Mycotoxin Remediation Systems 2025–2030: Unveiling Untapped Market Growth & Next-Gen Tech Disruption

Table of Contents

• Executive Summary: 2025 Industry Snapshot & Future Trajectories
• Market Size & Forecast (2025–2030): Revenue, Volume, and Regional Trends
• Key Drivers and Challenges: Regulatory, Environmental, and Supply Chain Factors
• Emerging Technologies: Innovations in Detection and Remediation
• Competitive Landscape: Leading Manufacturers and Strategic Initiatives
• End-User Segments: Food, Feed, Agriculture, and Beyond
• Global Regulatory Environment: Standards, Compliance, and Upcoming Policies
• Investment & M&A Activity: Funding Trends and Notable Deals
• Case Studies: Successful Implementations and Demonstrated Efficacy
• Future Outlook: Disruptive Opportunities and Long-Term Industry Impact
• Sources & References

Executive Summary: 2025 Industry Snapshot & Future Trajectories

The global landscape for mycotoxin remediation systems in 2025 is rapidly evolving, driven by heightened regulatory scrutiny, advances in detection technologies, and shifts in food and feed supply chains. Mycotoxins—naturally occurring toxic compounds produced by certain molds—pose significant challenges for food safety and trade, impacting cereals, nuts, animal feed, and processed foods. In response, the industry is witnessing robust activity across both established and emerging markets as stakeholders intensify efforts to mitigate contamination risks.

Current data indicates that the demand for effective mycotoxin control is surging, particularly in regions with expanding grain and feed production such as North America, Europe, and Asia-Pacific. Key industry players like Biomin, Adisseo, and Cargill have been scaling up their portfolios with advanced mycotoxin deactivation products, adsorption agents, and biotransformation solutions to address increasingly stringent residue limits and diverse contaminant profiles. Notably, next-generation binders and enzymatic detoxifiers are gaining market share as the performance and spectrum of efficacy become critical purchasing criteria for feed manufacturers and integrators.

Technological innovation is another defining trend. Recent deployments of real-time monitoring and rapid diagnostic tools, such as those developed by Romer Labs and Neogen Corporation, have enabled processors and traders to identify contamination hotspots earlier in the supply chain, reducing downstream economic losses. Automation in sampling and analysis, alongside digital traceability platforms, is expected to further enhance risk management capabilities through 2025 and beyond.

On the regulatory front, the European Union and China continue to tighten permissible mycotoxin thresholds for key commodities, compelling exporters to invest in comprehensive remediation systems and compliance infrastructures. This dynamic is catalyzing collaborations between solution providers and major feed and food companies globally, as demonstrated by recent partnerships involving Evonik Industries and DSM-Firmenich. The industry also anticipates broader adoption of biological and green remediation approaches, reflecting sustainability imperatives and consumer preferences.

Looking ahead, the next few years will likely see intensified product development, greater integration of remediation systems within digital quality management frameworks, and continued market consolidation through M&A activity. As climate change contributes to more variable mycotoxin patterns, the sector’s capacity to innovate and adapt will be crucial for safeguarding global food and feed security.

Market Size & Forecast (2025–2030): Revenue, Volume, and Regional Trends

The market for mycotoxin remediation systems is poised for accelerated growth from 2025 through 2030, driven by tightening food safety regulations, rising awareness of mycotoxin-related health risks, and increased global trade in agricultural commodities. Industry estimates indicate the sector’s revenue is set to surpass $2 billion by 2030, propelled by both technological advancements and expanding applications across food, feed, and beverage industries. In terms of volume, the deployment of remediation units—ranging from feed mill installations to on-site grain treatment solutions—is expected to increase annually by 7–10% worldwide during the forecast period.

