ABSTRACT:
The aim of the present study was to assess the occurrence of aflatoxins (AFs) and fumonisins (FBs) in feed ingredients (corn and soybean meal) and finishing feed in a broiler operation system, as well was to evaluate their effect on the productivity of 20 batches of broilers produced and the histology status of broilers’ liver after slaughter. Corn samples presented the highest frequencies of AFs and FBs, at mean levels of 29.1 and 2,100µg/kg, respectively. Soybean samples presented mean levels of 1.5 and 70µg/kg for AFs and FBs, respectively. Batches of broilers receiving feed containing FB levels higher than 1,000µg/kg had lower weight gain and higher mortality rates, while those fed rations with AFs equal or above the limit of quantification (LOQ) of the analytical method presented higher scores of histological changes in the liver. A dilution effect was observed for AFs and FBs from ingredients, especially corn, to feed during manufacture, whilst not enough to prevent losses in productivity. Results of this trial highlighted the need for strict control of mycotoxins in corn intended for broilers.
Key words:
mycotoxins; AFB1; FB1; broiler chickens; productivity
RESUMO:
O objetivo do presente trabalho foi verificar a ocorrência de aflatoxinas (AFs) e fumonisinas (FBs) em ingredientes (milho e farelo de soja) e na ração de abate sobre a produtividade de uma empresa integradora de frangos de corte, bem como avaliar seus efeitos sobre produtividade de 20 lotes de frangos produzidos pela empresa e a histologia dos fígados dos frangos após o abate. As amostras de milho apresentaram as maiores frequências de AFs e FBs, em concentrações médias de 29,1 e 2.100µg/kg, respectivamente. As amostras de farelo de soja apresentaram níveis médios de 1,5 e 70µg/kg para AFs e FBs, respectivamente. Os lotes de aves que receberam ração contendo níveis de FBs maiores que 1,000µg/kg apresentaram menor ganho de peso e maior percentual de mortalidade, enquanto que as que receberam ração com AFs iguais ou superiores ao limite de quantificação (LQ) do método analítico apresentaram maior grau de alteração histopatológica no fígado. Houve efeito de diluição de AFs e FBs dos ingredientes, especialmente o milho, à ração no processo de fabricação, porém não suficiente para evitar perdas na produtividade. Os resultados do estudo reforçam a necessidade do controle estrito de micotoxinas no milho destinado à alimentação de frangos de corte.
Palavras-chave:
micotoxinas; AFB1; FB1; frangos de corte; produtividade
INTRODUCTION:
Mycotoxins are secondary metabolites produced by a range of toxigenic fungi that develop naturally in foodstuffs, which causes a great variety of toxic effects in several animal species (RICHARD, 2007RICHARD, J.L. Some major mycotoxins and their mycotoxicoses - An overview. International Journal of Food Microbiology, v.119, n.1-2, p.3-10, 2007. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0168160507003790?via%3Dihub
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.ijfoodmicro.2007.07.019.
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). Broiler chicks are particularly sensitive to the adverse effects of mycotoxins in feed that was prepared with contaminated main ingredients, especially corn (OLIVEIRA et al., 2014OLIVEIRA, C.A.F. et al. Animal health: mycotoxins. In: VAN ALFEN N. Encyclopedia of Agriculture and Food Systems. San Diego: Elsevier, 2014. Chap. 200, p.358-377. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/B978044452512300200X
>. Accessed: Jan. 31, 2019. doi: 10.1016/B978-0-444-52512-3.00200-X.
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). In Brazil, the most common toxigenic fungi reported in corn and corn-based feed included species from the genera Aspergillus and Fusarium (SANTURIO, 2000SANTURIO, J.M. Micotoxinas e micotoxicoses na avicultura. Revista Brasileira de Ciência Avícola, v.2, p.1-12, 2000. Available from: <Available from: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1516-635X2000000100001
>. Accessed: Jan. 31, 2019. doi: 10.1590/S1516-635X2000000100001.
http://www.scielo.br/scielo.php?script=s...
; AQUINO & POTENZA, 2013AQUINO, S.; POTENZA, M.R. Análise da micobiota associada à entomofauna em rações a granel para animais domésticos. Arquivos do Instituto Biológico, v.80, p.243-247, 2013. Available from: <Available from: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1808-16572013000200016&lng=en&nrm=iso&tlng=pt
>. Accessed: Jan. 31, 2019. doi: 10.1590/S1808-16572013000200016.
