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1.
Food Res Int ; 162(Pt A): 111931, 2022 12.
Article in English | MEDLINE | ID: mdl-36461278

ABSTRACT

Controlling food spoilage fungi remains a challenge for food industries, and regulations on the usage of chemical disinfectants are becoming restrictive. Then, this study aimed to evaluate electrolyzed water (EW) as a sustainable alternative for food spoilage fungi inactivation. The experiment was carried out according to the protocol for testing the antifungal effects of chemical sanitizers by the European Committee for Standardization (CEN), using acidic electrolyzed water (AEW-AAC: 85 ppm; pH: 2.65; ORP: 1120 mV) and a basic electrolyzed water (BEW- pH: 11.12; ORP: -209 mV) to inactivate spoilage fungi strains from bread (Hyphopichia burtonii and Penicillium roqueforti) and cheese (P. roqueforti and Penicillium commune), besides the standard fungi for this type of essay (Candida albicans and Aspergillus brasiliensis). AEW presented a higher antifungal effect, inactivating an average of 89 % of the exposed population when compared to its respective BEW, which inactivates about 81.5 %. In general, the standard strains A. brasiliensis (ATCC 16404) and Candida albicans (ATCC 24433) were more sensitive to both AEW and BEW than the food-spoilage strains. Among those, P. roqueforti strains were the most sensitive, followed by P. commune strains, while H. burtonii strains were the most tolerant. EW can be a sustainable alternative for product surface and facility cleaning with further antifungal action when a sanitization step is not mandatory or needed. Future studies searching for conditions to improve the antifungal action of EW could make their industrial usage more viable.


Subject(s)
Bread , Cheese , Antifungal Agents/pharmacology , Water , Candida albicans
2.
Int J Food Microbiol ; 374: 109723, 2022 Aug 02.
Article in English | MEDLINE | ID: mdl-35643035

ABSTRACT

Organic acids and their salts are usually the first choice in the bread industry to restrict fungal spoilage, but their efficacy is pH-dependent and spoilage by fungi remains as a common threat. Therefore, this study aimed to evaluate the susceptibility of spoilage fungi of bakery products to acetic, sorbic, and propionic acids at different pH. Penicillium roqueforti, Penicilium paneum, Aspergillus pseudoglaucus, Aspergillus montevidensis and Hyphopichia burtonii strains isolated from spoiled products had their minimum inhibitory concentration (MIC) defined by macrodilution. The concentrations tested were: (i) sorbic acid up to 32 mM; (ii) propionic acid up to 1024 mM and (iii) acetic acid up to 800 mM with pH adjusted in 4.5, 5.0, 5.0 and 6.0 after setting the agent concentration. The lowest MICs for all agents were obtained at pH 4.5, usually doubling with every 0.5 pH increase. P. roqueforti strains isolated from spoiled products were the most resistant to all tested preservatives; while strains of the related species P. paneum, showed similar tolerance to acetic and propionic acids but was double more susceptible to sorbic acid. Strains of A. pseudoglaucus and A. montevidensis were indistinctly susceptible to the preservatives and were the most susceptible species to propionic and acetic acids. H. burtonii strains demonstrated the most variable behaviour in comparison to the other strains being the most susceptible to sorbic acid, were like Aspergillus strains regarding propionic acid, but tolerate well acetic acid. Propionic acid concentrations usually allowed in baked goods are lower than the concentrations required to inhibit the most tolerant isolates tested in this study. The same is true for sorbic acid at higher pH levels. Spoilage species of bakery ware presents a distinct susceptibility profile to the preservatives commonly used in this sector, but the high tolerance observed is a cause of concern.


