Population ecology of Aspergillus flavus associated with Mississippi Delta soils.

R M Zablotowicz, H K Abbas, M A Locke
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引用次数: 44

Abstract

Understanding the source of Aspergillus flavus is required to manage aflatoxin contamination of maize (Zea mays L.). Studies assessed A. flavus propagules, Fusarium spp., and total fungi associated with Mississippi Delta soils. Soils from 12 and 15 sites were collected in 2000 and 2001, respectively. The propagule density of A. flavus ranged from log(10) 2.0 to 4.3 colony-forming units (cfu) g−1 soil, while total fusaria ranged from log(10) 3.0 to 5.4 cfu g−1 soil. The highest populations of A. flavus were associated with soils containing higher organic matter, especially in sites under a no-tillage management. The frequency of aflatoxin production in isolates ranged from 13 to 81% depending on soil. In 2001, there was a highly significant correlation between A. flavus and the history of maize cultivation. Soil fertility factors such as organic matter content, nitrate and extractable phosphorus correlated with the density of Aspergillus, Fusarium spp., and total fungi. The relationship between soil parameters and Aspergillus populations may be useful in predicting the contribution of soil microflora to aflatoxin contamination.
密西西比三角洲土壤黄曲霉种群生态学研究。
了解黄曲霉的来源是控制玉米黄曲霉毒素污染的必要条件。研究评估了黄曲霉繁殖体、镰刀菌和与密西西比三角洲土壤有关的总真菌。2000年和2001年分别收集了12个和15个站点的土壤。黄曲霉繁殖体密度在log(10) 2.0 ~ 4.3 cfu g(-1)之间,总镰刀菌密度在log(10) 3.0 ~ 5.4 cfu g(-1)之间。黄曲霉种群在有机质含量较高的土壤中最高,特别是在免耕管理的土壤中。根据土壤的不同,黄曲霉毒素产生的频率从13%到81%不等。2001年,黄曲霉与玉米栽培历史呈极显著相关。土壤肥力因子如有机质含量、硝态氮和可提取磷与曲霉、镰刀菌和总真菌的密度相关。土壤参数与曲霉种群之间的关系可用于预测土壤菌群对黄曲霉毒素污染的贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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