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), which produce the aflatoxins (AFs) and fumonisins (FBs), respectively. As a consequence, AFs and FBs are the most frequently reported mycotoxins in Brazilian corn and commercial feed for poultry (SOUZA et al., 2013SOUZA, M.D.L.M. et al. Cooccurrence of mycotoxins in maize and poultry feeds from Brazil by liquid chromatography/tandem mass spectrometry. The Scientific World Journal, v.2013, Article ID 427369, 2013. Available from: <Available from: https://www.hindawi.com/journals/tswj/2013/427369/
>. Accessed: Jan. 31, 2019. doi: 10.1155/2013/427369.
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). However, there is no regulation for mycotoxins in feed in Brazil, except for a recommended maximum value of 50µg/kg of AFs in feed ingredients (MINISTÉRIO DA AGRICULTURA, 1988MINISTÉRIO DA AGRICULTURA. Portaria nº 07, de 09 de novembro de 1988. Diário Oficial da União 21.968, 1988.). Soybean meal is considered a low-risk product for AF or FB contamination (OLIVEIRA et al., 2014OLIVEIRA, C.A.F. et al. Animal health: mycotoxins. In: VAN ALFEN N. Encyclopedia of Agriculture and Food Systems. San Diego: Elsevier, 2014. Chap. 200, p.358-377. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/B978044452512300200X
>. Accessed: Jan. 31, 2019. doi: 10.1016/B978-0-444-52512-3.00200-X.
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); although, other Fusarium toxins such as nivalenol and deoxynivalenol have been reported (MARTINELLI et al., 2004MARTINELLI et al. Soybean pod blight and root rot caused by lineages of the Fusarium graminearum and the production of mycotoxins. Fitopatologia Brasileira, v.29, n.5, p.492-498, 2004. Available from: <Available from: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-41582004000500004
>. Accessed: Jan. 31, 2019. doi: 10.1590/S0100-41582004000500004.
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). MALLMANN et al. (2001MALLMANN, C.A. et al. Fumonisin B1 levels in cereals and feeds from southern Brazil. Arquivos do Instituto Biológico, v.68, n.1, p.41-45, 2001. Available from: <Available from: http://www.biologico.sp.gov.br/uploads/docs/arq/V68_1/8.pdf
>. Accessed: Jan. 31, 2019.
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) did not observe any positive sample of soybean meal from southern states in Brazil containing FBs, and there is no report on the occurrence of AFs in Brazilian soybean meal.
Twenty different types of AFs were identified; although, only AFB1, AFB2, AFG1 and AFG2 are frequently reported as natural contaminants of food products (HUSSEIN & BRASEL, 2001HUSSEIN, H.; BRASEL, J. Toxicity, metabolism and impact of mycotoxins on human and animals. Toxicology, v.167, p.101-134, 2001. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0300483X01004711?via%3Dihub
>. Accessed: Jan. 31, 2019. doi: 10.1016/S0300-483X(01)00471-1.
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). Toxic effects of AFs include carcinogenicity, mutagenicity, teratogenicity and hepatotoxicity (JAGER et al., 2013JAGER, A.V. et al. Assessment of aflatoxin intake in São Paulo, Brazil. Food Control, v.33, n.1, p.87-92, 2013. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0956713513000923
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.foodcont.2013.02.016.
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). In poultry production systems, the AFs negatively affect the body weight gain and feed conversion, and causes histological changes in the liver as well as immunosuppression and increased mortality rates (RICHARD, 2007RICHARD, J.L. Some major mycotoxins and their mycotoxicoses - An overview. International Journal of Food Microbiology, v.119, n.1-2, p.3-10, 2007. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0168160507003790?via%3Dihub
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.ijfoodmicro.2007.07.019.
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). Twenty-eight structurally related FBs have been isolated and identified, although FB1, FB2 and FB3 are the most predominant form produced by the fungi (REISINGER et al., 2016REISINGER, N. et al. Fumonisin B1 (FB1) induces lamellar separation and alters sphingolipid metabolism of in vitro cultured hoof explants. Toxins, v.8, n.4, p.1-11, 2016. Available from: <Available from: https://www.mdpi.com/2072-6651/8/4/89
>. Accessed: Jan. 31, 2019. doi: 10.3390/toxins8040089.