Subject(s)
Food Preservatives , Sorbic Acid , Acetic Acid/pharmacology , Acids/pharmacology , Bread/microbiology , Food Preservatives/pharmacology , Fungi , Hydrogen-Ion Concentration , Propionates/pharmacology , Sorbic Acid/pharmacology
3.
Toxins (Basel) ; 14(3)2022 03 06.
Article in English | MEDLINE | ID: mdl-35324693

ABSTRACT

This study evaluated the fungal incidence through direct plating in Agar Dichloran Glycerol, and the presence of aflatoxins in maize samples from the Highlands and Coast of Ecuador by HPLC, investigating the influence of the temperature, altitude, water activity, and humidity of the collection regions on the maize samples' contamination using Principal Components Analysis (PCA). The overall kernel infection by fungi was usually lower in samples from the Highlands, and no aflatoxins or Aspergillus series Flavi were detected in the samples from this region. In the coastal samples, Aspergillus sp. were isolated from all samples, while the potentially aflatoxigenic A. Flavi contaminated about 80% of them. Aflatoxins were present in 50% of these samples, in ranges from 0.42 to 107.69 µg/kg. PCA was able to segregate the samples according to their collection region, and showed that the maximum and minimum temperatures are closely and positively related to the presence of A. Flavi. A highly positive relationship was also observed between the water activity of the sample and aflatoxin contamination. On the other hand, the altitude had a very strong-but negative-relationship with the variables studied. This study is relevant because data regarding fungi and aflatoxin occurrence, as well the main factor influencing the contamination of Ecuadoran maize, are scarce; it clearly shows that aflatoxins are a hazard present in maize from the Ecuadorian Coast but not the Highlands.


Subject(s)
Aflatoxins , Aflatoxins/analysis , Aspergillus , Aspergillus flavus , Ecuador , Food Contamination/analysis , Humidity , Incidence , Water/analysis , Zea mays/microbiology
4.
Front Microbiol ; 12: 678406, 2021.
Article in English | MEDLINE | ID: mdl-34168633

ABSTRACT

Bread and intermediate moisture bakery products are mainly spoiled by yeasts and filamentous fungi. The inoculum load and preservation system used determines their shelf life. To extend the shelf life of such commodities, the use of chemical preservatives is the most common way to try and control the initiation of mold spoilage of bread. This study has utilized a rapid turbidimetric assay system (Bioscreen C) to examine the temporal efficacy of calcium propionate (CP) and potassium sorbate (PS) for controlling the growth of important bread spoilage fungi. The objectives were to compare the temporal growth of strains of three important spoilage fungi Hyphopichia burtonii (HB17), Paecilomyces variotii (PV11), and Penicillium roqueforti (PR06) isolated from visibly molded bread to (a) different concentrations of CP and PS (0-128 mM), (b) temperatures (25°C, 30°C), (c) water activity (aw; 0.95, 0.97), and (d) pH (5.0, 5.5). All three abiotic factors, pH, aw, and temperature, and preservative concentrations influenced the relative growth of the species examined. In general, PS was more effective than CP in inhibiting the growth of the strains of these three species. In addition, the Time to Detection (TTD) for the efficacy of the preservatives under the interacting abiotic factors was compared. The strain of Paecilomyces variotii (PV10) was the most tolerant to the preservatives, with the shortest TTD values for both preservatives. P. roqueforti was the most sensitive with the longest TTD values under all conditions examined. These results are discussed in the context of the evolution of resistance to food-grade preservatives by such spoilage fungi in bakery products.

