Contamination of Groundnut in South‐Western Nigeria by Aflatoxigenic Fungi and Aflatoxins in Relation to Processing

Groundnut is commonly consumed in its roasted form by many Nigerians. This study was therefore conducted to determine the levels of aflatoxin in roasted groundnut retailed in south‐western Nigeria with a view to assessing the fitness of the processed nut for human consumption. The effects of roasting and de‐coating as alternative methods for reducing the ‘aflatoxin scare’ in the nut were further assessed on aflatoxigenic fungal load and aflatoxin content of the nuts. Forty‐eight samples of retailed raw and roasted groundnut were collected and assessed by mycological and thin‐layer chromatographic analysis for changes in aflatoxigenic fungal population and aflatoxin concentration, respectively. Consequently, 480 isolates of the Aspergillus section Flavi group, A. flavus L strain (n = 410), A. tamarii (n = 56), A. parasiticus (n = 7) and A. parvisclerotigenus (n = 7), were recovered from all samples. Aflatoxigenic isolates of A. flavus L strain (58.8%) had a significantly (P < 0.05) higher incidence than the non‐aflatoxigenic isolates (41.2%). Aflatoxins were detected in 43 (89.6%) of the samples. Approximately 25% of all samples exceeded the 20 ng/g limit for aflatoxin B₁ (AFB₁) adopted by the National Agency for Food and Drug Administration and Control while 83 and 79% of all samples contained AFB₁ and total aflatoxins above the European Union limits of 2 and 4 ng/g, respectively. Aflatoxin concentrations in the raw and coated samples were as much as five times higher than those in the roasted and de‐coated nuts, respectively. However, no significant difference was recorded between aflatoxin levels in the coated and de‐coated samples. This study has shown that roasting of groundnut and testa removal (de‐coating) are effective processing interventions that can significantly lower aflatoxin quantities in the kernels, thus making it fit for human consumption.     

Aflatoxin contamination of groundnuts in Sudan

Groundnut samples, collected soon after harvest, from different districts in the irrigated region (Central Sudan) were free from aflatoxins with the method used. Samples collected from the rainfed region (Western Sudan) showed variable levels of aflatoxin ranging from 100% sample contamination in El Hamdi to only 10% in Casgeal.Damaged pods were highly contaminated with A. flavus and accumulated large amounts of aflatoxins. However, sound intact pods, recorded lower fungal contamination and were almost free of aflatoxins. Groundnut products collected from Khartoum North (Bahri) have higher levels of aflatoxins than those collected from Khartoum and Umdorman. Gray and red roasted pods showed higher amounts of aflatoxins, while the groundnut paste was the least contaminated.None of the three varieties of groundnuts tested in this work was completely resistant to aflatoxin production. A temperature of 30°C and 86.3% relative humidy (RH) are the optimum conditions for both A. flavus growth and aflatoxin production in groundnuts.     

RAPD analysis of genetic diversity among the isolates of Aspergillus flavus from different hosts and locations

Aflatoxin contamination is a major problem in maize, groundnut, chillies, cotton and tree nuts. These aflatoxins are low molecular weight toxic and carcinogenic secondary metabolites produced by Aspergillus flavus, A. parasiticus and A. nomius. In the present study, a total of 11 isolates of A. flavus isolated from groundnut, maize and chilli collected from different locations of Tamil Nadu, India were tested for their ability to produce aflatoxin B1 (AFB1) in vitro by indirect competitive enzyme-linked immunosorbent assay. The results show that the isolates vary in their level of toxin production. The amount of AFB1 produced by the toxigenic isolates of A. flavus ranged from 6.6 to 108.1?ng?ml^?1. Among the various isolates of A. flavus, the isolate VKR produced the highest amount (108.1?ng?ml^?1) of AFB1. The isolates viz. CBE1, CBE2, BSR1, BSR3 and BSR4 were found to be non-toxigenic. The genetic variability among these isolates was assessed by Random amplified polymorphic DNA (RAPD) analysis. DNA fragments of between 0.15 and 3.0?kb were obtained using 13 random primers, and each isolate differed in the size and number of PCR products indicating considerable polymorphism. Cluster analysis using Unweighted Pair Group Method with Arithmetic Mean clearly separated the isolates into four main clusters confirming the genetic diversity among the isolates of A. flavus. Both toxigenic and non-toxigenic isolates were intermingled in these four groups, indicating that no relationship exists between RAPD profile and the production of aflatoxin by A. flavus.     

