Distinct Distribution of Deoxynivalenol,Nivalenol, and Ergosterol in <Emphasis Type="Italic">Fusarium</Emphasis>-infected Japanese Soft Red Winter Wheat Milling Fractions

The occurrence of mycotoxins in small grain cereals and their retention in final products are serious concerns for food safety. Previously, we investigated the fate of deoxynivalenol and nivalenol in a Japanese soft red winter wheat cultivar during milling and we found that deoxynivalenol and/or nivalenol was readily distributed among flours for human consumption. In the present study, we analyzed the ergosterol concentrations in the milling fractions as an index of fungal biomass to elucidate the relationship between deoxynivalenol/nivalenol accumulation and fungal invasion into the grain, after the in-house validation of an analytical method for quantifying ergosterol in the resulting milling fractions (patent flour, low-grade flour, bran, and shorts). Using three samples with different levels of deoxynivalenol and/or nivalenol contamination, the contents of deoxynivalenol/nivalenol and ergosterol in the resulting milling fractions were evaluated. The concentration of ergosterol was always lowest in patent flour and highest in bran or shorts, indicating that most of the fungi is retained in the outer layers of grain (bran and shorts) even in highly contaminated grain. On the other hand, the concentrations of deoxynivalenol and nivalenol were similar in the low-grade and patent flours and only slightly lower than in the medium-level and high-level contaminated grains. Moreover, the percentage distribution of ergosterol was higher in bran than in other fractions in all cases, which differed from that of deoxynivalenol/nivalenol. This result indicates the diffusion of deoxynivalenol/nivalenol inside the grain that is independent of fungal invasion.     

Natural occurrence of deoxynivalenol, 3-acetyl-deoxynivalenol, 15-acetyl-deoxynivalenol,nivalenol, 4,7-dideoxynivalenol,and zearalenone in polish wheat

Three wheat samples collected in 1987 in Central Poland and naturally infected withFusarium spp were analyzed for the presence ofFusarium spp andFusarium toxins. Heads were separated into three fractions: kernels with visibleFusarium damage, healthy looking kernels, and chaff + rachis. The samples contained deoxynivalenol (2.0 – 40.0μg/g), nivalenol (O.O1μg/g), 4,7-dideoxynivalenol (0.10 – 0.15μg/g). 15-acetyldeoxynivalenol (0.10–2.00 μg/g), 3-acetyldeoxynivalenol (O/1Oμg/g), and zearalenone (0.01–2.00μg/g). This is the first report about 15 - acetyldeoxynivalenol in European wheat and the co-occurrence of 3 - acetyldeoxynivalenol and 15-acetyldeoxynivalenol in the same sample of contaminated cereals.     

Untersuchungen zu DON-Gehalten in Getreideerzeugnissen aus dem deutschen Einzelhandel im Jahr 2006

Samples of soft wheat flour (n=78), durum wheat semolina (n=6), and pasta (made from durum wheat, n=49) were purchased in January-April 2006 from retail outlets in Hesse, Germany. Samples were analysed for deoxynivalenol (DON) by enzyme immunoassay. The detection limit of the method was 10 μg/kg, with recoveries of 81–85% (RSD_r: 12–17%). DON was detected in 84% of all samples, but the contamination level was low. Median/maximum values for DON in wheat flour, wheat semolina, and pasta were 28μg/kg/217 μg/kg, 38μg/kg/203 μg/kg, and 24μg/kg/119 μg/kg, respectively. Compared with results obtained from previous years, significantly lower DON levels were observed in these commodities.     

