In mycotoxins risk management, prevention is the key point for success. It is vital that feed producers know the contamination levels and the associated risks per specie in order to have a preventative approach.
Mycotoxins are toxic secondary molecules produced by moulds. These molecules can cause a wide range of effects depending on the molecular family, combination of contaminants and rearing environment. They occur differently in each part of the world, according to climate and agricultural practices. Aflatoxins, Ochratoxins, Fumonisins, Zearalenones and Trichothecenes (DON, T2, H-T2, etc.) are the five main identified mycotoxins families causing a lot of zootechnical issues with or without clinical effects.
Mycotoxins contamination can occur in the field with moulds such as the Fusarium species, producing mycotoxins such as Fumonisins, Trichothecenes and Zearalenones on the crops. Contamination can also happen in storage with fungi, such as the Aspergillus and Penicillium. Those fungi are linked to Aflatoxins and Ochratoxins. One mycotoxin can be produced by several moulds and one mould can produce several mycotoxins, causing multiple contamination. Nowadays, nearly all samples that have a positive result for mycotoxin presence are in this situation.
Raw materials analysis is the starting point of mycotoxins contamination knowledge in each particular situation. Corn, barley, wheat and oats are important substrates, but they are not the only raw materials that need to be analysed. For ruminants, forages are the main source of contamination which also need to be analysed.
Mycotoxins contamination can be suspected by moulds presence, or fermented grains. But in most cases, contamination cannot be suspected and detected by visual inspection, even at high levels. Sometimes, there is no alteration of the external aspect, no smell, no taste, no insects. No physical sign of contamination does not mean no contamination at all. Even good-looking raw materials can have a higher contamination level than bad looking ones. Only analysis can confirm the presence of mycotoxins.
To have a representative analysis, you need to have the right sample. The main challenge is to collect a representative sample of your feed knowing that these molecules have a heterogeneous mode of distribution. That is why it is crucial to use the proper sampling method to have a representative sample for analysis. Specific methodologies are developed per type of raw materials and types of delivery. In addition, mycotoxins are very stable and resistant metabolites. They are resistant to thermic treatments up to 250°C (such as extrusion, pelletising, flacking etc.), physical and chemical treatments (such as cleaning and ammoniac), fermentation, moulds inhibitor during storage (such as organic acids which destroy only fungus and not the mycotoxins) and time (even long storage periods).
In turn, these toxic molecules represent a threat for animal species as much as for humans because they compromise animals’ immune system and food safety. To avoid their negative impacts on animals’ performance, they need to be protected by a global insurance linking personalised raw materials control plan services and efficient product solutions.
Multiple contamination in feed increases the toxic effect of mycotoxins and their impact on animals’ performances. With this kind of toxins, both additive and synergic effects are possible, depending on many factors. Not all mycotoxins are equal, neither their impact on animals. Different species, different ages and most importantly different stages of production have different levels of tolerance on different mycotoxins and this is usually where we are taking “the part for the whole” and first start to mis-evaluate the real mycotoxin risk. Everybody knows that birds are sensitive to aflatoxin, but it is completely different to assess the aflatoxin risk when you are dealing with broiler production or dealing with turkeys or breeders. What can be a tolerant concentration for broiler chicken might be mortal to a turkey or to a chick embryo (Table 1).
The same stands for the tolerance of zearalenone when we are talking about gilts comparing with the young piglets. The tolerance to zearalenone increases with the age, maturity and weight of the pigs (Table 2). Zearalenone effects starts to be seen at concentration levels of > 10.4 µ/kg of BW/day (or 10.4 ppb) in young piglets whereas in gilts and pigs the NOEL elevates to > 40 µ/kg of BW/day, showing that gilts and pigs are roughly four times more resistant to zearalenone than piglets. For piglets the LOAEL is > 17.3 µ/kg of BW/day, which means significant biological adverse effects start occurring and typical ZEN clinical signs are expected. This is a remarkable fact when you choose toxin binder and a dosage according to the specie. On monogastric species, we mainly identified impacts on growth performances, reproduction, metabolism and immunity. On ruminants, we identified impacts on reproduction, milk production but also on milk quality.
In mycotoxins risk management, prevention is the key point for success. Indeed, it is critical for feed producers to know the contamination levels and the associated risk by specie, to be able to have a preventive approach. For that, Wisium helps customers to build their mycotoxins control plan and offers analysis solutions depending on their situations and objectives. Having analysis results is the first step of the preventive approach, and to go further Wisium developed Mycowatch app. The monitoring tool allows valorising mycotoxins analysis results in order to evaluate the contamination risk (from low to critical), to select the most suitable T5X (Wisium mycotoxins solutions) to use depending on the situation and to know the precise dose to use.
The Wisium team designed a new generation of mobile application by combining many years of animal nutrition knowledge in terms of mycotoxins’ impact on animal health and performance with hundreds of in vitro and in vivo evaluations on the efficiency of T5X at different doses. This continuous and systematic work enable us to create a model of dosage modulation, which will assure the right product at the right dosage for each specific mycotoxin challenge according to the specie and stage of production.
This is really a cutting-edge approach due to the big data compilation on T5X dose/effect curves and the addition of a new risk assessment variable (not only by specie but especially) stage of production. This allows the users to have an adequate and efficient usage of T5X in all growing/production stages, avoiding extra costs to the end user as there will be no under or over usage of toxin binder.
Mycowatch app is available Google Play and Apple stores. The app is mainly dedicated to nutritionists and feed formulators usable for their day-to-day work, in addition, a full report of each simulation can be sent by e-mail for archives.
Francisco Pinto, Business Development Manager, Wisium