Biological detoxification and application of emerging control strategies of zearalenone in food.

Zearalenone (ZEA) is a mycotoxin produced by filamentous fungi of the Ascomycota phylum, widely present in grains such as corn and wheat. The global contamination of ZEA is becoming increasingly severe, with a significant rise in its detection rate in grains and animal feed, posing serious threats to the health of livestock and poultry, the safety of processed grain products, and human health. This paper reviews the residual risks of ZEA, particularly its significant effects on the reproductive system and liver. Compared to traditional physical and chemical detoxification methods, biodegradation techniques, especially those harnessing microorganisms and their metabolites, offer a more environmentally friendly and efficient degradation approach. Emerging mitigation strategies, such as nanotechnology and low-temperature atmospheric plasma technology, hold great promise for detecting, detoxifying, adsorbing, and degrading mycotoxins, showing significant potential for ZEA removal to safeguard food safety and public health.