Mycotoxin occurrence and Aspergillus flavus soil propagules in a corn and cotton glyphosate-resistant cropping systems.

K N Reddy, H K Abbas, R M Zablotowicz, C A Abel, C H Koger
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引用次数: 23

Abstract

The effects of cotton-corn rotation and glyphosate use on levels of soil-borne Aspergillus flavus, aflatoxin and fumonisin contamination in corn and cotton seed were determined during 2002-2005 in Stoneville, Mississippi (USA). There were four rotation systems (continuous cotton, continuous corn, cotton-corn and corn-cotton) for both glyphosate-resistant (GR) and non-GR cultivars-herbicide system arranged in a randomized complete block design with four replications. Aspergillus flavus populations in surface (5-cm depth) soil, sampled before planting (March/April), mid-season June) and after harvest (September), ranged from 1.47 to 2.99 log (10) cfu g(-1) soil in the four rotation systems. Propagules of A. flavus were higher in the continuous corn system compared to the continuous cotton system on three sample dates, and cotton rotated with corn decreased A. flavus propagules in three of nine sample dates. Propagules of A. flavus were significantly greater in plots with GR cultivars compared to non-GR cultivars in three samples. In cotton seed, aflatoxin and fumonisin levels were similar (< or = 4 microg kg(-1) and non-detectable, respectively) regardless of rotation and glyphosate. In corn grain, aflatoxin was above the regulatory level (> or = 20 microg kg(-1)) only in GR cultivar in 2004 and 2005. Fumonisin was higher in non-GR cultivar (4 mg kg(-1)) regardless of rotation in 2004; however, in 2002, 2003 and 2005, aflatoxin and fumonisin levels were similar regardless of rotation and glyphosate. These results indicate the potential for increased aflatoxin and fumonisin levels (1 of 4 years) in corn; however, climatic conditions encountered during this study did not allow for mycotoxin production. In laboratory incubation studies, fairly high concentrations of glyphosate were required to inhibit A. flavus growth; however no short-term effect of soil treatment with glyphosate on A. flavus populations were observed. These data suggest that altered populations of A. flavus or higher aflatoxin concentrations in corn grain were due to indirect effects of the GR cropping system.

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玉米和棉花抗草甘膦种植系统中霉菌毒素的发生和黄曲霉的土壤繁殖。
2002-2005 年期间,在美国密西西比州斯通维尔(Stoneville)测定了棉花-玉米轮作和草甘膦使用对玉米和棉花种子中土壤传播的黄曲霉菌、黄曲霉毒素和烟曲霉毒素污染水平的影响。抗草甘膦(GR)和非抗草甘膦(GR)作物-除草剂系统共有四种轮作系统(连作棉花、连作玉米、棉花-玉米和玉米-棉花),采用随机完全区组设计,四次重复。在播种前(3 月/4 月)、收获季节中期(6 月)和收获后(9 月)采样的表层(5 厘米深)土壤中,四种轮作制度下的黄曲霉种群在 1.47 到 2.99 log (10) cfu g(-1) 之间。在三个取样日期,连作玉米系统中的黄曲霉繁殖体高于连作棉花系统,与玉米轮作的棉花在九个取样日期中有三个减少了黄曲霉的繁殖体。在三个样本中,与非 GR 栽培品种相比,GR 栽培品种地块的黄曲霉繁殖体明显较多。在棉花种子中,无论轮作还是使用草甘膦,黄曲霉毒素和伏马菌素的含量相似(分别为小于或等于 4 微克/千克(-1)和检测不到)。2004 年和 2005 年,只有 GR 栽培品种的玉米粒中黄曲霉毒素含量高于规定水平(>或 = 20 微克/千克(-1))。2004 年,无论轮作与否,非 GR 栽培品种的伏马菌素含量较高(4 毫克/千克(-1));但在 2002、2003 和 2005 年,无论轮作与否,黄曲霉毒素和伏马菌素含量相似。这些结果表明,玉米中的黄曲霉毒素和伏马菌素含量有可能增加(4 年中有 1 年);不过,本研究期间的气候条件不允许产生霉菌毒素。在实验室培养研究中,需要相当高浓度的草甘膦才能抑制黄曲霉的生长;但是,没有观察到用草甘膦处理土壤对黄曲霉种群产生短期影响。这些数据表明,玉米籽粒中黄曲霉菌数量的变化或黄曲霉毒素浓度的升高是由于 GR 种植系统的间接影响造成的。
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Mycotoxin occurrence and Aspergillus flavus soil propagules in a corn and cotton glyphosate-resistant cropping systems. Index of authors---volume 24. High-performance liquid chromatographic method for the simultaneous detection of the adulteration of cereal flours with melamine and related triazine by-products ammeline, ammelide, and cyanuric acid. Food additives and contaminants. Detection of dehydroepiandrosterone and androsterone in a traditional Chinese herbal product.
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