Regionally, North America and Europe continue to account for the largest share of installed mycotoxin remediation systems, a trend attributed to robust regulatory enforcement by agencies such as the FDA and EFSA. These regions are seeing substantial investments in post-harvest and in-process detoxification solutions, including the adoption of enzymatic and adsorption-based technologies by food processors and feed manufacturers. Companies like Bühler Group are reporting strong demand for their optical sorting and grain cleaning systems, which can reduce mycotoxin contamination at the processing stage.

Asia-Pacific is forecast to exhibit the fastest growth through 2030, underpinned by rising grain and feed production in China, India, and Southeast Asia. The region’s market expansion is further stimulated by increasing participation from multinational grain handlers and local integrators adopting advanced remediation technologies. Evonik Industries and Adisseo are active in this region, supplying mycotoxin deactivator additives and binding agents for the animal feed sector, while local engineering firms are developing cost-effective physical cleaning solutions for smallholders.

Latin America and parts of Africa, while lagging in volume, are identified as emerging markets due to recurrent mycotoxin outbreaks and the growing export orientation of their agricultural sectors. International organizations and development agencies are supporting technology transfer and subsidized installation of remediation systems in these regions.

Looking ahead, the market outlook is shaped by the accelerating adoption of integrated systems combining physical, chemical, and biological remediation—such as those commercialized by Romer Labs and Kemin Industries. Continued regulatory harmonization, especially in Asia and Latin America, is expected to further boost demand. Overall, the next five years will likely see the market for mycotoxin remediation systems characterized by steady double-digit revenue growth, with increasing emphasis on sustainable, scalable, and digitally enabled technologies.

Key Drivers and Challenges: Regulatory, Environmental, and Supply Chain Factors

The market for mycotoxin remediation systems in 2025 is being shaped by a complex interplay of regulatory tightening, environmental imperatives, and persistent supply chain challenges. As mycotoxins continue to threaten global food and feed safety, regulatory bodies worldwide are intensifying surveillance and updating permissible limits for mycotoxin contamination, especially aflatoxins, ochratoxins, and fumonisins. The European Commission’s ongoing revisions to maximum residue levels and increased enforcement, mirrored by similar moves in North America and Asia, are compelling food and feed producers to adopt more robust remediation technologies. This regulatory pressure is accelerating demand for validated detoxification and decontamination solutions across the value chain.

Environmental factors are equally influential. Climate change, characterized by rising temperatures and erratic rainfall, is increasing the frequency and severity of mycotoxin outbreaks globally. These conditions are expanding the geographical range of toxigenic fungi and complicating pre-harvest prevention. As a result, there is heightened need for post-harvest and in-process remediation systems to ensure compliance and food safety. Companies such as Bühler Group and Evonik Industries are scaling up development and commercialization of advanced optical sorting, adsorption agents, and enzymatic detoxification technologies to address these evolving threats.

Supply chain disruptions, exacerbated by recent geopolitical instabilities and logistics bottlenecks, are also impacting the sector in 2025. Delays in grain and feed shipments increase the risk of mycotoxin proliferation during storage and transit, raising the need for on-site and mobile remediation systems. This has led to increased adoption of modular detoxification units and in-line monitoring solutions, with firms like PerkinElmer supporting rapid detection and intervention strategies.

Despite these drivers, significant challenges persist. The regulatory landscape is fragmented, with differing national limits and testing protocols complicating international trade. Moreover, the efficacy and safety of some remediation methods—such as chemical treatments and biological agents—remain under scrutiny. Environmental concerns regarding the sustainability of certain detoxification materials and the potential for secondary residues also present hurdles for widespread adoption. Looking ahead, industry stakeholders are calling for harmonized global standards, greater transparency, and integration of digital traceability systems to improve risk management and compliance.

In the next few years, the outlook for mycotoxin remediation systems is marked by ongoing innovation and expansion, underpinned by increasing regulatory, environmental, and supply chain pressures. Strategic collaboration among technology providers, food producers, and regulators will be essential to drive effective, sustainable solutions for global food safety.