Investigation of the distribution of deoxynivalenol and ochratoxin A contamination within a 26 t truckload of wheat kernels

A study was conducted to determine the distribution of deoxynivalenol (DON) and ochratoxin A (OTA) in a lot of 261 of wheat kernels. Within this study, two different sampling and sample preparation strategies were carried out. On the one hand, following the official commission regulation 401/2006/EC, an aggregate sample out of 100 incremental samples was build, homogenized and prepared for laboratory analysis. On the other hand each individual subsample was investigated for its deoxynivalenol and ochratoxin A content. The determined concentration of DON in the individual samples was in a range from 830 up to 2655 (μg/kg, for OTA results ranged from < 0.2 up to 8.6 μg/kg. Thus, a coefficient of variance of 25% for DON and 200% for OTA was achieved. From this, a spot formation for OTA was observed and the average value of the 100 incremental samples did not correspond to the achieved value for the aggregate sample. While the DON contamination at this concentration range seems to be more even, consequently the result of the aggregate sample was in accordance with the average value. In addition a sample communition study was performed to answer the question whether the time consuming process of grinding of the whole aggregate sample is necessary or not. The results of this study show that contamination of whole wheat kernels with DON is at the same level within a 1 kg sample (CV 16%), while OTA contamination shows high variability (CV 94%). At least for OTA this study indicated that an extensive and complete sample communition of the high volume aggregate sample is necessary.     

Deoxynivalenol in Mehlproben des Jahres 1999 aus dem Einzelhandel

To study the levels of deoxynivalenol (DON) in retail cereal products, wheat and rye samples were purchased in 1999 from supermarkets and “organic food” shops in Munich, Germany. DON was analysed by an enzyme immunoassay (EIA), 78 of these samples were additionally analysed by HPLC. The following contamination rates (%) and mean DON levels were found: wheat flour type 405 (n=42): 71%, 200 µg/kg; flour type 550 (n=9): 33%, 410 µg/kg; flour type 1050 (n=11): 91%, 370 µg/kg; bread-baking wheat premixes (n=14): 79%, 210 µg/kg; whole grain flour (n=20): 65%, 300 µg/kg; whole grain wheat (n=8): 75%, 280 µg/kg, wheat bran (n=20): 85%, 830 µg/kg; rye flour and grits (n=7): 29%, 120 µg/kg. HPLC confirmed the results obtained by EIA. Further analysis of 16 wheat flour (405) samples in May 2000 showed a similar frequency (69%) and mean DON level (270 µg/kg) as for samples from 1999. It is concluded that with DON levels in wheat for human consumption ranging from 200–400 µg/kg, the intake of DON has to be taken seriously in the light of the temporary tolerable daily intake of 1 µg DON per kg body weight as proposed within the European Union.     

A practical method for measuring deoxynivalenol, nivalenol, and T-2 + HT-2 toxin in foods by an enzyme-linked immunosorbent assay using monoclonal antibodies

We have developed and tested an enzyme-linked immunosorbent assay system for individual measurement of deoxynivalenol, nivalenol, and T-2 + HT-2 toxin using monoclonal antibodies for 3,4,15-triacetyl-nivalenol, for both 3,4,15-triacetyl-nivalenol and 3,15-diacetyl-deoxynivalenol, and for acetyl-T-2 toxin. The assay system comprised three kits (desinated the DON + NIV kit, the NIV kit, and the T-2 + HT-2 kit). The practical performance of the enzyme-linked immunosorbent assay system was assessed by assaying trichothecene mycotoxins in wheat kernels. The enzyme-linked immunosorbent assay system meets all the requirements for use in a routine assay in terms of sensitivity (detection limit: deoxynivalenol 80 ng/g, nivalenol 80 ng/g, T-2 toxin 30 ng/g), reproducibility (total coefficient of variation: 1.9-6.2%), accuracy (recovery: 93.8-112.0%), simplicity and rapidity (time required: <2 h), mass handling (>42 samples/assay), and a good correlation with gas chromatography-mass spectrometry (r=0.9146-0.9991). Components derived from the wheat extract did not interfere with the assay kits. The enzyme-linked immunosorbent assay system is a useful alternative method to gas chromatography-mass spectrometry, liquid chromatography-mass spectrometry, or liquid chromatography-ultraviolet absorption for screening cereals and foods for trichothecene mycotoxin contamination.     