Biological control of pre-harvest aflatoxin contamination in groundnut (Arachis hypogaea L.) with Bacillus subtilis G1

The antagonistic activity of Bacillus subtilis strain G1 was tested against various isolates of Aspergillus flavus in vitro. A talc-based powder formulation of B. subtilis strain G1 was prepared and evaluated to control A. flavus infection and aflatoxin B1 contamination in groundnut under greenhouse and field conditions. The results showed that B. subtilis strain G1 could inhibit the growth of all isolates of A. flavus tested in dual culture assay and the growth inhibition ranged from 93 to 100%. Results of greenhouse and field experiments indicated that B. subtilis strain G1 when applied to groundnut as seed treatment and soil application significantly suppressed A. flavus population in the soil, A. flavus infection and aflatoxin B1 content in kernels and increased the pod yield. These studies show that B. subtilis strain G1 has potential as a biocontrol agent for control of aflatoxin contamination in groundnut.     

The presence of aflatoxin in kernels from five years groundnut crops and ofAspergillus flavus isolates from kernels and soils

Summary In T.L.C. tests for 605 samples of groundnut kernels from 5 years' yield, the percentage of fresh kernels in which aflatoxin was present was very low (up to 6.4%), while that of stored kernels ranged from 0 to 32.0%. But the intensity of toxicity was invariably very low (up to 125 ppb). Of 1626Aspergillus flavus isolates from groundnut kernels rhizosphere and geocarposphere, and from soil in which groundnuts grew, about 90% were found capable of forming aflatoxin. In quantitative tests with 750 isolates 60% of the isolates produce aflatoxin in excess of 25,000 ppb. This research is supported by Grant Number FG-Is-161 of the United States Department of Agriculture to whom the author is indebted.     

Bacterial Antagonist as Seed Treatment to Control Leaf Blight Disease of Bambara Groundnut (Vigna subterranea)

Summay Soil samples were taken from 48 fields in the southern part of Thailand in which either bambara groundnut (Vigna subterranea) or groundnut (Arachis hypogeae) had been planted. Bacillus spp. were isolated using soil dilution plates and heat treatment to screen for endospore-producing bacteria. Among 342 Bacillus spp. isolates tested, 168 isolates were not antagonistic to Bradyrhizobium sp. strain NC-92 using dual culture technique. Further testing found 16 isolates of Bacillus spp. had the ability to inhibit mycelial growth of Rhizoctonia solani, a causal agent of leaf blight of bambara groundnut. Among these isolates, Bacillus spp. isolate TRV 9-5-2 had the greatest activity in anti-microbial tests against R. solani. This isolate was later identified as B. firmus. A powder formulation of B. firmus was developed by mixing bacterial endospores, talcum, sodium carboxymethylcellulose (SCMC) and polyvinylpyrolidone (PVP). The formulations contained bacterial levels ranging from 10⁸ to 10¹⁰ c.f.u./g and the viability of bacteria in all formulations remained high after 1 year storage at room temperature (26–32 °C). All formulations showed satisfactory effectiveness in vitro in suppressing mycelial growth of R. solani using dual culture technique. The application of formulations as seed treatment showed that these formulations did not cause abnormality of seedling shape and had no effect on the germination of bambara groundnut seeds.     

Evaluation of bacteria and Trichoderma for biocontrol of pre-harvest seed infection by Aspergillus flavus in groundnut

Pre- and post harvest aflatoxin contamination of groundnut caused by Aspergillus flavus is a major problem in the semi-arid tropics. Fluorescent Pseudomonas, Bacillus and Trichoderma spp. potentially antagonistic to A. flavus were isolated from the geocarposphere (pod-zone) of groundnut and used successfully for the control of pre-harvest groundnut seed infection by A. flavus. In greenhouse and field experiments, inoculation of selected antagonistic strains on groundnut resulted in significant reduction of seed infection by A. flavus, and it also reduced >50% of the A. flavus populations (as cfu) in the geocarposphere of groundnut.     

