Role of partial dehydration in a naturally ventilated room on the mycobiota, ochratoxins, volatile profile and phenolic composition of Merlot grapes intended for wine production.

Dehydration of grapes has been used in various regions of the world to produce special wines, aiming to add value to oenological products. Post-harvest dehydration in rooms may be carried out regardless of weather conditions, without the additional cost of a specific infrastructure, in addition to the benefits of protecting the grapes from damages and environmental pollution. The objective of this study was to verify, for the first time, the impact of the dehydration in a naturally ventilated room on the quality of Merlot grapes. Physicochemical characteristics, mycobiota, occurrence of mycotoxins, volatile profile and phenolic composition of grapes were monitored on 7th, 14th and 21st days of dehydration (weight loss of 10, 20 and 27%, respectively). A decrease in aw (6%), pH (4%), and berry hardness (58%), along with an increase in total soluble solid content (15%) were observed during dehydration. The presence of Pestalotiopsis clavispora, Neopestalotiopsis clavispora, Colletotrichum siamense and Alternaria porri was favored during the dehydration process, while a decrease in the occurrence of Aspergillus niger and Phanerochaete sp. was verified. A. niger isolates showed no potential to produce forms of ochratoxins. These toxins were also not found in the grape samples. Regarding the volatile profile, 1-hexanal, 2-hexenal, and 1-octanal gave rise to the corresponding alcohols during dehydration, such as 1-hexanol, 2-hexen-1-ol, and 1-octanol. Acids (hexanoic, decanoic, and 3-hexenoic) resulted in the respective ethyl esters (hexanoate, decanoate, and ethyl 3-hexenoate) during dehydration. Terpenes as limonene, myrcene, and geraniol decreased throughout dehydration, while their biotransformation products (α-terpineol, 6-methyl-5-hepten-2-one, and linalool, respectively) had an increase in concentration. The phenolic content oscillated during dehydration, with an emphasis on increased levels of four hydroxybenzoic acids (ethyl gallate, p-hydroxybenzoic acid, gallic acid-hexose, and gallic acid), two hydroxycinnamic acids (caffeic acid and caftaric acid), two flavonols (kaempeferol galactoside and quercetin) and two anthocyanins (peonidin 3-O-hexoside and delphinidin 3-O-hexoside). Grapes of satisfactory quality were produced by dehydration in a naturally ventilated room. Even small wine producers can be encouraged to implement this procedure for the diversification of oenological products, as it has no costs related to the implementation of chambers/tunnels.

Colonization of Aspergillus carbonarius and accumulation of ochratoxin A in Vitis vinifera, Vitis labrusca, and hybrid grapes - research on the most promising alternatives for organic viticulture.

BACKGROUND: Aspergillus carbonarius has been identified as one of the main fungi that produce ochratoxin A (OTA) in grapes. This nephrotoxic mycotoxin has been legislated against in several countries and is a major concern for viticulture. Knowledge of resistance to, or susceptibility to, colonization by A. carbonarius may be useful in selecting the most promising cultivars for organic agriculture and could help in preventing fungal contamination in vineyards. This study aimed to evaluate the colonization potential and the capacity to produce OTA by A. carbonarius in Vitis vinifera, V. labrusca, and hybrid grapes. The correlation between OTA levels and grape berry characteristics was also analyzed. RESULTS: The OTA content was only strongly correlated with the thickness and hardness of the grape skins. The correlation between OTA levels and these parameters was negative (grapes with the least thickness and hardness had the highest OTA levels). Vitis vinifera grapes were more susceptible to A. carbonarius than V. labrusca and hybrid grapes at both 25 and 4 °C. Chardonnay (V. vinifera) grapes showed the highest levels of OTA, followed by Merlot, Cabernet Sauvignon, Tannat, and Moscato Branco. Italia grapes were the exceptions among V. vinifera cultivars, since they showed similar thickness, hardness, and fungal resistance as the V. labrusca and hybrid grapes. CONCLUSION: The highest resistance to A. carbonarius was observed in the following grapes: hybrids (BRS Lorena and BRS Violeta), V. labrusca (Isabel and Bordo), and V. vinifera (Italia). These cultivars can be prioritized in the implementation of organic viticulture. © 2020 Society of Chemical Industry.

Effect of Aspergillus carbonarius on ochratoxin a levels, volatile profile and antioxidant activity of the grapes and respective wines.