Fusarium poae and Fusarium crookwellense, Fungi Responsible for the Natural Occurrence of Nivalenol in Hokkaido

To determine the reasons for the natural occurrence of nivalenol in the northernmost area of Japan, scabby wheat was harvested from 19 crop fields in Hokkaido. Mycological surveys and analysis for mycotoxin contamination were performed. Among 13 wheat grain samples harvested in seven locations, 9, 2, and 6 samples were positive for deoxynivalenol, nivalenol, and zearalenone, respectively, at levels ranging from 0.03 to 1.28 μg/g, 0.04 to 1.22 μg/g, and 2 to 25 ng/g, respectively. The predominant Fusarium species of the scabby wheat examined were F. sporotrichioides, F. avenaceum, F. poae, and F. crookwellense. Fifteen of 48 F. poae isolates and all four F. crookwellense isolates were screened for the production of seven derivatives of trichothecenes and zearalenone respectively, on rice culture. One isolate of F. poae produced diacetoxyscirpenol alone (4.3 μg/g); seven produced nivalenol (1.3 to 23.8 μg/g), 4-acetylnivalenol (0.1 to 4.6 μg/g), and diacetoxyscirpenol (0.9 to 99.5 μg/g); and five produced nivalenol alone (0.4 to 3.5 μg/g). The remaining two isolates produced no trichothecenes. Zearalenone production was not found in any isolate of F. poae tested. All isolates of F. crookwellense produced nivalenol (0.9 to 22.5 μg/g), 4-acetylnivalenol (0.5 to 25.0 μg/g), and zearalenone (1.4 to 162.5 μg/g). From these results, it is apparent that deoxynivalenol and zearalenone, and occasionally nivalenol, occur naturally throughout Hokkaido, and it is suggested that nivalenol-producing F. poae and F. crookwellense strains are responsible for the natural contamination with nivalenol found in the northernmost area of Japan. Furthermore, it was found for the first time that several isolates of F. poae distributed in Hokkaido possessed the ability to produce both type A and type B trichothecenes.     

Fusarium toxins in cereals — Results from eight German Federals States in 2000

A total of 353 cereal samples from 8 German Federal States were analysed for Fusarium toxins in the 2000' survey. The level of mycotoxin contamination of the samples was higher than in the previous year due to higher moisture during flowering in some regions. Concerning deoxynivalenol (DON), the prevailing mycotoxin in all the samples, we have to consider, that 24% of the samples as well as the average concentration exceed the advisory level of 500 μg/kg. The application of Fusarium active fungicides reduced the DON level from 963 μg/kg (samples without treatment) to 630 μg/kg (all samples from treated and untreated fields). It has to be emphasised that the number of nivalenol (NIV) positive samples increased in comparison to the previous year from 9% to 17%. In addition, an increase in the level of NIV was detected, the maximum concentration in winter wheat was 3480 μg/kg. Cereals were rather moderately contaminated with zearalenone (ZEA), more than 80% of the samples contained less than 50 μg/kg.     

Occurrence of type A,B and D trichothecenes in barley and barley products from the Bavarian market

Fifty-nine samples of barley and barley products were analysed for 18 trichothecene mycotoxins by a sensitive liquid chromatography-tandem mass spectrometry (LC-MS/MS) method (detection limits 0.062-0.70 μg/kg) after sample extract clean-up on MycoSep®-226 columns. The samples were collected in 2009 from barley processing facilities (mills and malt houses) and at wholesale and retail stage from the Bavarian market. The predominant toxins were T-2 toxin (T-2), HT-2 toxin (HT-2) and deoxynivalenol (DON). For all samples, the mean levels of T-2 and HT-2 were 3.0 μg/kg and 6.8 μg/kg with rates of contamination of 63% and 71%, respectively. The maximum values were 40 μg/kg for T-2 and 47 μg/kg for HT-2. The rate of contamination with DON was high (95%) with a low mean level of 23 μg/kg. The DON levels ranged between 3.4 to 420 μg/kg. For T-2 tetraol, a mean level of 9.2 μg/kg and a maximum level of 51 μg/kg with a rate of contamination of 71% were determined. NIV was detected in 69% of the samples with a mean level of 11 μg/kg and a maximum level of 72 μg/kg. Other type A and B trichothecenes were detected only in traces. Type D trichothecenes, fusarenon-X, verrucarol and 4,15-diacetylverrucarol were not detected in any sample. Winter barley and malting barley were the most contaminated groups of all samples in this study. In malting barley, the highest levels of contamination with type A trichothecenes were found. In contrast, winter barley showed the highest contamination with type B trichothecenes. The lowest mycotoxin concentrations were found in de-hulled and naked barley and in pearl barley.     