Isolation of Bacterial Antagonists of Aspergillus flavus from Almonds

Bacteria were isolated from California almond orchard samples to evaluate their potential antifungal activity against aflatoxin-producing Aspergillus flavus. Fungal populations from the same samples were examined to determine the incidence of aflatoxigenic Aspergillus species. Antagonistic activities of the isolated bacterial strains were screened against a nonaflatoxigenic nor mutant of A. flavus, which accumulates the pigmented aflatoxin precursor norsolorinic acid (NOR) under conditions conducive to aflatoxin production. Using solid and liquid media in coculture assays, 171 bacteria isolated from almond flowers, immature nut fruits, and mature nut fruits showed inhibition of A. flavus growth and/or inhibition of NOR accumulation. Bacterial isolates were further characterized for production of extracellular enzymes capable of hydrolyzing chitin or yeast cell walls. Molecular and physiological identification of the bacterial strains indicated that the predominant genera isolated were Bacillus, Pseudomonas, Ralstonia, and Burkholderia, as well as several plant-associated enteric and nonenteric bacteria. A set of 20 isolates was selected for further study based on their species identification, antifungal phenotypes, and extracellular enzyme production. Quantitative assays using these isolates in liquid coculture with a wild-type, aflatoxin-producing A. flavus strain showed that a number of strains completely inhibited fungal growth in three different media. These results indicate the potential for development of bacterial antagonists as biological control agents against aflatoxigenic aspergilli on almonds.     

First Report on Mould and Mycotoxin Contamination of Pistachios Sampled in Algeria

Mycotoxin contamination of pistachios represents a serious food safety hazard. The aim of this study was to evaluate fungal contamination and aflatoxin (AF) and ochratoxin A (OTA) occurrence in pistachio sampled in Algeria and to study the mycotoxigenic capacities of the isolates. A total of 31 pistachio samples were collected from retail outlets from different regions of Algeria. The most frequently found fungi were Penicillium spp. (38%), Aspergillus section Nigri (30%) and A. flavus (22%). A total of 56.5% of A. flavus isolates were able to produce AFB₁ and AFB₂. No A. section Nigri uniseriate isolate was OTA producer, whereas OTA production capacity was detected in 33.3% of the A. section Nigri biseriate. At least one of the potentially ochratoxigenic species was found in 64.5% of samples. Despite the high number of pistachio samples containing AFs and OTA-producing isolates, only two samples contained AFs (always below the EU maximum tolerable level) and only one sample showed OTA contamination. This is the first report on the occurrence of toxigenic moulds and mycotoxins in pistachios from Algerian market.     

Spatial and temporal variations in contamination of mycotoxins in sub-humid,semi-arid areas of Eastern Central Tanzania

Studies were conducted to determine the incidences and levels of mycotoxin contamination in household stored maize and groundnuts in Kilosa District, Tanzania. Four villages were chosen for sampling. Seventy-two samples were collected from four villages in 2010, and then tested using a high-performance liquid chromatography method. Levels of Fumonisin B₁ ranged from 63.26 to 213.15 μg/kg in all collected maize samples, while levels of aflatoxin B₁ ranged from 72.97 to 195.17 μg/kg in all collected groundnut samples. Significant differences in levels of fumonisins were observed over time (p < 0.0001) but not among villages (p < 0.3209). Aflatoxin levels differed significantly among villages (p < 0.0491) and over time (p < 0.0001). The association between altitude and the level of aflatoxin contaminations was also significant. This study indicates that stored maize and groundnuts were more prone to mycotoxin contamination.     

Fungal contamination of some imported spices

Seventeen imported raw spice samples obtained from retail outlets were examined for spoilage mould profile. A total of 665 fungal isolates, representing 14 species, were recovered and identified from dried and ground spice samples on several media using standard dilution plate method. Moisture content varied greatly among various samples and were generally high. The most heavily contaminated spice samples examined were observed in red chili and black pepper in order of magnitude of 1580 and 1120 cfu/g, respectively. The most predominant fungal genera encountered were Aspergillus, Penicillium, Rhizopus, Cladosporium and Trichoderma. Yeasts were also frequently recovered, but not identified. Relative occurrence values of taxa disclosed ranged between 36.4% for A. flavus and 0.6% for A. parasiticus and Absidia corymbifera. Samples obtained from gunny bags encounter higher colony counts and contamination frequency than other packing methods. The present magnitude of contamination and spectra of mycobiota approximate those reported for similar spice samples. Although several potentially mycotoxigenic fungi were isolated during the present study, neither the foodstuff nor the fungi were assayed for the presence of these toxins.     