Aspergillus carbonarius can produce a possibly carcinogenic mycotoxin named ochratoxin A (OTA). The metabolism of this fungus can also impact grape and wine quality as it influences the volatile and phenolic profiles, which are related to aroma and antioxidant activity, respectively. The objective of this study was to evaluate the effect of A. carbonarius on OTA levels and for the first time on volatile profile and antioxidant activity of grapes and their respective wines. Cabernet Sauvignon (CS, red) grapes presented higher susceptibility to A. carbonarius than Moscato Italico (MI, white) grapes and OTA levels in their respective musts were in accordance with this same trend. However, vinification of red grapes resulted in 67% reduction of OTA, while the reduction observed with white wines was 45%. The presence of acids (hexanoic, octanoic, nonanoic and decanoic, fatty odor) was found to be an indicative of the fungus incidence in grapes. These acids were precursors of esters that might impart negative aroma (methyl nonanoate and isoamyl octanoate, fatty odor) or provide desirable fruity characteristics (ethyl hexanoate, ethyl octanoate and methyl octanoate) for wine. In addition, terpenes were detected only in wines produced with grapes (CS and MI) inoculated with A. carbonarius. The presence of A. carbonarius increased the antioxidant activity of CS grapes. For MI grapes and both wines (CS and MI) no differences were verified in the antioxidant activity of the samples affected or not affected by this fungus. Although A. carbonarius occurrence has shown no influence on the antioxidant activity of wines, it produced OTA and has negatively influenced the wine odor profile, due to the production of some volatiles that impart a deleterious effect on wine aroma.

Exposure risk assessment to ochratoxin A through consumption of juice and wine considering the effect of steam extraction time and vinification stages.

The goals of this study were (i) to verify the effect of steam extraction used in juice production and the stages of vinification on the ochratoxin A (OTA) levels found in grapes naturally contaminated, and (ii) evaluate the risk of exposure to this toxin when the daily consumption of juice and wine is followed to prevent cardiovascular disease. OTA-producing fungi were isolated from Cabernet Sauvignon, Moscato Itálico and Concord grapes harvested from the same vineyard and intended to produce red wine, white wine and juice, respectively. The highest levels of this toxin were found in the Concord grapes used for juice production. Although greater reduction in OTA levels occurred during juice production (73%) compared to winemaking (66 and 44%, for red and white, respectively), the estimated OTA exposure through juice was higher than the tolerable intake established for this toxin by JECFA. The risk associated with juice consumption, rather than wine, can be explained by (i) higher OTA levels found in Concord must than those of Cabernet and Moscato, indicating that Concord grapes appear to be more susceptible to OTA production by toxigenic fungi; and (ii) the daily recommended juice consumption is higher than those proposed to red wine.

Exposure to ochratoxin A through consumption of grape juices produced by steam distillation method and intended for school meals / Exposição à ocratoxina A através do consumo de sucos de uva produzidos pelo método de destilação a vapor e destinados para a merenda escolar

The grape juice was included in meals of public schools in the states of Rio Grande do Sul and Santa Catarina, Brazil. The juices intended for schools have been produced by small wineries through the steam distillation method. This method presents a particularity in relation to other juice production methods, since the grapes are not macerated to extract the juice. In literature is well established that maceration of grapes is the main critical point associated with the ochratoxin A (OTA) contamination in juices. OTA is a mycotoxin with nephrotoxic and immunosuppressives effects. The aim of this study was to verify the OTA occurrence in juices produced by steam distillation method, as grape juice may be a source of OTA exposure for children. No sample showed OTA levels higher than the detection limit (0.05g L-1) of method used to determine this toxin. This study demonstrated the adequate quality of juice produced by this extraction method. Furthermore, data about OTA occurrence are important to support risk assessment studies related to the exposure to toxic compounds through diet.(AU)

O suco de uva foi incluído nas refeições de escolas públicas do estado do Rio Grande do Sul e Santa Catarina, Brasil. O suco destinado para as escolas é produzido por pequenas vinícolas através do método de arraste a vapor. Este método apresenta uma particularidade em relação aos demais métodos de produção do suco, pois as uvas não são maceradas para a extração do mosto. Cabe salientar que a maceração das uvas é o principal ponto crítico relacionado à contaminação dos sucos com ocratoxina A (OTA), que é uma micotoxina que apresenta efeitos nefrotóxicos e imunossupressores. O objetivo deste estudo foi verificar a ocorrência de OTA em sucos produzidos pelo método de arraste de vapor, pois o suco de uva pode ser uma fonte de exposição à OTA para crianças. Nenhuma amostra apresentou OTA em níveis maiores que o limite de detecção (0,05g L-1) do método usado para determinar esta toxina. Este resultado evidenciou a qualidade adequada do suco produzido por este método de extração. Além disso, dados sobre a ocorrência de OTA são importantes para subsidiar estudos relacionados à exposição a compostos tóxicos através da dieta.(AU)