5.
Food Microbiol ; 97: 103740, 2021 Aug.
Article in English | MEDLINE | ID: mdl-33653519

ABSTRACT

Parameters such as type and concentration of the active compound, exposure time, application temperature, and organic load presence influence the antimicrobial action of sanitizers, although there is little data in the literature. Thus, this study aimed to evaluate the antifungal efficacy of different chemical sanitizers under different conditions according to the European Committee for Standardization (CEN). Aspergillus brasiliensis (ATCC 16404) was exposed to four compounds (benzalkonium chloride, iodine, peracetic acid, and sodium hypochlorite) at two different concentrations (minimum and maximum described on the product label), different exposure times (5, 10, and 15 min), temperatures (10, 20, 30, and 40 °C), and the presence or absence of an organic load. All parameters, including the type of sanitizer, influenced the antifungal efficacy of the tested compounds. Peracetic acid and benzalkonium chloride were the best antifungal sanitizers. The efficacy of peracetic acid increased as temperatures rose, although the opposite effect was observed for benzalkonium chloride. Sodium hypochlorite was ineffective under all tested conditions. In general, 5 min of sanitizer exposure is not enough and >10 min are necessary for effective fungal inactivation. The presence of organic load reduced sanitizer efficacy in most of the tested situations, and when comparing the efficacy of each compound in the presence and absence of an organic load, a difference of up to 1.5 log CFU was observed. The lowest concentration recommended on the sanitizer label is ineffective for 99.9% fungal inactivation, even at the highest exposure time (15 min) or under the best conditions of temperature and organic load absence. Knowledge of the influence exerted by these parameters contributes to successful hygiene since the person responsible for the sanitization process in the food facility can select and apply a certain compound in the most favorable conditions for maximum antifungal efficacy.


Subject(s)
Antifungal Agents/pharmacology , Aspergillus/drug effects , Benzalkonium Compounds/pharmacology , Disinfectants/pharmacology , Peracetic Acid/pharmacology , Sodium Hypochlorite/pharmacology , Aspergillus/growth & development , Benzalkonium Compounds/chemistry , Colony Count, Microbial , Disinfectants/analysis , Peracetic Acid/analysis , Sodium Hypochlorite/analysis , Temperature , Time Factors
6.
Int J Food Microbiol ; 335: 108856, 2020 Dec 16.
Article in English | MEDLINE | ID: mdl-32961522

ABSTRACT

This study aimed to evaluate the sensitivity of heat-resistant molds isolated from spoiled thermally processed foods to antimicrobial compounds used for food industry sanitation. An ortho-phenylphenol-based smoke generator sanitizer, liquid chemical sanitizers (benzalkonium chloride, biguanide, iodine, peracetic acid, and sodium hypochlorite), and acidic and alkaline electrolyzed water were used against Aspergillus australensis (MB 2579; NFF 02), Aspergillus aureoluteus (NFC1), Paecilomyces fulvus (PFF 01), Paecilomyces niveus (PNT 01; PNDC 01; PNB1 01), and Paecilomyces variotii (PV 01; PV 01; PVCH 03). The fungal strains were exposed separately to liquid sanitizers and electrolyzed water in stainless steel discs for 15 min following the European Committee for Standardization (CEN) recommendations. Moreover, the fungal strains were exposed to the smoke generator sanitizer for 7 h following French protocol NF-T-72281. The best results of fungal inactivation were achieved when the highest concentration specified in the label of these sanitizers was tested. On the opposite, the lowest concentration specified in the label should be avoided since it was ineffective in most cases (94%). The ortho-phenyphenol-based smoke generator sanitizer and peracetic acid (1%) showed the best results of spore inactivation, while iodine and benzalkonium chloride achieved satisfactory results against the strains evaluated. Sodium hypochlorite and biguanide were ineffective against most of the fungi studied at all concentrations tested. Acidic and basic electrolyzed water was also ineffective to achieve the 3-log CFU reduction required in the concentrations tested. In general, Paecilomyces spp. was more sensitive than Aspergillus spp. against all sanitizers evaluated, whereas A. aureoluteus NFC1 was resistant to all agents and concentrations tested. The heat-resistant fungal strains showed varied sensitivity against the different agents. Notably, the two most effective commercial sanitizers against the heat-resistant strains were ineffective against the filamentous fungi recommended for sanitizer testing (A. brasiliensis ATCC 16404), which demonstrates the relevance of testing fungal isolates that cause spoilage to choose the most effective compound and obtain the best results of fungal control.