Aspergillus flavus infection and aflatoxin contamination in sorghum seeds and their biological management

In order to establish the current scenario of aflatoxigenic fungal infection and aflatoxin contamination in sorghum seeds across India, 58 seed samples were collected from different agro-climatic regions. Among these, 67.2% samples were infected with Aspergillus spp. and 28% were found contaminated with aflatoxins ranging from 0.0 to 130?μg?kg^?1. Greenhouse studies revealed no correlation between incidence of Aspergillus flavus and aflatoxin content, and its effect on seed quality parameters. Among the 37 A. flavus strains isolated, six were non-aflatoxigenic when analysed through cultural, TLC and ic-ELISA. Seed treatment with biocontrol agents (antagonistic Rhizobacteria and Trichoderma) suppressed the growth of A. flavus under laboratory and significantly enhanced seed quality variables under greenhouse conditions to a various extent. Field trials with selected biocontrol agents showed that talcum powder formulations of Pseudomonas putida Has-1/c, Bacillus spp. 3/a, Trichoderma asperellum M5 and T. asperellum T2 improved seedling emergence, % nutrient accumulation in plants, increased plant biomass and 1000 seed weight. Seeds harvested from treated plants showed significant increase in seed quality variables under laboratory and greenhouse conditions in comparison with control, but there was no significant difference in A. flavus infection and aflatoxin was completely absent in all treatments.     

Effects of crop sequence and soil types on the mycoflora of groundnut kernels

Summary In Israel, the effects of crop sequence and soil types on the mycoflora of groundnut kernels has been investigated over 3 years in 81 fields, of those some previously fallowed, others continuously cropped with or without groundnuts. The general mycoflora of kernels was richest in fields previously sown with groundnuts. In the cropped fields, whether groundnuts were included in the previous crops or not,Aspergillus niger made up 50–60 per cent of the total mycoflora.Penicillium funiculosum andP. rubrum were considerably more prevalent on previously fallowed fields. Prevalence ofA. flavus was always low and not influenced by crop sequences. Total kernel mycofloras were constantly higher on medium and heavy than on other soils. This research was supported by Grant Number PG-Is-161 of the United States Department of Agriculture to whom the authors are indebted.     

Screening of bacteria of the genus Bacillus for the control of the plant-pathogenic fungus Macrophomina phaseolina

This study evaluated the efficiency of 19 Bacillus isolates, obtained from the rhizosphere and rhizoplane of wild and cultivated castor bean plants, to control the pathogenic fungus Macrophomina phaseolina. Using in vitro assays, we examined the antifungal effects of volatile and non-volatile compounds, the production of siderophores and the activity of chitinase in these isolates. In vivo experiments were conducted to determine the potential of the Bacillus isolates to colonise castor bean plant roots and to control the fungus. In general, results showed that isolates from wild castor bean, compared with isolates from cultivated castor bean, were more efficient producers of antifungal compounds, better colonisers of plant roots and more effective protectors of plant seedlings against infection with M. phaseolina. Altogether, isolate RP 5, originating from the rhizoplane of wild castor bean, was the most promising candidate for future evaluation as a biological control agent of M. phaseolina.     

Isolation of Bacillus spp. from Thai fermented soybean (Thua-nao): screening for aflatoxin B1 and ochratoxin A detoxification

