Departamento de Ciencia y Tecnología, Ingeniería en Alimentos, Universidad Nacional de Quilmes, Buenos Aires, Argentina.
Int J Food Microbiol. 2012 Mar 15;154(3):187-91. doi: 10.1016/j.ijfoodmicro.2012.01.004. Epub 2012 Jan 12.
Blueberries are traditionally consumed in North America, some European countries and Japan. In Argentina, the blueberry crop is profitable because production starts in November, when the northern hemisphere lacks fresh fruit. Fungal contaminants can grow and produce mycotoxins in fresh fruit. The aims of this work were to identify the main genera of the mycobiota of blueberries grown in Argentina and to determine the toxicogenic potential, pathogenicity and host specificity of the species isolated. The genus Alternaria was the main component of the blueberry mycobiota (95%); minor proportions of Phoma spp. (4%) and Penicillium spp. (1%) were also isolated. According to their sporulation patterns, 127 Alternaria isolates belonged to the Alternaria tenuissima species-group, 5 to the Alternaria alternata species-group and 2 to the Alternaria arborescens species-group. The last mentioned species-group was not isolated at 5°C. Of the 134 isolates, 61% were toxicogenic in autoclaved rice; 97% of these produced alternariol (AOH) in a range from 0.14 to 119.18 mg/kg, 95% produced alternariol methylether (AME) in a range from 1.23 to 901.74 mg/kg and 65% produced tenuazonic acid (TA) in a range from 0.13 to 2778 mg/kg. Fifty two isolates co-produced the three mycotoxins. According to the size of the lesion that they caused on blueberries, the isolates were classified as slightly pathogenic, moderately pathogenic and very pathogenic. No significant differences in pathogenicity were found on different blueberry varieties. In this work, high incidence and toxicogenic potential of the Alternaria isolates from blueberries were demonstrated. Thus, more studies should be done to evaluate the health risk posed by the presence of the Alternaria toxins in blueberries and in the manufactured by-products.
蓝莓传统上在北美、一些欧洲国家和日本消费。在阿根廷,蓝莓作物是有利可图的,因为它的生产始于 11 月,此时北半球缺乏新鲜水果。真菌污染物可以在新鲜水果中生长并产生霉菌毒素。这项工作的目的是确定在阿根廷种植的蓝莓的真菌菌群的主要属,并确定分离出的物种的产毒潜能、致病性和宿主特异性。交替单胞菌是蓝莓真菌菌群的主要成分(95%);也分离出少量的茎点霉属(4%)和青霉属(1%)。根据它们的孢子形成模式,127 个交替单胞菌分离物属于细极链格孢种组,5 个属于交替单胞菌交替种组,2 个属于链格孢属种组。后一组在 5°C 时未被分离。在 134 个分离物中,有 61%在灭菌的大米中具有产毒潜能;其中 97%产生 alternariol(AOH),范围为 0.14 至 119.18mg/kg,95%产生 alternariol methylether(AME),范围为 1.23 至 901.74mg/kg,65%产生 tenuazonic acid(TA),范围为 0.13 至 2778mg/kg。52 个分离物共同产生了这三种霉菌毒素。根据它们在蓝莓上引起的病变大小,将分离物分为轻度致病性、中度致病性和高度致病性。不同蓝莓品种的致病性没有显著差异。在这项工作中,从蓝莓中分离出的交替单胞菌具有高发生率和产毒潜能。因此,应该进行更多的研究来评估蓝莓及其制造的副产品中存在的交替单胞菌毒素对健康的潜在威胁。
