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Aldred, D., Olsen, M. and Magan, N. (2004) The use of HACCP in the control of mycotoxins: The case for cereals. In: Magan, N. and Olsen, M., (eds.) Mycotoxin in food: Detection and control. Wood-head Publishing, Ltd., Cambridge, U.K., pp. 139-173. Anderson, J. P. E. and Domsch, K .H. (1975) Measurement of bacterial and fungal contributions to respiration of selected agricultural and forest soils. Canadian Journal of Microbiology 21, 314-322. Cairns-Fuller, V. (2004) Dynamics and control of ochratoxigenic strains of Penicillium verrucosum and Aspergillus ochraceus in the stored grain ecosystem. Ph.D. Thesis. Cranfield University, Silsoe, Bedford, U.K.

Cairns-Fuller, V., Aldred, D. and Magan, N. (2005) Water, temperature and gas composition interactions affect growth and ochratoxin A production by isolates of Penicillium verrucosum on wheat grain. Journal of Applied Microbiology 99, 1215-1221.

Danks, C, Ostoja-Starzewska, S, Flint, J. and Banks, J. (2003). The development of a lateral flow device for the discrimination of ochratoxin A producing and non-producing fungi. Aspects of Applied Biology 68, 21-28.

Dawson, W.A.J.M., Bateman, G.L., Jestoi, M. and Rizzo, A. (2002a) Biological control of ear blight of wheat caused by Fusarium culmorum. Journal of Applied Genetics 43A, 217-222.

Dawson, W.A.J.M., Bateman, G.L., Kohl, J., Haas, B.H., de Lombaers-vander Plas, C.H., Corazza, L., Luongo, L., Galli, M., Jestoi, M. and Rizzo, A. (2002b) Controlling infection of cereal grain by toxigenic Fusarium species using fungal competitors. Brighton Crop Protection Conference 2002 - Pests and Diseases 1, 347-352.

Dawson, W.A.J.M., Jestoi, M., Rizzo, A., Nicholson, P. and Bateman, G.L. (2004) Field evaluation of fungal competitors of Fusarium culmorum and F. graminearum, causal agents of ear blight of winter wheat, for control of mycotoxin production in grain. Biocontrol Science and Technology 14, 783-799.

Detrixhe, P., Chandelier, A., Cavelier, M., Buffet, D. and Oger, R. (2003) Development of an agro-meteorological model integrating leaf wetness duration estimation to assess the risk of head blight infection in wheat. Aspects of Applied Biology 68, 199-204.

Diamond, H. and Cooke, B.M. (2003) Preliminary studies on biological control of the Fusarium ear blight complex of wheat. Crop Protection 22, 99-107.

Edwards, S. and Ray, R. (2005) Fusarium mycotoxins in UK wheat production. BCPC Crop Science and Technology 5B, 395-402.

FAO (Food and Agriculture Organization of the United Nations). (2004) Worldwide Regulations for Mycotoxins in Food and Feed in 2003. Food and Nutrition Paper 81. Rome, Italy.

FAO/WHO (World Health Organization). (2001) Ochratoxin A. In: Safety Evaluation of Certain My-cotoxins in Food. Fifty-sixth meeting of the Joint FAO/WHO Expert Committee on Food Additives (JECFA). FAO Food and Nutrition Paper 74, FAO, Rome, Italy.

Fanelli, C., Taddei, F., Trionfetti Nisini, P., Jestoi, M., Ricelli, A., Visconti, A. and Fabbri, A.A. (2003) Use of resvaretol and BHA to control fungal growth and mycotoxin production in wheat and maize seeds. Aspects of Applied Biology 68, 63-72.

Geisen, R. (2004) Molecular monitoring of environmental conditions influencing the induction of ochratoxin A biosynthesis genes in Penicillium nordicum. Molecular and Nutritional Food Research 48, 532-540.

Hooker, D.C. and Schaafsma, A.W. (2003) The DONcast Model: Using weather variables pre- and postheading to predict deoxynivalenol content in winter wheat. Aspects of Applied Biology 68, 117-122.

Hope, R and Magan, N. (2003) Two-dimensional environmental profiles of growth, Deoxynivalenol and nivalenol production by Fusarium culmorum on a wheat-based substrate. Letters in Applied Microbiology, 37, 70-74.

Hope, R., Aldred, D. and Magan, N. (2005a) Comparison of the effect of environmental factors on deox-ynivalenol production by F. culmorum and F. graminearum on wheat grain. Letters in Applied Microbiology 40, 295-300.

Hope, R., Cairns, V., Aldred, D. and Magan, N. (2005b) Use of antioxidants and essential oils for controlling mycotoxins in grain. BCPC Crop Science and Technology 2005 5B, 429-436.

Jennings, P., Kohl, J. and Gosman, N. (2004) Control of mycotoxins: Raw material production. In: Magan, N. and Olsen, M. (eds.) Mycotoxins in Food: Detection and Control. Woodhead Publishing, Ltd., Cambridge, U.K., pp. 443-460.

Johnsson N. and Pettersson, H. (1992) Comparison of different preservation methods for grain. In: Johansson, H., ed. Cereals in the Future Diet, Proceedings of the 24th Nordic Cereal Congress, (Stockholm 1990), Nordic Cereal Association, Lund, Sweden, pp. 357-364.

Kreyger, J. (1972) Drying and Storing Grains, Seeds and Pulses in Temperate Climates. Institute for Storage and Processing of Agricultural Produce, (IBVL), publication 205, Wageningen, Netherlands.