Aims: To study the interaction between Bacillus spp. and contaminating Aspergillus flavus isolated strains from Thai fermented soybean in order to limit aflatoxin production. To study the detoxification of aflatoxin B₁ (AFB₁) and ochratoxin A (OTA) by Bacillus spp. in order to find an efficient strain to remove these toxins. Methods and Results: One A. flavus aflatoxin-producing strain and 23 isolates of Bacillus spp. were isolated from soybean and fresh Thua-nao collected from the north of Thailand. Inhibition studies of A. flavus and A. westerdijkiae NRRL 3174 (reference strain) growth by all isolates of Bacillus spp. were conducted by dual culture technique on agar plates. These isolates were also tested for AFB₁ and OTA detoxification ability on both solid and liquid media. Most of the strains were able to detoxify aflatoxin but only some of them could detoxify OTA. Conclusions: One Bacillus strain was able to inhibit growth of both Aspergillus strains and to remove both mycotoxins (decrease of 74% of AFB₁ and 92·5% of OTA). It was identified by ITS sequencing as Bacillus licheniformis. The OTA decrease was due to degradation in OTα. Another Bacillus strain inhibiting both Aspergillus growth and detoxifying 85% of AFB₁ was identified as B. subtilis. AFB₁ decrease has not been correlated to appearance of a degradation product. Significance and Impact of the Study: The possibility to reduce AFB₁ level by a strain from the natural flora is of great interest for the control of the quality of fermented soybean. Moreover, the same strain could be a source of efficient enzyme for OTA degradation in other food or feeds.     

Suppression of Phytophthora blight on pepper (Capsicum annuum L.) by bacilli isolated from brackish environment

Bacteria of the genus Bacillus are well known to possess antagonistic activity against numerous plant pathogens. In the present study, 11 strains of Bacillus spp. were isolated from a brackish environment and assayed for biocontrol activity under in vitro and in vivo conditions. Among the 11 isolates tested, nine isolates effectively inhibited the growth of various plant pathogens, namely Phytophthora capsici, Phytophthora citrophthora, Phytophthora citricola, Phytophthora sojae, Colletotrichum coccodes, Colletotrichum gloeosporioides, Colletotrichum acutatum, Rhizoctonia solani, Fusarium solani, Fusarium graminearum, Pyricularia spp., and Monilina spp. The effective isolates were further screened for suppression of Phytophthora blight of pepper plants under greenhouse conditions. The isolate SB10 exhibited the maximum (72.2%) ability to reduce the disease incidence and increased (32.2%) the vigour index of Capsicum annuum L. plants. Antifungal compounds produced by isolate SB10 were highly thermostable (100°C for 30 min). Matrix-Assisted Laser Desorption Ionization-Time of Flight mass spectrometry of the antifungal compounds revealed three lipopeptide complexes, namely the surfactins, the iturins, and the fengycins, which are well-known antifungal compounds produced by Bacillus spp.     

Integrated Control of Sclerotium rolfsii on Groundnut in South Africa

Sclerotium rolfsii Sacc. causes disease of numerous crop plants worldwide, including groundnuts. Control of this pathogen is difficult as it produces sclerotia which overwinter in the soil to emerge as inoculum and cause disease the following season. Various chemical, biological and cultural control strategies have been suggested and implemented, some of which have reduced disease incidence in the field. No studies have yet been undertaken in South Africa to control this disease on groundnut, either chemically, biologically or by cultural practices. In this study, several strategies were investigated for the control of S. rolfsii on groundnuts. Difenoconazole was identified as a fungicide that could possibly be applied in combination with Trichoderma harzianum, a biological antagonist of S. rolfsii, above carbendazim and flusilazole, and chlorothalonil. Difenoconazole significantly reduced the growth rate of S. rolfsii but not of T. harzianum. The cultivation of infected fields with an inversion plough significantly reduced infection of groundnuts by S. rolfsii and also improved the quality of the produce, while yield was not increased. Lower plant density increased the incidence of disease in an infected field, and is therefore not considered to be a viable form of cultural control.     

Beneficial rhizospheric microorganisms mediated plant growth promotion and suppression of aflatoxigenic fungal and aflatoxin contamination in groundnut seeds