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). In poultry, FBs cause decreased feed consumption and body weight gain, increased relative weights of liver and kidney, and liver necrosis (HENRY et al., 2000HENRY, M.H. et al. The toxicity of purified fumonisin B1 in broiler chicks. Poultry science, v.79, n.10, p.1378-1384, 2000. Available from: <Available from: https://academic.oup.com/ps/article/79/10/1378/1530685
>. Accessed: Jan. 31, 2019. doi: 10.1093/ps/79.10.1378.
https://academic.oup.com/ps/article/79/1...
; TESSARI et al., 2010TESSARI, E.N.C. et al. Effects of aflatoxin B1 and fumonisin B1 on blood biochemical parameters in broilers. Toxins, v.2, n.4, p.453-460, 2010. Available from: <Available from: https://www.mdpi.com/2072-6651/2/4/453
>. Accessed: Jan. 31, 2019. doi: 10.3390/toxins2040453.
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).
The toxicological data available on the effects of AFs or FBs in broiler chickens are mostly based on experimental trials conducted at laboratory scale (ALLAMEH et al., 2005ALLAMEH, A. et al. Evaluation of biochemical and production parameters of broiler chicks fed ammonia treated aflatoxin contaminated maize grains. Animal Feed Science and Technology, v.122, p.289-301, 2005. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0377840105001124
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.anifeedsci.2005.03.005.
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). However, there is no information on the health impacts of these mycotoxins under conditions of natural occurrence in the field, such as commercial poultry production units in Brazil. Thus, the present study aimed to determine the occurrence of AFs and FBs in the main feed ingredients (corn and soybean meal) and finishing feed of a broiler operation system, and evaluate their impact on the company’s productivity.
MATERIALS AND METHODS:
Broiler operation system characteristics and sampling procedures
The study was conducted in a broiler operation system located in the Southeast region of the State of São Paulo, which used the integration system composed by nearly 280 integrated farms to produce around 6,000 tons/month of finished products. The company produced the total feed required by the farms, using corn and soybean meal harvested in the Brazilian Mid-West region as main ingredients. In all integrated farms, the birds were vaccinated against Marek’s disease (Fort Dogde®) and Gumboro disease (CEVAC® IBD L) at hatchery and at 14 day-old, respectively.
The following types of samples were collected in the study, during manufacture of 17 batches of feed: feed ingredients (corn and soybean meal, N=17 for each product) received by the company and stored in the feed production plant, finishing feed freshly prepared (supplied to animals from 41 to 48 days of age) (N=47), and finishing feed stored (N=47) for up to 10 days in 7 farms with housing capacity ranging from 9,000 to 39,000 birds. Composed samples (2kg) were collected from of each product, and the number and weight of incremental samples collected from different points in the storage silos followed the recommendations of ISO 6497 (ISO, 2002ISO. Animal feeding stuffs - Sampling. International Standard ISO 6497, 2002.). All samples were placed in polyethylene bags and sent to the laboratory for immediate analysis. The 17 batches of finishing feed were distributed to the 7 integrated farms of the company and used to produce 20 batches of broilers (N=4,000-5,000 birds per batch).
Analyses of aflatoxins and fumonisins
Extraction and purification of corn, soybean meal and feed samples for determination of AFs (AFB1, AFB2, AFG1 and AFG2) were performed using immuno affinity columns (Neogen®) as described by OLIVEIRA et al. (2008OLIVEIRA, C.A.F. et al. Aflatoxins and cyclopiazonic acid in feed and milk from dairy farms in São Paulo, Brazil. Food Additives & Contaminants: Part B, v.1, n.2, p.147-152, 2008. Available from: <Available from: https://www.tandfonline.com/doi/abs/10.1080/02652030802382865
>. Accessed: Jan. 31, 2019. doi: 10.1080/02652030802382865.
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). For FBs (FB1, FB2), solid phase extraction (SPE) columns (Bond-Elut SAX) were used for extraction and purification according to BORDIN et al. (2014BORDIN, K. et al. Assessment of dietary intake of fumonisin B1 in São Paulo, Brazil. Food Chemistry, v.155, p.174-178, 2014. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0308814614000788?via%3Dihub
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.foodchem.2014.01.057.