Subject(s)
Antifungal Agents/pharmacology , Aspergillus/drug effects , Disinfectants/pharmacology , Paecilomyces/drug effects , Benzalkonium Compounds/pharmacology , Biphenyl Compounds/pharmacology , Colony Count, Microbial , Food Microbiology , Hydrogen Peroxide/pharmacology , Microbial Sensitivity Tests , Peracetic Acid/pharmacology , Sodium Hypochlorite/pharmacology , Stainless Steel
7.
Food Res Int ; 126: 108593, 2019 12.
Article in English | MEDLINE | ID: mdl-31732034

ABSTRACT

This study aimed to verify the main fungal species involved in the deterioration of different types of bread and to identify the possible sources of contamination of these products. Samples of raw materials (n = 127), environmental air (n = 50) and moldy bread (n = 90) were analyzed. Aspergillus candidus, Wallemia sebi, and Penicillium roqueforti were the predominant species in the raw materials and were isolated in samples of wheat flour, in two-thirds of the samples of rye and 62.5% of the wheat flour. Penicillium roqueforti was isolated from all types of moldy bread analyzed and Hyphopichia burtoni was also present in samples of moldy wheat and rye bread. These two species were also recovered during air sampling from baking industry facilities (cooling and slice and package areas), which may be crucial for product contamination after baking. Hygienic measures to reduce airborne contamination during the cooling and packaging of food should be taken to prevent the early deterioration of bread.


Subject(s)
Bread/microbiology , Food Microbiology , Fungi/classification , Fungi/isolation & purification , Aspergillus , Brazil , Flour/microbiology , Food Contamination , Food Industry , Penicillium , Triticum
8.
Food Microbiol ; 83: 134-140, 2019 Oct.
Article in English | MEDLINE | ID: mdl-31202404

ABSTRACT

The occurrence of ochratoxin A (OTA) in matured meat products can be attributed to mycotoxin coming from raw materials and/or molds that develop on the product surface during ripening. This work aimed to evaluate OTA production by Aspergillus westerdijkiae inoculated on the surface of sausages and its diffusion into the product throughout ripening, study the effect of relative humidity (RH) on the production of this mycotoxin, and investigate the presence of OTA in dry fermented sausages that naturally present intense contamination by A. westerdijkiae. Italian-type sausages were surface inoculated with A. westerdijkiae and two distinct experiments were performed. In the first, the sausages were matured in a chamber with decreasing RH (from 95 to 75%) for 35 days. In the other, the sausages were incubated under different RH (79, 85 or 95%) for 21 days. Samples were taken at the beginning of the experiments and every 7 days, subdividing into casing, outer border, and core for analyses. Sausage samples naturally spoiled by ochratoxigenic fungi were collected during sanitary inspection. Even in the presence of A. westerdijkiae mycelia, no OTA was detected for up to 7 days of sausage maturation. On the other hand, this study demonstrated that the growth of A. westerdijkiae on salami surface produces high amounts of OTA on the casing and allows its diffusion through the casing with contamination to the outer border of sausages. In the same way, it shows that under similar water activity values of substrate, RH influences the amount of OTA produced. Conversely, OTA was restricted to the casing in the naturally contaminated sausages.


Subject(s)
Aspergillus/metabolism , Food Contamination/analysis , Meat Products/microbiology , Mycotoxins/analysis , Ochratoxins/analysis , Animals , Fermented Foods/microbiology , Food Microbiology , Humidity , Italy , Swine
9.
Food Microbiol ; 83: 59-63, 2019 Oct.
Article in English | MEDLINE | ID: mdl-31202419

