Abstract
Based on the 2983 peanut samples from 122 counties in six provinces of China’s Yangtze River ecological region collected between 2009–2014, along with the dietary consumption data in Chinese resident nutrition and health survey reports from 2002 and 2004, dietary aflatoxin exposure and percentiles in the corresponding statistics were calculated by non-parametric probability assessment, Monte Carlo simulation and bootstrap sampling methods. Average climatic conditions in the Yangtze River ecological region were calculated based on the data from 118 weather stations via the Thiessen polygon method. The survey results found that the aflatoxin contamination of peanuts was significantly high in 2013. The determination coefficient (R2) of multiple regression reflected by the aflatoxin B1 content with average precipitation and mean temperature in different periods showed that climatic conditions one month before harvest had the strongest impact on aflatoxin B1 contamination, and that Hunan and Jiangxi provinces were greatly influenced. The simulated mean aflatoxin B1 intake from peanuts at the mean peanut consumption level was 0.777–0.790 and 0.343–0.349 ng/(kg·d) for children aged 2–6 and standard adults respectively. Moreover, the evaluated cancer risks were 0.024 and 0.011/(100,000 persons·year) respectively, generally less than China’s current liver cancer incidence of 24.6 cases/(100,000 persons·year). In general, the dietary risk caused by peanut production and harvest was low. Further studies would focus on the impacts of peanut circulation and storage on aflatoxin B1 contamination risk assessment in order to protect peanut consumers’ safety and boost international trade.
Highlights
Aflatoxins (AFTs) are chemicals that are acutely and chronically toxic to human and animals
Based on a total of 2983 raw peanut samples collected at harvest time by the simple random sampling method from farmers’ fields in six provinces (Jiangsu, Anhui, Jiangxi, Hubei, Hunan, and Sichuan) in the Yangtze River ecological region from 2009 to 2014, this study reported the natural occurrence of AFB1, the relationship between AFB1 contamination levels in peanuts and climatic conditions before harvest, as well as AFB1 dietary exposure and corresponding liver cancer risks in post-harvested peanuts
The mean AFB1 intake in 2- to 6-year-old children through peanuts was higher than adults
Summary
Aflatoxins (AFTs) are chemicals that are acutely and chronically toxic to human and animals. The four major naturally produced AFTs are aflatoxins B1, B2, G1, and G2 [1], among which aflatoxin B1. AFTs in nature are produced mainly by Aspergillus flavus and Aspergillus parasiticus, which have a particular affinity to nuts and oilseeds. Peanuts are one of the most seriously affected crops because the seed-bearing pods of peanuts are below the soil surface and in direct contact with soil populations of A. flavus and A. parasiticus. Agricultural practices including crop rotation, tillage, irrigation and fertilization, as well as planting date, genetic resistance, soil type and climatic conditions are all factors that impact AFT contamination of peanuts before harvest [4]. Climatic conditions significantly influence the AFT contamination level. In serious drought and/or high temperature conditions before harvest, fungi invasion and AFT accumulation become accelerated [5,6]
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