Exposure to ochratoxin A through consumption of grape juices produced by steam distillation method and intended for school meals / Exposição à ocratoxina A através do consumo de sucos de uva produzidos pelo método de destilação a vapor e destinados para a merenda escolar

The grape juice was included in meals of public schools in the states of Rio Grande do Sul and Santa Catarina, Brazil. The juices intended for schools have been produced by small wineries through the steam distillation method. This method presents a particularity in relation to other juice production methods, since the grapes are not macerated to extract the juice. In literature is well established that maceration of grapes is the main critical point associated with the ochratoxin A (OTA) contamination in juices. OTA is a mycotoxin with nephrotoxic and immunosuppressives effects. The aim of this study was to verify the OTA occurrence in juices produced by steam distillation method, as grape juice may be a source of OTA exposure for children. No sample showed OTA levels higher than the detection limit (0.05g L-1) of method used to determine this toxin. This study demonstrated the adequate quality of juice produced by this extraction method. Furthermore, data about OTA occurrence are important to support risk assessment studies related to the exposure to toxic compounds through diet.

O suco de uva foi incluído nas refeições de escolas públicas do estado do Rio Grande do Sul e Santa Catarina, Brasil. O suco destinado para as escolas é produzido por pequenas vinícolas através do método de arraste a vapor. Este método apresenta uma particularidade em relação aos demais métodos de produção do suco, pois as uvas não são maceradas para a extração do mosto. Cabe salientar que a maceração das uvas é o principal ponto crítico relacionado à contaminação dos sucos com ocratoxina A (OTA), que é uma micotoxina que apresenta efeitos nefrotóxicos e imunossupressores. O objetivo deste estudo foi verificar a ocorrência de OTA em sucos produzidos pelo método de arraste de vapor, pois o suco de uva pode ser uma fonte de exposição à OTA para crianças. Nenhuma amostra apresentou OTA em níveis maiores que o limite de detecção (0,05g L-1) do método usado para determinar esta toxina. Este resultado evidenciou a qualidade adequada do suco produzido por este método de extração. Além disso, dados sobre a ocorrência de OTA são importantes para subsidiar estudos relacionados à exposição a compostos tóxicos através da dieta.

Occurrence of ochratoxin A in grapes, juices and wines and risk assessment related to this mycotoxin exposure / Ocorrência de ocratoxina A em uvas, sucos e vinhos e avaliação de risco relacionada à exposição a essa micotoxina

Ochratoxin A (OTA) is a mycotoxin with nephrotoxic, genotoxic, teratogenic and carcinogenic properties. The presence of this toxin in wines and juices occurs due to the development of toxigenic fungi in grapes. Studies have shown the presence of this toxic secondary metabolite in these beverages may results in economic losses to the winery as well as health problems for consumers. In Europe, several studies have been done in order to map the areas where the development of ochratoxigenic fungi is more favorable. However, in Brazil these studies are still incipient. The Joint Expert Committee on Food Additives of the World Health Organization (JECFA) established the safe tolerable intake of 112ng OTA per kg of body weight per week. To verify whether the population is exposed to OTA levels that pose a risk to health is necessary to compare the parameter of safe ingestion defined by JECFA with the levels of exposure to this toxin. Periodic monitoring of the OTA levels in food and beverage has been justified by some reasons including: (i) the toxic effects of this toxin, (ii) the recent publication of the Brazilian legislation establishing maximum limit for OTA, (iii) the introduction of grape juice in school meals and (iv) the recommendation of regular wine intake because of their functional properties.