ABSTRACT

Information on the sensitivity of spoilage fungi of bakery products to sanitizing agents is scarce in the literature. Thus, the aim of this study was to evaluate the antifungal activity of different classes of commercial sanitizers, which have permitted use in the food industry, on the main fungi involved in spoiling bakery products. The tests were carried out according to the protocol for testing the antifungal effect of chemical sanitizers of the European Committee for Standardization (CEN), with adaptations. Different strains of six isolated fungal species responsible for spoiling bakery products (Penicillium roqueforti, Penicillium paneum, Hyphopichia burtonii, and Aspergillus pseudoglaucus) were tested against five sanitizers at three concentrations: benzalkonium chloride (0.3%, 2.5%, 5%), biguanide (2%, 3.5%, 5%), peracetic acid (0.15%, 1.5%, 3%), quaternary ammonium (0.3%, 2.5%, 5%), and sodium hypochlorite (0.01%, 0.1%, 0.2%). Peracetic acid was the most effective sanitizes considering the genera, species, and concentrations evaluated, generally being capable of reductions between 2 and 4 logs of initial control tested. Biguanide should not be the compound of choice when the main goal of the bakery industry is fungal control.


Subject(s)
Aspergillus/drug effects , Bread/microbiology , Disinfectants/pharmacology , Food Microbiology , Fungicides, Industrial/pharmacology , Penicillium/drug effects , Biguanides/pharmacology , Food Preservation , Microbial Sensitivity Tests , Peracetic Acid/pharmacology
10.
Ciênc. rural (Online) ; 49(6): e20190076, 2019. tab, graf
Article in English | LILACS | ID: biblio-1045382

ABSTRACT

ABSTRACT: In recent years, Brazil has encouraged the cultivation of pecans to meet both demands of domestic and international market of nuts. New genetic varieties of pecans have been selected in recent years, but available scientific information on the occurrence of fungi and aflatoxins in the international literature is out of date. Therefore, the present study aimed to quantify and identify fungal microbiota and the presence of aflatoxins in pecan nuts cultivated in southern Brazil. Fifty-two pecan nut lots (Barton variety) were obtained from producers from 19 cities of Rio Grande do Sul State and analyzed by direct plating in Agar Dichloran Glycerol 18% (DG18) and Aspergillus Flavus and Parasiticus Agar (AFPA), following incubation at 25 °C for 7 days. Aflatoxins analyses were carried out using HPLC coupled with a mass spectrometer. Results revealed at least 10 different genera of fungi. Aspergillus, Penicillium, Fusarium, and Cladosporium were predominant. Xerophilic species of Aspergillus (A. wentii, A. ruber, A. pseudoglaucus, and A. chevalieri) were commonly reported in the samples. No potential aflatoxin-producing species was isolated and no aflatoxins were detected (LOQ=1 μg/kg and LOD=0.1 μg/kg for AFB1 and AFB2, and 0.3 μg/kg for AFG1 and AFG2) in the evaluated samples. The absence of this carcinogenic group of mycotoxins is highly positive and could boost the investments in the sector, as well as stimulate the commercialization and consumption of this variety of nut.


RESUMO: Nos últimos anos, o Brasil tem incentivado o cultivo de pecãs para atender a demanda do mercado nacional e internacional de nozes. Novas variedades genéticas de pecãs foram selecionadas nos últimos anos, mas informações científicas disponíveis sobre a ocorrência de fungos e aflatoxinas na literatura internacional estão desatualizadas. Portanto, o presente estudo objetivou quantificar e identificar a microbiota fúngica e a presença de aflatoxinas em nozes cultivadas no sul do Brasil. Cinquenta e dois lotes de nozes (variedade Barton) foram obtidos de produtores de 19 municípios do Estado do Rio Grande do Sul e analisados ​​por meio de Ágar Dicloran Glicerol 18% (DG18) e Aspergillus Flavus e Parasiticus Agar (AFPA), após incubação em 25 °C durante 7 dias. Análises de aflatoxinas foram realizadas usando HPLC acoplado a um espectrômetro de massa. Os resultados revelaram pelo menos 10 gêneros diferentes de fungos. Aspergillus, Penicillium, Fusarium e Cladosporium foram predominantes. Espécies xerofílicas de Aspergillus (A. wentii, A. ruber, A. pseudoglaucus e A. chevalieri) foram comumente encontradas nas amostras. Nenhuma espécie potencial produtora de aflatoxinas foi isolada e nenhuma aflatoxina foi detectada (LOQ=1 μg/kg e LOD=0,1 μg/kg para AFB1 e AFB2; e 0,3 μg/kg para AFG1 e AFG2) nas amostras avaliadas. A ausência desse grupo carcinogênico de micotoxinas é altamente positiva e pode impulsionar os investimentos no setor, além de estimular a comercialização e o consumo dessa variedade de nozes.