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). The AFs and FBs were determined using a high performance liquid chromatography (HPLC) system, composed by a Shimadzu (Kyoto, Japan) 10VP liquid chromatograph, a 10 AXL fluorescence detector, a Shim-Pack CLC-ODS Sil column (4.6X250mm, 5µm) and a Shim-Pack pre-column (4X10mm, 5µm CLC G-ODS). Instrument set up, preparation of calibration curves, derivatization steps and chromatographic conditions for determination of AFs and FBs strictly followed the procedures as described by OLIVEIRA et al. (2008)OLIVEIRA, C.A.F. et al. Aflatoxins and cyclopiazonic acid in feed and milk from dairy farms in São Paulo, Brazil. Food Additives & Contaminants: Part B, v.1, n.2, p.147-152, 2008. Available from: <Available from: https://www.tandfonline.com/doi/abs/10.1080/02652030802382865
>. Accessed: Jan. 31, 2019. doi: 10.1080/02652030802382865.
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and BORDIN et al. (2014).BORDIN, K. et al. Assessment of dietary intake of fumonisin B1 in São Paulo, Brazil. Food Chemistry, v.155, p.174-178, 2014. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0308814614000788?via%3Dihub
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.foodchem.2014.01.057.
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The retention times were approximately 4.2, 5.3, 7.6 and 9.5min. for AFG1 (converted to AFG2a), AFB1 (converted to AFB2a), AFG2 and AFB2, respectively. For FB1 and FB2, the retention times were approximately 9.5 minutes, respectively. The limits of detection (LOD) and limits of quantification (LOQ) were calculated based on signal: noise ratios of 3:1 and 10:1, respectively. The performances of the analytical methods were evaluated as previously described (OLIVEIRA et al., 2008OLIVEIRA, C.A.F. et al. Aflatoxins and cyclopiazonic acid in feed and milk from dairy farms in São Paulo, Brazil. Food Additives & Contaminants: Part B, v.1, n.2, p.147-152, 2008. Available from: <Available from: https://www.tandfonline.com/doi/abs/10.1080/02652030802382865
>. Accessed: Jan. 31, 2019. doi: 10.1080/02652030802382865.
https://www.tandfonline.com/doi/abs/10.1...
; BORDIN et al., 2014BORDIN, K. et al. Assessment of dietary intake of fumonisin B1 in São Paulo, Brazil. Food Chemistry, v.155, p.174-178, 2014. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0308814614000788?via%3Dihub
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.foodchem.2014.01.057.
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).
Results reported in the finishing feed stored in the farms were categorized into four groups according to the levels of AFs (below and equal or above the LOQ value of the analytical method), and FBs (lower and equal or above 1,000µg/kg).
Productivity parameters
During the study, 20 batches of broilers were raised in the 7 integrated farms evaluated until the age of 48 days, when they were sent to the company’s slaughterhouse. At the time of slaughter of broilers of each batch from each farm, the following parameters were calculated by the company: Average daily weight gain (g/day)=(final weight-initial weight)/period in days; Feed conversion (g/g)=Feed intake (g)/weight gain (g); Production factor=(viability x average daily weight gain)/(feed conversionx10); Mortality (%)=(number of birds at start - number of birds at the end)x100/number of birds at start.
istological analysis
In the slaughterhouse, samples of liver, kidney, heart and bursa of Fabricius from 2 birds per batch of broilers were collected, totaling 40 samples of each organ. Samples were fixed in formalin, embedded in paraffin, sectioned at 4µm, and stained with hematoxylin and eosin stain for histopathology analysis (LUNA, 1968LUNA, G.L. Manual of histologic staining methods of the armed forces. 3rd ed. New York : McGraw-Hill, 1968. 258p.). Organs sections from all treatment groups were examined microscopically and individual sample numerical scores were reported using the following scoring system, based on the severity of the main mycotoxin-associated lesions (NEEFF et al., 2013NEEFF, D.V. et al. In vitro and in vivo efficacy of a hydrated sodium calcium aluminosilicate to bind and reduce aflatoxin residues in tissues of broiler chicks fed aflatoxin B1. Poultry Science, v.92, n.1, p.131-137, 2013. Available from: <Available from: https://academic.oup.com/ps/article/92/1/131/1553694
>. Accessed: Jan. 31, 2019. doi: 10.3382/ps.2012-02510.
