DON content in oat grains in Norway related to weather conditions at different growth stages

High concentrations of the mycotoxin deoxynivalenol (DON), produced by Fusarium graminearum have occurred frequently in Norwegian oats recently. Early prediction of DON levels is important for farmers, authorities and the Cereal Industry. In this study, the main weather factors influencing myco-toxin accumulation were identified and two models to predict the risk of DON in oat grains in Norway were developed: (1) as a warning system for farmers to decide if and when to treat with fungicide, and (2) for authorities and industry to use at harvest to identify potential food safety problems. Oat grain samples from farmers’ fields were collected together with weather data (2004–2013)\ud A mathematical model was developed and used to esti-\ud mate phenology windows of growth stages in oats (til-\ud lering, flowering etc.). Weather summarisations were\ud then calculated within these windows, and the Spearman\ud rank correlation factor calculated between DON-\ud contamination in oats at harvest and the weather\ud summarisations for each phenological window. DON\ud contamination was most clearly associated with the\ud weather conditions around flowering and close to har-\ud vest. Warm, rainy and humid weather during and around\ud flowering increased the risk of DON accumulation in\ud oats, as did dry periods during germination/seedling\ud growth and tillering. Prior to harvest, warm and humid\ud weather conditions followed by cool and dry conditions\ud were associated with a decreased risk of DON accumu-\ud lation. A prediction model, including only pre-flowering\ud weather conditions, adequately forecasted risk of DON\ud contamination in oat, and can aid in decisions about\ud fungicide treatments

Towards bioavailability-based soil criteria:past, present and future perspectives

Bioavailability has been used as a key indicator in chemical risk assessment yet poorly quantified risk factor. Worldwide, the framework used to assess potentially contaminated sites is similar, and the decisions are based on threshold contaminant concentration. The uncertainty in the definition and measurement of bioavailability had limited its application to environment risk assessment and remediation. Last ten years have seen major developments in bioavailability research and acceptance. The use of bioavailability in the decision making process as one of the key variables has led to a gradual shift towards a more sophisticated risk-based approach. Now a days, many decision makers and regulatory organisations 'more readily accept' this concept. Bioavailability should be the underlying basis for risk assessment and setting remediation goals of those contaminated sites that pose risk to environmental and human health. This paper summarises the potential application of contaminant bioavailability and bioaccessibility to the assessment of sites affected by different contaminants, and the potential for this to be the underlying basis for sustainable risk assessment and remediation in Europe, North America and Australia over the coming decade

Towards consistency in risk assessment tools for contaminated sites management in the EU

VRO