11.
Ci. Rural ; 49(6): e20190076, 2019. mapas, tab, ilus
Article in English | VETINDEX | ID: vti-22663

ABSTRACT

In recent years, Brazil has encouraged the cultivation of pecans to meet both demands of domestic and international market of nuts. New genetic varieties of pecans have been selected in recent years, but available scientific information on the occurrence of fungi and aflatoxins in the international literature is out of date. Therefore, the present study aimed to quantify and identify fungal microbiota and the presence of aflatoxins in pecan nuts cultivated in southern Brazil. Fifty-two pecan nut lots (Barton variety) were obtained from producers from 19 cities of Rio Grande do Sul State and analyzed by direct plating in Agar Dichloran Glycerol 18% (DG18) and Aspergillus Flavus and Parasiticus Agar (AFPA), following incubation at 25 °C for 7 days. Aflatoxins analyses were carried out using HPLC coupled with a mass spectrometer. Results revealed at least 10 different genera of fungi. Aspergillus, Penicillium, Fusarium, and Cladosporium were predominant. Xerophilic species of Aspergillus (A. wentii, A. ruber, A. pseudoglaucus, and A. chevalieri) were commonly reported in the samples. No potential aflatoxin-producing species was isolated and no aflatoxins were detected (LOQ=1 μg/kg and LOD=0.1 μg/kg for AFB1 and AFB2, and 0.3 μg/kg for AFG1 and AFG2) in the evaluated samples. The absence of this carcinogenic group of mycotoxins is highly positive and could boost the investments in the sector, as well as stimulate the commercialization and consumption of this variety of nut.(AU)


Nos últimos anos, o Brasil tem incentivado o cultivo de pecãs para atender a demanda do mercado nacional e internacional de nozes. Novas variedades genéticas de pecãs foram selecionadas nos últimos anos, mas informações científicas disponíveis sobre a ocorrência de fungos e aflatoxinas na literatura internacional estão desatualizadas. Portanto, o presente estudo objetivou quantificar e identificar a microbiota fúngica e a presença de aflatoxinas em nozes cultivadas no sul do Brasil. Cinquenta e dois lotes de nozes (variedade Barton) foram obtidos de produtores de 19 municípios do Estado do Rio Grande do Sul e analisados por meio de Ágar Dicloran Glicerol 18% (DG18) e Aspergillus Flavus e Parasiticus Agar (AFPA), após incubação em 25 °C durante 7 dias. Análises de aflatoxinas foram realizadas usando HPLC acoplado a um espectrômetro de massa. Os resultados revelaram pelo menos 10 gêneros diferentes de fungos. Aspergillus, Penicillium, Fusarium e Cladosporium foram predominantes. Espécies xerofílicas de Aspergillus (A. wentii, A. ruber, A. pseudoglaucus e A. chevalieri) foram comumente encontradas nas amostras. Nenhuma espécie potencial produtora de aflatoxinas foi isolada e nenhuma aflatoxina foi detectada (LOQ=1 μg/kg e LOD=0,1 μg/kg para AFB1 e AFB2; e 0,3 μg/kg para AFG1 e AFG2) nas amostras avaliadas. A ausência desse grupo carcinogênico de micotoxinas é altamente positiva e pode impulsionar os investimentos no setor, além de estimular a comercialização e o consumo dessa variedade de nozes.(AU)


Subject(s)
Carya/parasitology , Fungi , Mycobiome , Aflatoxins/analysis
12.
Food Res Int ; 106: 136-140, 2018 04.
Article in English | MEDLINE | ID: mdl-29579911

