Kouadio Ahou Irène, Lebrihi Ahmed, Agbo Georges N' Zi, Mathieu Florence, Pfohl-Leszkowiz Annie, Dosso Mireille Bretin
Laboratoire de génie chimique, Unité mixte de recherche 5503, Equipe Génie des systèmes microbiens , INP/ENSAT, Avenue de l'Agrobiopole, B.P. 32607 Auzeville Tolosane, 31326 Castanet Tolosan, Toulouse, France.
Can J Microbiol. 2007 Jul;53(7):852-9. doi: 10.1139/W06-143.
In the present study, the effect of temperature and water activity on fungal growth and ochratoxin production on coffee-based medium was assessed. Optimal growth of three Aspergillus strains was observed in the same ecological conditions, namely 30 degrees C and 0.99 water activity. Maximal daily growth is 11.2, 6.92, and 7.22 mm/day for Aspergillus niger, Aspergillus carbonarius, and Aspergillus ochraceus, respectively. However, ecological conditions for optimal ochratoxin production vary according to the toxinogenic strain, with water activity as a limiting factor. Such an ochratoxin A production is inhibited at 42 degrees C and 0.75 water activity. Correspondence between laboratory tested water activity and that measured on a sun-dried ripe cherry batch shows that the first 5 days of drying are critical for fungal growth and ochratoxin A production. Accordingly, artificial drying of cherries at temperatures above 42 degrees C will impede not only fungal growth but also contamination with ochratoxin A.
在本研究中,评估了温度和水分活度对咖啡基培养基上真菌生长和赭曲霉毒素产生的影响。在相同的生态条件下,即30摄氏度和0.99的水分活度下,观察到三种曲霉菌株的最佳生长情况。黑曲霉、炭黑曲霉和赭曲霉的最大日生长量分别为11.2、6.92和7.22毫米/天。然而,最佳赭曲霉毒素产生的生态条件因产毒菌株而异,水分活度是一个限制因素。在42摄氏度和0.75的水分活度下,赭曲霉毒素A的产生受到抑制。实验室测试的水分活度与晒干成熟樱桃批次测量的水分活度之间的对应关系表明,干燥的前5天对真菌生长和赭曲霉毒素A的产生至关重要。因此,在高于42摄氏度的温度下人工干燥樱桃不仅会阻碍真菌生长,还会阻止赭曲霉毒素A的污染。