A ocratoxina A (OTA) é uma micotoxina que possui propriedades nefrotóxicas, genotóxicas, teratogênicas e carcinogênicas. A presença dessa toxina em vinhos e sucos ocorre devido à contaminação das uvas por fungos toxigênicos. Estudos têm mostrado a presença desse metabólito secundário tóxico nestas bebidas, o que pode significar perdas econômicas ao setor vitícola, bem como problemas à saúde dos consumidores. Na Europa, vários estudos têm sido realizados com o objetivo de mapear as áreas em que o desenvolvimento de fungos ocratoxigênicos é mais favorável. Entretanto, no Brasil estes estudos ainda são incipientes. O Comitê de Especialistas em Aditivos Alimentares da Organização Mundial da Saúde (JECFA) estabeleceu a ingestão tolerável segura de 112ng de OTA por quilo de peso corpóreo por semana. Para verificar se população está exposta a OTA em níveis que representam risco para à saúde, é necessário comparar o parâmetro de ingestão segura, definido pelo JECFA, com os níveis de exposição a esta toxina. O monitoramento periódico dos níveis de OTA em alimentos e bebidas é justificado por alguns motivos que incluem: (i) os efeitos tóxicos dessa toxina, (ii) a publicação recente da legislação brasileira que estabelece limite máximo para OTA, (iii) a introdução do suco de uva na merenda escolar; e (iv) a recomendação da ingestão regular de vinho/suco de uva devido as suas propriedades funcionais.

Occurrence of ochratoxin A in grapes, juices and wines and risk assessment related to this mycotoxin exposure / Ocorrência de ocratoxina A em uvas, sucos e vinhos e avaliação de risco relacionada à exposição a essa micotoxina

Ochratoxin A (OTA) is a mycotoxin with nephrotoxic, genotoxic, teratogenic and carcinogenic properties. The presence of this toxin in wines and juices occurs due to the development of toxigenic fungi in grapes. Studies have shown the presence of this toxic secondary metabolite in these beverages may results in economic losses to the winery as well as health problems for consumers. In Europe, several studies have been done in order to map the areas where the development of ochratoxigenic fungi is more favorable. However, in Brazil these studies are still incipient. The Joint Expert Committee on Food Additives of the World Health Organization (JECFA) established the safe tolerable intake of 112ng OTA per kg of body weight per week. To verify whether the population is exposed to OTA levels that pose a risk to health is necessary to compare the parameter of safe ingestion defined by JECFA with the levels of exposure to this toxin. Periodic monitoring of the OTA levels in food and beverage has been justified by some reasons including: (i) the toxic effects of this toxin, (ii) the recent publication of the Brazilian legislation establishing maximum limit for OTA, (iii) the introduction of grape juice in school meals and (iv) the recommendation of regular wine intake because of their functional properties.(AU)

A ocratoxina A (OTA) é uma micotoxina que possui propriedades nefrotóxicas, genotóxicas, teratogênicas e carcinogênicas. A presença dessa toxina em vinhos e sucos ocorre devido à contaminação das uvas por fungos toxigênicos. Estudos têm mostrado a presença desse metabólito secundário tóxico nestas bebidas, o que pode significar perdas econômicas ao setor vitícola, bem como problemas à saúde dos consumidores. Na Europa, vários estudos têm sido realizados com o objetivo de mapear as áreas em que o desenvolvimento de fungos ocratoxigênicos é mais favorável. Entretanto, no Brasil estes estudos ainda são incipientes. O Comitê de Especialistas em Aditivos Alimentares da Organização Mundial da Saúde (JECFA) estabeleceu a ingestão tolerável segura de 112ng de OTA por quilo de peso corpóreo por semana. Para verificar se população está exposta a OTA em níveis que representam risco para à saúde, é necessário comparar o parâmetro de ingestão segura, definido pelo JECFA, com os níveis de exposição a esta toxina. O monitoramento periódico dos níveis de OTA em alimentos e bebidas é justificado por alguns motivos que incluem: (i) os efeitos tóxicos dessa toxina, (ii) a publicação recente da legislação brasileira que estabelece limite máximo para OTA, (iii) a introdução do suco de uva na merenda escolar; e (iv) a recomendação da ingestão regular de vinho/suco de uva devido as suas propriedades.(AU)

Occurrence of ochratoxin A in grapes, juices and wines and risk assessment related to this mycotoxin exposure

Ochratoxin A (OTA) is a mycotoxin with nephrotoxic, genotoxic, teratogenic and carcinogenic properties. The presence of this toxin in wines and juices occurs due to the development of toxigenic fungi in grapes. Studies have shown the presence of this toxic secondary metabolite in these beverages may results in economic losses to the winery as well as health problems for consumers. In Europe, several studies have been done in order to map the areas where the development of ochratoxigenic fungi is more favorable. However, in Brazil these studies are still incipient. The Joint Expert Committee on Food Additives of the World Health Organization (JECFA) established the safe tolerable intake of 112ng OTA per kg of body weight per week. To verify whether the population is exposed to OTA levels that pose a risk to health is necessary to compare the parameter of safe ingestion defined by JECFA with the levels of exposure to this toxin. Periodic monitoring of the OTA levels in food and beverage has been justified by some reasons including: (i) the toxic effects of this toxin, (ii) the recent publication of the Brazilian legislation establishing maximum limit for OTA, (iii) the introduction of grape juice in school meals and (iv) the recommendation of regular wine intake because of their functional properties.