Lacey, J. Bateman, G.L. and Mirocha, C.J. (1999) Effects of infection time and moisture on the development of ear blight and deoxynivalenol production by Fusarium spp. in wheat. Annals of Applied Biology 134, 277-283.

Lindblad, M., Johnsson, P., Jonsson, N., Lindqvist, R. and Olsen, M. (2004) Predicting noncompliant levels of ochratoxin A in cereal grain from Penicillium verrucosum counts. Journal of Applied Microbiology 97, 609-616.

Lund, F. and Frisvad, J.C. (2003) Penicillium verrucosum in wheat and barley indicates presence of ochratoxin A. Journal of Applied Microbiology 95, 1117-1123.

Luongo, L., Galli, M., Corazza, L., Meekes, E., de Hass, L., van de Plas, C.L. and Kohl, J. (2005) Potential of fungal antagonists for control of Fusarium spp. on wheat and maize by competition on crop debris. Biocontrol Science and Technology 15, 229-242.

Magan, N., Hope, R., Colleate, A. and Baxter, E.S. (2002) Relationship between growth and myco-toxin production by Fusarium species, biocides and environment. European Journal of Plant Pathology 108, 685-690.

Magan, N., Hope, R., Cairns, V. and Aldred, D. (2003a) Post-harvest fungal ecology: Impact of fungal growth and mycotoxin accumulation in stored grain. European Journal of Plant Pathology 109, 723-730.

Magan N., Sanchis, V. and Aldred, D. (2003b) Role of spoilage fungi in seed deterioration. In: Aurora, D.K. (ed) Fungal Biotechnology in Agricultural, Food and Environmetal Applications, Marcel Dekker, New York, pp. 311-323.

Martin S., Tuite, J. and Diekman, M.A. (1989) Inhibition radioimmunoassay for Aspergillus repens compared with other indices of fungal growth in stored corn. Cereal Chemistry 66, 139-144.

Mesterhazy, A. (2002) Role of deoxynivalenol in aggressiveness of Fusarium graminearum and F. culmorum and in resistance to Fusarium head blight. European Journal of Plant Pathology 108, 675-684.

Moss, M.O., Frank, J.M., (1985) Influence of the fungicide tridemorph on T-2 toxin production by Fusarium sporotrichoides. Transactions of the British Mycological Society 84, 585-590.

Nicholson, P., Turner, J.A., Jenkinson, P., Jennings, P., Stonehouse, J., Nuttall, M., Dring, D., Weston, G. and Thomsett, M. (2003) Maximizing control with fungicides of Fusarium Ear Blight (FEB) in order to reduce toxin contamination of wheat. Project Report No. 297, Home Grown Cereals Authority, London.

Paster, N., Lisker, N. and Chet, I. (1983) Ochratoxin production by Aspergillus flavus Wilhem grown under controlled atmospheres. Applied and Environmental Microbiology 45, 1136-1139.

Ramakrishna, N., Lacey, J. and Smith, J.E. (1996) Colonization of barley grain by Penicillium verrucosum and ochratoxin A formation in the presence of competing fungi. Journal of Food Protection 59, 1311-1317.

Ramirez, M.L., Chulze, S and Magan, N (2004) Impact of environmental factors and fungicides on growth and deoxynivalenol production by Fusarium graminearum isolates from Argentinian wheat. Crop Protection 23, 117-125.

Ramirez, M.L., Chulze, S. and Magan, N. (2006) Interacting environmental factors, growth and temporal deoxynivalenol production by strains of Fusarium graminearum from Argentina on wheat grain. International Journal of Food Microbiology 106, 291-296.

Ricelli, A., Fabbri, A.A., Trionfetti-Nisini, P., Reverberi, M., Zjalic, S. and Fanelli, C. (2002) Inhibiting effect of different edible and medicinal mushrooms on the growth of two ochratoxigenic mi-crofungi. International Journal of Medicinal Mushrooms 4, 173-179.

Rossi, V., Giosue, S. and Delogu, G. (2003) A model estimating risk for Fusarium mycotoxins in wheat kernels. Aspects of Applied Biology 68, 229-234.

SCF (Scientific Committee on Food) (1998) Opinion of the Scientific Committee on food on ochra-toxin A (expressed on 17 September 1998). Directorate, Scientific Opinions. European Commission, Brussels, Belgium

SCOOP. (2002) Assessment of dietary intake of ochratoxin A by the population of EU member states. (European Commission web page:

Scudamore, K. A., Banks, J., and MacDonald, S. J. (2003). Fate of ochratoxin A in the processing of whole wheat grains during milling and bread production. Food Additives and Contaminants 20, 1153-1163.

Seitz, L.M., Sauer, D.B. and Mohr, H.E. (1982) Storage of high-moisture corn: Fungal growth and dry matter loss. Cereal Chemistry 59, 100-105.

Simpson, D.R., Weston, G.E., Turner, J.A., Jennings, P. and Nicholson, P. (2001) Differential control of head blight pathogens of wheat by fungicides and consequences for mycotoxin contamination in grain. European Journal of Plant Pathology 107, 421-431.

Steel, I.F., Saul, R.A. and Hukill, W.V. (1969) Deterioration rate of shelled corn as measured by carbon dioxide production. Transactions of American Society of Agricultural Engineers 12, 685-689.

White, N.D.G., Sinha, R.N. and Muir, W.E. (1982) Intergranular carbon dioxide as an indicator of biological activity associated with the spoilage of stored wheat. Canadian Agricultural Engineering 24, 35-42.

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