Mycotoxins (trichothecenes, zearalenone and fumonisins) in cereals associated with human red-mold intoxications stored since 1989 and 1991 in China

Two corn powder samples implicated in the human food poisoning that occurred in Guangxi province in 1989, and eight wheat and two barley samples linked to an episode that involved about 130,000 people in gastrointestinal disorders in Anhui province in 1991 were analyzed for trichothecenes including deoxynivalenol (DON), nivalenol (NIV) and their esters, zearalenone (ZEA) and fumonisins (FMs) by gas chromatography/mass spectroscopy and high performance liquid chromatography, and T-2 toxin by enzyme-linked immunosorbent assays. DON was detected in all samples as a major trichothecene (16-51,450 microg kg(-1)), and NIV was in one corn, one barley and all wheat at relatively low levels (10-6935 microg kg(-1)). ZEA was found in all corn and barley, and six wheat samples (46-3079 microg kg(-1)). In addition, 3-acetyl-DON (2544 microg kg(-1)) and 15-acetyl-DON (2537 microg kg(-1)) were detected separately in one corn and one wheat sample. The highest levels of these mycotoxins were found in one wheat sample associated with the human intoxication in Anhui province. FMs in corn were below 1000 microg kg(-1). Risks of DON and ZEA on the people who consumed the causative cereals were assessed.     

Simultaneous occurrence of deoxynivalenol, zearalenone, and aflatoxin in 1982 scabby wheat from the midwestern United States

Thirty-three samples of wheat of the 1982 crop year from Kansas and Nebraska were analyzed for deoxynivalenol, T-2 toxin, zearalenone, and aflatoxin. Deoxynivalenol was identified in 31 of 33 samples, zearalenone was identified in 3 of 33 samples, and aflatoxin B1 was identified in 23 of 31 samples. One 1982 wheat sample from Illinois and one from Texas were also contaminated with deoxynivalenol at 1,200 and 600 ng/g, respectively. None of the samples contained detectable T-2 toxin. The mean concentration of deoxynivalenol was 1,782 +/- 262 ng/g, and the concentrations of aflatoxin B1 ranged from 0.8 to 17.0 ng/g, with a mean of 3.37 +/- 0.7. Zearalenone concentrations of the three positive samples were 35, 90, and 115 ng/g. However, density segregation of two other samples which tested negative yielded light fractions, comprising less than 2% of the samples, contaminated at 230 and 254 ng of zearalenone per g; calculated zearalenone concentrations for these two samples were below the limit of detection of the method. The high frequency of aflatoxin B1 and deoxynivalenol in wheat from the 1982 crop is unprecedented, as is the simultaneous contamination of some samples with deoxynivalenol, zearalenone, and aflatoxin B1.     

Simultaneous occurrence of deoxynivalenol, zearalenone, and aflatoxin in 1982 scabby wheat from the midwestern United States.

Thirty-three samples of wheat of the 1982 crop year from Kansas and Nebraska were analyzed for deoxynivalenol, T-2 toxin, zearalenone, and aflatoxin. Deoxynivalenol was identified in 31 of 33 samples, zearalenone was identified in 3 of 33 samples, and aflatoxin B1 was identified in 23 of 31 samples. One 1982 wheat sample from Illinois and one from Texas were also contaminated with deoxynivalenol at 1,200 and 600 ng/g, respectively. None of the samples contained detectable T-2 toxin. The mean concentration of deoxynivalenol was 1,782 +/- 262 ng/g, and the concentrations of aflatoxin B1 ranged from 0.8 to 17.0 ng/g, with a mean of 3.37 +/- 0.7. Zearalenone concentrations of the three positive samples were 35, 90, and 115 ng/g. However, density segregation of two other samples which tested negative yielded light fractions, comprising less than 2% of the samples, contaminated at 230 and 254 ng of zearalenone per g; calculated zearalenone concentrations for these two samples were below the limit of detection of the method. The high frequency of aflatoxin B1 and deoxynivalenol in wheat from the 1982 crop is unprecedented, as is the simultaneous contamination of some samples with deoxynivalenol, zearalenone, and aflatoxin B1.     