A ocratoxina A (OTA) é uma micotoxina que possui propriedades nefrotóxicas, genotóxicas, teratogênicas e carcinogênicas. A presença dessa toxina em vinhos e sucos ocorre devido à contaminação das uvas por fungos toxigênicos. Estudos têm mostrado a presença desse metabólito secundário tóxico nestas bebidas, o que pode significar perdas econômicas ao setor vitícola, bem como problemas à saúde dos consumidores. Na Europa, vários estudos têm sido realizados com o objetivo de mapear as áreas em que o desenvolvimento de fungos ocratoxigênicos é mais favorável. Entretanto, no Brasil estes estudos ainda são incipientes. O Comitê de Especialistas em Aditivos Alimentares da Organização Mundial da Saúde (JECFA) estabeleceu a ingestão tolerável segura de 112ng de OTA por quilo de peso corpóreo por semana. Para verificar se população está exposta a OTA em níveis que representam risco para à saúde, é necessário comparar o parâmetro de ingestão segura, definido pelo JECFA, com os níveis de exposição a esta toxina. O monitoramento periódico dos níveis de OTA em alimentos e bebidas é justificado por alguns motivos que incluem: (i) os efeitos tóxicos dessa toxina, (ii) a publicação recente da legislação brasileira que estabelece limite máximo para OTA, (iii) a introdução do suco de uva na merenda escolar; e (iv) a recomendação da ingestão regular de vinho/suco de uva devido as suas propriedades funcionais.

Occurrence of ochratoxin A in grapes, juices and wines and risk assessment related to this mycotoxin exposure

Ochratoxin A (OTA) is a mycotoxin with nephrotoxic, genotoxic, teratogenic and carcinogenic properties. The presence of this toxin in wines and juices occurs due to the development of toxigenic fungi in grapes. Studies have shown the presence of this toxic secondary metabolite in these beverages may results in economic losses to the winery as well as health problems for consumers. In Europe, several studies have been done in order to map the areas where the development of ochratoxigenic fungi is more favorable. However, in Brazil these studies are still incipient. The Joint Expert Committee on Food Additives of the World Health Organization (JECFA) established the safe tolerable intake of 112ng OTA per kg of body weight per week. To verify whether the population is exposed to OTA levels that pose a risk to health is necessary to compare the parameter of safe ingestion defined by JECFA with the levels of exposure to this toxin. Periodic monitoring of the OTA levels in food and beverage has been justified by some reasons including: (i) the toxic effects of this toxin, (ii) the recent publication of the Brazilian legislation establishing maximum limit for OTA, (iii) the introduction of grape juice in school meals and (iv) the recommendation of regular wine intake because of their functional properties.

A ocratoxina A (OTA) é uma micotoxina que possui propriedades nefrotóxicas, genotóxicas, teratogênicas e carcinogênicas. A presença dessa toxina em vinhos e sucos ocorre devido à contaminação das uvas por fungos toxigênicos. Estudos têm mostrado a presença desse metabólito secundário tóxico nestas bebidas, o que pode significar perdas econômicas ao setor vitícola, bem como problemas à saúde dos consumidores. Na Europa, vários estudos têm sido realizados com o objetivo de mapear as áreas em que o desenvolvimento de fungos ocratoxigênicos é mais favorável. Entretanto, no Brasil estes estudos ainda são incipientes. O Comitê de Especialistas em Aditivos Alimentares da Organização Mundial da Saúde (JECFA) estabeleceu a ingestão tolerável segura de 112ng de OTA por quilo de peso corpóreo por semana. Para verificar se população está exposta a OTA em níveis que representam risco para à saúde, é necessário comparar o parâmetro de ingestão segura, definido pelo JECFA, com os níveis de exposição a esta toxina. O monitoramento periódico dos níveis de OTA em alimentos e bebidas é justificado por alguns motivos que incluem: (i) os efeitos tóxicos dessa toxina, (ii) a publicação recente da legislação brasileira que estabelece limite máximo para OTA, (iii) a introdução do suco de uva na merenda escolar; e (iv) a recomendação da ingestão regular de vinho/suco de uva devido as suas propriedades funcionais.