ABSTRACT

During their processing, spices usually remain close to the ground for drying, a fact that disposes to fungal contamination, as well as moisture transferred from the tropical environment can allow their multiplication and synthesis of mycotoxins. The objective of this study was to evaluate the presence of potentially toxigenic fungi and mycotoxins in spices marketed in Brazil. The fungal contamination was evaluated by direct plating for samples of clove, black and white peppers. Spread plate was used for the samples of rosemary, cinnamon, fennel, pepperoni pepper and oregano. Analyses were performed in triplicate in DG18 media with incubation at 25°C for 7days. The isolation and identification of fungi followed specific recommendations of culture media and incubation period for each genus. The presence of mycotoxins in spices was verified by high-performance liquid chromatography (HPLC) coupled to fluorescence. The frequency of species potentially toxigenic was high in white and black peppers with presence of both aflatoxigenic and ochratoxigenic fungi. Only rosemary and fennel showed contamination with aflatoxin B1 and there was a positive correlation (ρ<0.01) between the rosemary contamination with the presence of AFB1 and A. flavus. Even in the presence of ochratoxigenic fungi, ochratoxin A was not detected in the samples. The presence of natural components with antimicrobial activity could justify the low presence of mycotoxins, even in the presence of known toxigenic fungi in the samples. Mycotoxins were not detected in spices covered by Brazilian regulation of mycotoxins. On the other hand, these contaminants were present in other spices consumed by population and not mentioned in the regulation, which could be considered a cause to concern.


Subject(s)
Commerce , Foeniculum , Fungi/growth & development , Mycotoxins/analysis , Piper nigrum , Rosmarinus , Spices/microbiology , Aflatoxin B1/analysis , Aflatoxins/analysis , Brazil , Chromatography, High Pressure Liquid , Fluorescence , Food Microbiology , Humans , Ochratoxins/analysis
13.
Food Microbiol ; 73: 93-98, 2018 Aug.
Article in English | MEDLINE | ID: mdl-29526231

ABSTRACT

The aim of this study was to identify fungal species present in 200 samples of rosemary, fennel, cinnamon, clove, pepperoni, black and white pepper and oregano and evaluate the mycotoxigenic potential of the some Aspergilli isolated. Clove, black and white peppers were analyzed by direct plating. For rosemary, cinnamon, fennel, pepperoni pepper and oregano samples were used spread plate. Mycotoxigenic capacity was verified by the agar plug method. With the exception of clove, all the spices showed high fungal contamination, especially by Aspergillus sp., Penicillium sp. and Cladosporium sp. Frequency of toxigenic Aspergillus spp. was intense in white and black peppers, with presence of Aspergillus flavus (up to 32%), Aspergillus nomius (up to 12%), Aspergillus parasiticus (up to 4%), Aspergillus niger complex (up to 52%), Aspergillus ochraceus (up 12%) and Aspergillus carbonarius (up to 4%). 14,2% of A. flavus isolated from black pepper were aflatoxins producers. In the white pepper, 66.7% of A. flavus isolates and 100% of A. nomius were aflatoxigenic. Oregano showed the highest number of A. niger complex isolates (49), however, only 2.04% produced ochratoxin A. This study showed a huge fungal presence in spices, which could compromise the sensorial quality of these products and represent a hazard for consumers.


Subject(s)
Aspergillus flavus/isolation & purification , Aspergillus niger/isolation & purification , Cladosporium/isolation & purification , Food Contamination/analysis , Mycotoxins/analysis , Penicillium/isolation & purification , Spices/microbiology , Aspergillus flavus/genetics , Aspergillus flavus/metabolism , Aspergillus niger/genetics , Aspergillus niger/metabolism , Cladosporium/genetics , Cladosporium/metabolism , Mycotoxins/metabolism , Penicillium/genetics , Penicillium/metabolism
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