Bognanno, L. Chies, A. De Angelis, and M. Galvano: Journal of food protection Vol. 60 (1997), p.985.

DOI: 10.4315/0362-028x-60.8.985

[78] R. Barrer: Clays and Clay Minerals Vol. 37 (1989), p.385.

[79] F. Mumpton and P. Fishman: Journal of animal science Vol. 45 (1977), p.1188

[80] F. Galvano, A. Piva, A. Ritieni, and G. Galvano: Journal of Food Protection Vol. 64 (2001), p.120

DOI: 10.4315/0362-028x-64.1.120

[81] A.J. Ramos, J. Fink-Gremmels, and E. Hernandez: Journal of Food Protection Vol. 59 (1996), p.631

[82] A. Alegakis, A. Tsatsakis, M. Shtilman, D. Lysovenko, and I. Vlachonikolis: Journal of Environmental Science & Health Part B Vol. 34 (1999), p.633

DOI: 10.1080/03601239909373218

[83] J. Duvick, J. R. Maddox, T. A. Rood, X. Wang, B. A. Bowen, and J. T. Gilliam, "Fumonisin detoxification compositions and methods," US Patent, 2000.

[84] M.J. Sweeney and A.D.W. Dobson: International journal of food microbiology Vol. 43 (1998), p.141

[85] P. Karlovsky: Natural toxins Vol. 7 (1999), p.1

[86] J. Bauer: Monatshefte fuer Veterinaermedizin Vol. 49 (1994), p.175

[87] F. Radler and M. Schmitt: Journal of food protection Vol. 50 (1987), p.234