"The groundwork of all happiness is health." - Leigh Hunt

Fungal toxins are widespread in European wheat – a threat to human health and the economy

Wheat provides 19% of calories and 21% of protein are consumed by humans worldwide. But known as a fungal disease Fusarium Head Blight (FHB)which might infect wheat crops and contaminate the grain with toxins, is increasing.

These so-called mycotoxins – including deoxynullinol, commonly generally known as “vomitoxins” – are a threat For human and livestock health and could cause vomiting, intestinal damage, weakened immune system, hormone disruption and cancer.

To protect consumers, the European Union Commission was established Legal Limits On vomitoxin levels in wheat prepared for consumption. Grains deemed too contaminated for human consumption are sometimes ground down for animal feed. But classification costs farmers and the economy because animal feed costs lower than food.

Governments and agribusiness routinely monitor mycotoxin levels in food and feed supply chains. Yet the extent of FHB mycotoxin contamination in European wheat supplies has been underestimated and its economic impact previously unquantified.

Together with colleagues from the Universities of Bath and Exeter, we Analyzed The largest available mycotoxin datasets and located that FHB mycotoxins are widespread in wheat produced for food and animal feed across Europe. We also found that the danger of mycotoxins – especially within the south of Europe – is increasing over time.

European wheat contaminated

Wheat spikes show symptoms of Fusarium head blight.
Dean Gabriel Atanasi/Shutterstock

Vomitoxin was present in every European country that was studied, and overall it was present in half of all wheat samples that were prepared for consumption. In the UK, vomitoxin was present in 70% of wheat produced between 2010 and 2019.

Almost all (95%) vomitoxin contamination in European wheat was inside legal limits. This confirms that current laws and monitoring of FHB mycotoxin levels in food effectively protect European consumers from acute poisoning.

Yet the widespread presence of vomitoxin in our food is alarming. It will not be yet known how chronic, low-level dietary exposure to mycotoxins may affect human health in the long run. This is further complicated by the incontrovertible fact that 1 / 4 of vomitoxin-contaminated wheat also comprises other FHB mycotoxins, raising concerns. harmonywhere the toxins interact with one another and cause more damage than the sum of the person toxins acting alone.

Economic value of fungal toxins

We also estimated the associated fee of vomitoxin on the European economy.

In Europe, 5% of wheat produced for food was recorded at concentrations exceeding the legal limit of vomitoxin. Between 2010 and 2019, it was corresponding to 75 million tonnes of wheat. If all of this infected wheat was diverted to animal feed, we estimated that the worth loss for wheat producers over the study period could be €3 billion (£2.6 billion).

However, the full economic cost of FHB disease in Europe is more likely to be much higher. Our calculations don’t include costs of wheat yield reductions resulting from disease, contamination with other harmful but less routinely tested mycotoxins, or fungicide application costs to stop fungal pathogen growth.

A tractor is spraying a fungicide in a field of wheat as it moves through the field.
A tractor spraying fungicide in a wheat field to stop fungus growth.
Otky/Shutterstock

Increased risk

FHB is a disease that fluctuates from yr to yr. But we found that mycotoxin levels increased in low-latitude countries between 2010 and 2019, particularly the case within the Mediterranean. For example, vomitoxin concentrations recorded through the outbreak years of 2018 and 2019 were the best in your entire period.

Our study didn’t investigate the explanations for this increase. But it is probably going that changes in farming practices, climate change, and the decreasing effectiveness of fungicides are all contributing aspects.

Minimum cultivationWhere land is cultivated by methods apart from plowing to cut back soil erosion, that is an increasingly popular farming method. This method is helpful for soil health but leaves crop debris behind and enables the FHB fungus to survive the winter. Maize is a crop that is very prone to FHB. There was a massive increase across Europe. Combined, these cultivars increase the FHB pathogen load within the environment.

Climate change might also encourage the spread of FHB disease. When wheat is in flower, warm and humid weather provides ideal conditions for FHB fungi to contaminate and produce mycotoxins.

Resistance to commonly used fungicides, azoles, is increasing. Reported in recent times. Both naturally and thru repeated exposure, fusarium are fungal species More resistant These fungicides in comparison with other fungal pathogens.

FHB contamination is widespread across Europe, with substantial costs. Understanding FHB disease and its mycotoxins is subsequently essential. But surveillance of FHB outbreaks have to be improved in order that researchers can predict which environments are most vulnerable to mycotoxin-producing fungal diseases in the longer term.

Disease control methods also needs to be developed further. These include recent fungicides or future crop protection strategies that prevent the event of mycotoxins. As climate change results in more disease outbreaks in crops and our need for a secure food supply increases, the problem of mycotoxins is just going to turn into more essential.