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): 0=Organ section unremarkable; 1=Lesions in organ section are compatible with mild mycotoxicosis, affecting less than 20% of the tissue; 2=Lesions in organ section are compatible with light mycotoxicosis, affecting 20% to 40% of the tissue; 3=Lesions in organ section are compatible with moderate mycotoxicosis, affecting 40% to 60% of the tissue; 4=Lesions in organ section are compatible with serious mycotoxicosis, affecting 60% to 80% of the tissue; and 5=Lesions in organ section are compatible with severe mycotoxicosis, affecting more than 80% of the tissue.
Statistical analysis
The 20 batches of broilers produced in the 7 farms evaluated were classified in four categories, according to the AF or FB levels reported in the finishing feed stored in the farms, as described earlier. The productivity parameters and histopathological scores within each AF or FB category were analyzed by the Student’s t-Test, using the statistical package SAS 9.1 (SAS, 2004SAS. SAS INSTITUTE 9.1 Users guide. Carey: SAS Institute Inc. 2004. 1040p.). The differences among means were considered significant at P<0.05.
RESULTS AND DISCUSSION:
The occurrence of AFs and FBs in samples of corn, soybean meal and finished feed (freshly prepared and stored in the farms) is presented in table 1. The frequency of samples containing quantifiable levels of AFs in corn samples (65%) was similar to the value reported (55%) in samples of freshly harvested maize in the State of São Paulo, with a highest concentration of AFB1 of 1,600μg/kg (MACHINSKI et al., 2001MACHINSKI, M. et al. Aflatoxins, ochratoxin A and zearalenone in Brazilian corn cultivars. Journal of the Science of Food and Agriculture, v.81, n.10, p.1001-1007, 2001. Available from: <Available from: https://onlinelibrary.wiley.com/doi/full/10.1002/jsfa.882
>. Accessed: Jan. 31, 2019. doi: 10.1002/jsfa.882.
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). However, the mean value of total AFs for corn in the present study was 29.1±24.4μg/kg, which is below the recommended maximum value of 50μg/kg of total AFs in feed ingredients in Brazil (MINISTÉRIO DA AGRICULTURA, 1988MINISTÉRIO DA AGRICULTURA. Portaria nº 07, de 09 de novembro de 1988. Diário Oficial da União 21.968, 1988.). The highest AF levels was reported in a corn sample containing 115.3μg/kg, and this was the only sample with concentration of total AFs above the Brazilian recommended limit. ROCHA et al. (2009ROCHA, L.O. et al. Mycoflora and co-occurrence of fumonisins and aflatoxins in freshly harvested corn in different regions of Brazil. International Journal of Molecular Sciences, v.10, n.11, p.5090-5103, 2009. Available from: <Available from: https://www.mdpi.com/1422-0067/10/11/5090
>. Accessed: Jan. 31, 2019. doi: 10.3390/ijms10115090.
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) reported a lower frequency (10%) of freshly harvested corn contaminated with AF, at much higher levels (up to 1,906μg/kg) than those observed in the present study.
The high frequency of FBs (100%) found in corn samples is consistent with previous studies demonstrating high occurrence rates of FBs in commercially available corn in Brazil (MORENO et al., 2009MORENO, E.C. et al. Co-occurrence of mycotoxins in corn samples from the Northern region of Paraná State, Brazil. Food Chemistry, v.116, n.1, p.220-226, 2009. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0308814609002258
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.foodchem.2009.02.037.
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; ROCHA et al., 2009ROCHA, L.O. et al. Mycoflora and co-occurrence of fumonisins and aflatoxins in freshly harvested corn in different regions of Brazil. International Journal of Molecular Sciences, v.10, n.11, p.5090-5103, 2009. Available from: <Available from: https://www.mdpi.com/1422-0067/10/11/5090
>. Accessed: Jan. 31, 2019. doi: 10.3390/ijms10115090.
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; QUEIROZ et al., 2012QUEIROZ, V.A.V. et al. Occurrence of fumonisins and zearalenone in maize stored in family farm in Minas Gerais, Brazil. Food Control, v.28, n.1, p.83-86, 2012. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0956713512002125
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.foodcont.2012.04.039.
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). In our study, the maximum concentration of total FBs was observed in a corn sample containing 3,900μg/kg, which is lower than the highest level (6,450μg/kg) reported by QUEIROZ et al. (2012QUEIROZ, V.A.V. et al. Occurrence of fumonisins and zearalenone in maize stored in family farm in Minas Gerais, Brazil. Food Control, v.28, n.1, p.83-86, 2012. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0956713512002125
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.foodcont.2012.04.039.