Trichothecenes and Mycoflora in Wheat Harvested in Nine Locations in Buenos Aires Province, Argentina

A total of 120 freshly harvested wheat samples from the 2004 season in nine locations from Northern Buenos Aires Province, Argentina, were analysed for trichothecene natural occurrence and associated mycoflora, and for determining the influence of commonly used fungicide field treatment and the cultivar type on trichothecene contamination. The trichothecenes T-2 tetraol, T-2 triol, HT-2 and T-2 toxin (HT-2, T-2), diacetoxyscirpenol (DAS), nivalenol (NIV), deoxynivalenol (DON), 3-acetyldeoxynivalenol (3-ADON) and 15-acetyldeoxynivalenol (15-ADON) were analysed by gas chromatography and electron capture detection. Detection limits ranged from 4 to 20 μg/kg. The isolation frequencies of species were calculated. Alternaria alternata, Fusarium graminearum, Fusarium poae and Fusarium semitectum were the predominant fungal species identified as endogenous mycoflora. The type of cultivar and the fungicide field treatment did not affect significantly the trichothecene contamination. The trichothecenes type A detected were HT-2 and T-2 triol toxins and the type B were DON, NIV and 3-ADON. Based on 120 samples the incidences were 21.7% for 3-ADON, 22.5% for HT-2, 27.5% for T-2 triol and 85% for DON. NIV was confirmed in one sample. Mean levels of trichothecene positive samples were between 7 and 2788 μg/kg.     

Mycotoxins in cereal grain (part 15). Distribution of deoxynivalenol in naturally contaminated wheat kernels

The analysis of deoxynivalenol (DON) in naturally infected wheat samples, after having been separated into four fractions through laboratory sieves, showed very low levels of DON in the fraction of largest kernels >2.8 mm (0 up to 1 mg/kg). The highest concentration of DON was found in fractions 2.2 to 2.5 mm and <2.2mm with up to 14mg/kg and 15mg/kg DON, respectively. In two samples (fractions <2.2mm) nivalenol was detected in concentrations up to 1,4mg/kg.     

A mini-survey of moulds and mycotoxins in locally grown and imported wheat grains in Nigeria

A preliminary survey involving limited sample size was conducted to determine the spectrum of moulds and mycotoxins in wheat grains from flour mills and local markets in Nigeria. Fourteen wheat samples were analyzed for moulds using standard mycological methods and for toxic fungal metabolites using a liquid chromatography-tandem mass spectrometric method. Fusarium (range of incidence 12.5–61.7%) dominated in the wheat grains though species of Aspergillus (range of incidence 2.24–3.86%) were also recovered from the samples. The identified fungal species were Aspergillus flavus (7.7%), Aspergillus niger clade (2.6%), Fusarium avenaceum (10.9%), Fusarium culmorum (22.4%) and Fusarium graminearum (56.4%). A total of 54 microbial metabolites were detected in the samples at concentration ranging between 0.01 μg/kg for macrosporin and 2560 μg/kg for deoxynivalenol. Among the four mycotoxins addressed by regulations in the European Union (EU) found in the samples, deoxynivalenol (incidence 100%) dominated in the samples and its levels exceeded the maximum acceptable EU limit (750 μg/kg) in 36% of the samples. This report underscores the need for more robust surveys with larger sample sizes and across several agro-ecologies in the country.     

Mycotoxins in maize products of the 1994/95 marketing season

The levels of mycotoxins found were generally lower the more refined the maize products were. The highest levels of deoxynivalenol, nivalenol and fumonisins were found in maize bran and maize screenings. Ochratoxin A was found in a defatted germ meal sample at 50 μg/kg. Zearalenone was found randomly in samples at low levels (50 – 100 μg/kg). All other mycotoxins tested for, except in maize bran and maize screenings, were absent above the detection limits     

Deoxynivalenol (DON) in hartweizen

Deoxynivalenol (DON) in Durum Wheat High contamination levels of deoxynivalenol (DON) were found during an investigation of noodles in 2001 and initiated an additional survey of Durum wheat used as raw material for these products. Analyses of 53 samples of Durum wheat by HPLC revealed 89% positives and a median concentration of 790 ug/kg, which clearly exceeded the EU action level of 500 μg/kg. Based on these findings, producers increased quality controls on Durum wheat. In 2002 a total of 60 samples were analysed and 85% positives found. The median, however, lay at 215 μg/kg, below a probable maximum level of 500 μg/kg and demonstrated the positive efforts of food producers to decrease the contamination levels of DON in pasta products.     