The potential of root‐colonising antagonistic microbial biocontrol agents was evaluated for their ability to improve plant growth and suppress aflatoxigenic fungal and aflatoxin contamination in groundnut. By considering root colonisation of groundnut seedlings, plant growth promotion and antagonism against aflatoxigenic Aspergillus flavus as preliminary criteria, eight rhizobacteria and nine Trichoderma spp. were selected and characterised for their beneficial traits. These strains gave varying results for IAA production, phosphate solubilisation, ACC deaminase, chitinase and siderophore production. Under laboratory and greenhouse conditions, these strains significantly (P < 0.05) suppressed seed‐borne and rhizospheric population of A. flavus and improved seed quality variables. However, cdELISA results revealed that none of the biocontrol strains were effective in reducing aflatoxin level in seed. Based on the overall performance, Pseudomonas fluorescens 2bpf, Bacillus sp. Bsp‐3/aM and Trichoderma atroviride UMDBT‐Dha.Tat8 were used for field trials in the form of talcum powder formulations. Under field conditions, biocontrol agents improved seedling emergence, plant biomass and pod yield. Seeds harvested from plots treated with biocontrol agents showed significant (P < 0.05) reduction in A. flavus infection and aflatoxin production after 6 months' storage. Use of microbial strains with multiple beneficial traits is advantageous in bioformulation development. Hence, in future, these formulations will play a major role as biofertilisers and biopesticides, which can reduce the usage of agrochemicals up to greater extents in groundnut production.     

Aflatoxin B<Subscript>1</Subscript> levels in groundnut products from local markets in Zambia

In Zambia, groundnut products (milled groundnut powder, groundnut kernels) are mostly sold in under-regulated markets. Coupled with the lack of quality enforcement in such markets, consumers may be at risk to aflatoxin exposure. However, the level of aflatoxin contamination in these products is not known. Compared to groundnut kernels, milled groundnut powder obscures visual indicators of aflatoxin contamination in groundnuts such as moldiness, discoloration, insect damage or kernel damage. A survey was therefore conducted from 2012 to 2014, to estimate and compare aflatoxin levels in these products (n = 202), purchased from markets in important groundnut growing districts and in urban areas. Samples of whole groundnut kernels (n = 163) and milled groundnut powder (n = 39) were analysed for aflatoxin B₁ (AFB₁) by competitive enzyme-linked immunosorbent assay (cELISA). Results showed substantial AFB₁ contamination levels in both types of groundnut products with maximum AFB₁ levels of 11,100 μg/kg (groundnut kernels) and 3000 μg/kg (milled groundnut powder). However, paired t test analysis showed that AFB₁ contamination levels in milled groundnut powder were not always significantly higher (P > 0.05) than those in groundnut kernels. Even for products from the same vendor, AFB₁ levels were not consistently higher in milled groundnut powder than in whole groundnut kernels. This suggests that vendors do not systematically sort out whole groundnut kernels of visually poor quality for milling. However, the overall contamination levels of groundnut products with AFB₁ were found to be alarmingly high in all years and locations. Therefore, solutions are needed to reduce aflatoxin levels in such under-regulated markets.     

Preharvest seed infection byAspergillus flavus group fungi and subsequent aflatoxin contamination in groundnuts in relation to soil types

Preharvest seed infection byAspergillus flavus and aflatoxin contamination in selected groundnut genotypes (fourA. flavus-resistant and fourA. flavus-susceptible) were examined in different soil types at several locations in India in 1985–1990. Undamaged mature pods were sampled at harvest and seed examined forA. flavus infection and aflatoxin content in two or more trials at ICRISAT Center on light sandy soils and red sandy loam soils (Alfisols), and on Vertisols, at Anantapur on light sandy soils, and at Dharwad and Parbhani on Vertisols. Rainy season trials (1985–1989) were all rainfed. Post-rainy season trials were irrigated; late-season drought stress (90 days after sowing (DAS) until harvest at 125 DAS) was imposed in the 1987/88 and 1989/90 seasons.A. flavus infection and aflatoxin contamination levels were much lower in seed of all genotypes from Vertisols than in seed from Alfisols across locations and seasons. Vertisols also had significantly lower populations ofA. flavus than Alfisols. There were no marked differences between light sandy soils and red sandy loam soils (Alfisols) in respect of seed infection byA. flavus and aflatoxin contamination. Significant interactions between genotypes and soil types were evident, especially in theA. flavus-susceptible genotypes. Irrespective of soil types,A. flavus-resistant genotypes showed lower levels of seed infection byA. flavus and other fungi than didA. flavus-susceptible genotypes. The significance of the low preharvest aflatoxin risk in groundnuts grown on Vertisols is highlighted.ICRISAT Journal Article No. JA 1122