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) in corn from Minas Gerais State. Much higher FB levels (up to 18,740μg/kg) were observed by VAN DER WESTHUIZEN et al. (2003VAN DER WESTHUIZEN, L. et al. Fumonisin contamination and Fusarium incidence in corn from Santa Catarina, Brazil. Journal of Agricultural and Food Chemistry, v.51, n.18, p.5574-5578, 2003. Available from: <Available from: https://pubs.acs.org/doi/abs/10.1021/jf034298z
>. Accessed: Jan. 31, 2019. doi: 10.1021/jf034298z.
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) in corn from Santa Catarina State, at mean concentration 3,210μg/kg. Soybean meal samples presented lower frequency (59%) and mean level (70±30μg/kg) of total FBs.
Compared with corn, soybean meal samples had much lower frequency and levels of AFs or FBs than in corn, hence indicating its lower relevance as a source of mycotoxin contamination in the feed manufacture. MALLMANN et al. (2001MALLMANN, C.A. et al. Fumonisin B1 levels in cereals and feeds from southern Brazil. Arquivos do Instituto Biológico, v.68, n.1, p.41-45, 2001. Available from: <Available from: http://www.biologico.sp.gov.br/uploads/docs/arq/V68_1/8.pdf
>. Accessed: Jan. 31, 2019.
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) did not reported detectable levels of FBs in soybean meal samples from southern states in Brazil, which is in agreement with data reported here. Furthermore, samples of finishing feed also had lower AF or FB frequency and levels when compared with corn, which may suggest a dilution of the mycotoxin content from corn to feed during manufacture. ALLAMEH et al. (2005ALLAMEH, A. et al. Evaluation of biochemical and production parameters of broiler chicks fed ammonia treated aflatoxin contaminated maize grains. Animal Feed Science and Technology, v.122, p.289-301, 2005. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0377840105001124
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.anifeedsci.2005.03.005.
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) also observed that using corn containing 1,000μg/kg of AFB1 as ingredient resulted in the concentration of 650μg/kg in the feed. A similar reduction in the frequency of positive samples was reported in a study conducted in Egypt by ABDALLAH et al. (2017ABDALLAH, M.F. et al. Occurrence of multiple mycotoxins and other fungal metabolites in animal feed and maize samples from Egypt using LC-MS/MS. Journal of the Science of Food and Agriculture, v.97, n.13, p.4419-4428, 2017. Available from: <Available from: https://onlinelibrary.wiley.com/doi/full/10.1002/jsfa.8293
>. Accessed: Jan. 31, 2019. doi: 10.1002/jsfa.8293
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), who detected AFB1 in 16% of corn and 4% of feed samples analyzed, at mean levels of 4.8 and 5.3μg/kg, respectively. In our study, the frequencies and levels of AFs were similar in freshly prepared feed and feed available in the farms, thus indicating good storage conditions of feed in the farms evaluated. Our result for FBs is also in agreement with those reported by SOUZA et al. (2013SOUZA, M.D.L.M. et al. Cooccurrence of mycotoxins in maize and poultry feeds from Brazil by liquid chromatography/tandem mass spectrometry. The Scientific World Journal, v.2013, Article ID 427369, 2013. Available from: <Available from: https://www.hindawi.com/journals/tswj/2013/427369/
>. Accessed: Jan. 31, 2019. doi: 10.1155/2013/427369.
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), who observed median FB levels of 1,840μg/kg and 239μg/kg in samples of corn (before the factory processing) and poultry feed (after the factory processing), respectively. SOUZA et al. (2013SOUZA, M.D.L.M. et al. Cooccurrence of mycotoxins in maize and poultry feeds from Brazil by liquid chromatography/tandem mass spectrometry. The Scientific World Journal, v.2013, Article ID 427369, 2013. Available from: <Available from: https://www.hindawi.com/journals/tswj/2013/427369/
>. Accessed: Jan. 31, 2019. doi: 10.1155/2013/427369.
https://www.hindawi.com/journals/tswj/20...
) explained that the average contamination levels in poultry feed samples were lower due to the processing or the addition of other ingredients beside corn.