Mycotoxins and fungi in wheat harvested during 1990 in test plots in the state of São Paulo,Brazil

Wheat from two cultivars with contrasting characteristics were harvested in ten experimental plots located in wheat producing areas of the State of São Paulo, Brazil. The samples (10 of each cultivar) were analyzed by a gaschromatographic method for deoxynivalenol (DON), nivalenol (NIV), diacetoxyscirpenol (DAS), toxins T-2 (T-2) and HT-2, T-2 tetraol, T-2 triol, and by a thin-layer chromatographic method for zearalenone (ZEN), aflatoxins B₁, B₂, G₁, G₂, ochratoxin A and sterigmatocystin. No mycotoxins were detected in 13 samples. DON was found in four samples (0.47–0.59 µg/g), NIV in three samples (0.16–0.40 µg/g), T-2 in two samples (0.40, 0.80 µg/g), DAS in one sample (0.60 µg/g), and ZEN in three samples (0.04–0.21 µg/g). The wheat samples were also examined for the incidence of fungi.Alternaria, Drechslera, Epicoccum andCladosporium were the prevailing genera. Among theFusarium spp.,F. semitectum was present in 19 samples andF. moniliforme in 18 samples. NoF. graminearum was isolated in the samples.Abbreviations DAS diacetoxyscirpenol - DON deoxynivalenol - NIV nivalenol - T-2 T-2 toxin - ZEN zearalenone     

Differences Between Barley, Oats and Wheat in the Occurrence of Deoxynivalenol and Other Trichothecenes in Norwegian Grain

The amount of the Fusarium toxins deoxynivalenol (DON). 3-acety-DON. ivalenol and fusarenon × have been determined in about 3000 samples of barley, oats and wheat grown in Norway. The samples were collected in the period 1988–1994. and grouped according to grain species, year of production, district and sample category. The DON content was found to be significantly higher in oats than both barley and wheat in grain produced by ordinary grain producers in Norway. Of samples collected from grain silos. 68.7% of the barley. 97.1% of the oats and 66.3% of the wheat samples were found to contain 30 mg/kg of DON or more. The proportion containing 1000 μg kg or more was 2.1.13.4and0.0% in burley, oats and wheat, respectively. However, these variations in contamination level were not reflected in the results from two field trials, where the grain species were grown side-by-side in the same fields. The differences in contamination level between the grain species seem to be due partly to edaphic and agrotechnical factors and partly to variation in the susceptibility to different Fusarium species in interaction with climatic factors. Nivalenol(≥ 50 μg/kg) was detected in 8.3% of the barley samples. 8.2% of the oats and 0.4% of the wheat samples. Samples collected at the grain silos were then not included.     

Vorkommen und Nachweis von Fusarinsäure in Weizen

An analytical method for the detection of fusaric acid in wheat and wheat products has been developed as well as employed for the survey of randomly selected samples (n=33). While the application of GC-FID proved to be not sensitive enough for this purpose, the sensitivity and selectivity of GC-MS permitted the quantification of the mycotoxin in 78% of the wheat samples.The measured concentrations ranged from 7 to 570 μg/kg (average value 134 μg/kg). However, clear differences were recognizable regarding the type of sample: While field samples showed 332 μg/kg on an average, cleaned grains designated for human consumption contained averaged 138 μg/kg, and wholemeal products 68 μg/kg.Although the limited number of samples does not permit final conclusions, the toxicological relevance of fusaric acid alone may probably be classified as small. To what extent the well known cumulative effects with deoxynivalenol and fumonisin B1 impair this evaluation has to remain elusive.