Productivity parameters of batches of broiler chicks categorized according to quantifiable levels of AFs (AFs<LOQ, AFs≥LOQ) or FBs (FBs<1,000µg/kg, FBs≥1,000µg/kg) in the finishing feed stored in the farms are presented in table 2. No effect (P>0.05) was observed in the feed conversion and production factor of broiler categories. However, birds fed rations containing with FBs≥1,000µg/kg in the diet lower (P<0.05) weight gain (56.8±2.6g/day) and higher mortality rate (6.1±2.3%), when compared with the FBs<1,000µg/kg category. Birds receiving FBs≥1,000µg/kg in the diet had approximately 4% lower weight gain when compared to the FBs<1,000µg/kg group. RAUBER et al. (2013RAUBER, R. H. et al. Effects of fumonisin B1 on selected biological responses and performance of broiler chickens. Pesquisa Veterinária Brasileira, v.33, p.1081-1086, 2013. Available from: <Available from: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-736X2013000900006
>. Accessed: Jan. 31, 2019. doi: 10.1590/S0100-736X2013000900006.
http://www.scielo.br/scielo.php?script=s...
) observed that negative effects on performance of broilers receiving experimental feeds containing 100,000μg/kg, which is much higher than the maximum FB level reported in the feed of the present study (3,950μg/kg).
Table 3 presents the histopathological scores observed in the organs of batches of broiler chicks categorized according to LOQ for AFs or FBs in the finishing feed stored in the farms. No macroscopic alterations in the organs collected were noted, and no differences (P>0.05) were found in the scores of kidneys, heart and Bursa of Fabricius from broilers within categories. However, a higher score (1.2±0.2) was observed in liver sections of broilers from the AFs≥LOQ category, which are consistent with mild lesions including discrete steatosis, proliferation of cells of the bile ducts and periportal inflammatory infiltrate during aflatoxicosis (HUSSAIN et al., 2010HUSSAIN, Z. et al. Residues of aflatoxin B1 in broiler meat: Effect of age and dietary aflatoxin B1 levels. Food and Chemical Toxicology, v.48, p.3304-3307, 2010. Available from: <Available from: https://www.sciencedirect.com/science/article/pii/S0278691510005260
>. Accessed: Jan. 31, 2019. doi: 10.1016/j.fct.2010.08.016.
https://www.sciencedirect.com/science/ar...
). These results confirmed that even low AF levels in feed can cause negative effects in broilers, hence indicating the need for a revision of the recommended maximum value of total AFs (50μg/kg) in feed ingredients in Brazil (MINISTÉRIO DA AGRICULTURA, 1988MINISTÉRIO DA AGRICULTURA. Portaria nº 07, de 09 de novembro de 1988. Diário Oficial da União 21.968, 1988.). In agreement with our results, JONES et al. (1982JONES, F.T. et al. Association of low levels of aflatoxin in feed with productivity losses in commercial broiler operations. Poultry Science, v.61, p.861-868, 1982. Available from: <Available from: https://academic.oup.com/ps/article-abstract/61/5/861/1471366?redirectedFrom=fulltext
>. Accessed: Jan. 31, 2019. doi: 10.3382/ps.0610861.
https://academic.oup.com/ps/article-abst...
) observed in the United States that low AF levels in corn, feed immediately after production and feed stored in the farm (1.2, 6.0 and 8.8µg/kg, respectively) were associated with productivity losses in apparently healthy broilers.
In conclusion, corn samples presented higher frequency of AFs (65%) and FBs (100%), at mean levels of 29.1µg/kg and 2.1mg/kg, respectively. Among the other feed ingredients, soybean meal presented the lowest frequencies for AFs (6%) and FBs (59%). Birds receiving feed containing FB levels equal or above the quantification limit (≥LOQ) of the analytical method had lower weight gain and higher mortality rates, hence indicating losses in the company’s productivity. Additionally, birds fed rations with AFs≥LOQ presented higher scores of histological changes in the liver. A dilution effect was observed for AFs and FBs from corn to feed during manufacture, whilst not enough to prevent losses in productivity. Results of this trial highlight the need for strict control of mycotoxins in corn intended for broilers.
ACKNOWLEDGEMENTS
The authors would like to thank the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) -grants no. 562334/2008-4 and 143507/2008-7, for financial support and fellowships. This study was financed in part by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Brasil (CAPES) - Finance Code 001.
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0
CR-2018-0888.R1
Publication Dates
-
Publication in this collection
2019
History
-
Received
29 Oct 2018 -
Accepted
22 Jan 2019 -
Reviewed
06 Feb 2019