Emerging Technologies: Innovations in Detection and Remediation

The landscape of mycotoxin remediation is undergoing significant transformation in 2025, driven by advances in both detection and removal technologies. As the global food and feed industries contend with increasingly stringent regulatory limits on mycotoxins, the demand for more effective, scalable, and sustainable remediation systems is intensifying. In response, several leading companies and organizations are spearheading the development and deployment of innovative solutions.

Among the most prominent trends is the integration of physical, chemical, and biological remediation strategies. Physical approaches, such as advanced sorting and cleaning systems, have been enhanced with optical sensor technology and artificial intelligence, allowing for real-time detection and removal of contaminated grains. Companies like Bühler Group continue to refine their optical sorting platforms, with recent models demonstrating improved efficacy in identifying and removing grains contaminated with aflatoxins and ochratoxin A.

Chemical remediation, traditionally centered on adsorbents like bentonite and activated carbon, is also evolving. The focus is shifting toward tailored adsorbents that selectively bind a broader spectrum of mycotoxins without impacting nutritional quality. Clariant and Biotek are notable for their ongoing development of functionalized clays and mineral-based products, which are being trialed in both animal feed and human food applications.

Biological remediation is rapidly gaining traction, especially with the use of microbial enzymes and probiotic strains capable of degrading mycotoxins into non-toxic metabolites. Chr. Hansen and Adisseo are investing in fermentation and enzyme-based solutions, with recent pilot studies showing promising reductions in fumonisins and zearalenone levels in feed processing environments. The scalability and safety of these biological agents are under extensive investigation, with commercialization expected to accelerate in the next few years.

The outlook for mycotoxin remediation systems in the near future is shaped by several factors. First, the integration of digital monitoring tools with remediation hardware is expected to yield “smart” systems capable of continuous, automated detection and removal. Second, regulatory harmonization across major markets, such as the European Union and China, is likely to drive adoption of certified solutions that meet multi-jurisdictional standards. Finally, partnerships between technology providers and major agrifood companies are anticipated to accelerate market penetration and technology transfer on a global scale.

In summary, 2025 marks a pivotal year for mycotoxin remediation systems, with innovations across detection, adsorption, and biological transformation poised to deliver safer food and feed supplies worldwide.

Competitive Landscape: Leading Manufacturers and Strategic Initiatives

The competitive landscape for mycotoxin remediation systems in 2025 is characterized by heightened innovation, strategic alliances, and geographic expansion among leading manufacturers. Growing regulatory scrutiny and the persistent global prevalence of mycotoxin contamination in food and feed have intensified industry focus on developing robust, scalable, and cost-effective solutions tailored to diverse market needs.

Major players such as Adisseo, Evonik Industries, and BIOMIN (a division of DSM-Firmenich) continue to dominate the sector through their extensive portfolios of enzymatic, adsorptive, and biotransformation technologies. In 2025, these companies have further invested in R&D, launching next-generation products designed to address emerging and masked mycotoxins, as well as to meet stricter residue limits in animal feed and food products. For instance, Evonik Industries has expanded its product line with multi-component binders and biotransformation agents that show efficacy across a broader spectrum of toxins and commodity matrices.

Strategic initiatives in the sector increasingly revolve around partnerships and acquisitions. In the past year, BIOMIN has strengthened its position through collaborations with feed millers and livestock integrators in Asia and South America, aiming to deliver bespoke mycotoxin management programs. Similarly, Adisseo has announced joint ventures with regional distributors to enhance market access and local technical support in rapidly growing markets such as Southeast Asia and Africa.

Meanwhile, technology-driven entrants like Olmix Group and Kemin Industries have introduced proprietary blends of natural clays, seaweed extracts, and plant-derived additives, positioning themselves to capture market share among producers seeking non-synthetic, integrated remediation strategies. These companies are investing in digital monitoring platforms and real-time analytics to complement their physical products, thus enabling dynamic risk assessment and targeted application, a trend anticipated to accelerate through 2026.

Looking ahead, the competitive landscape is expected to see increased differentiation based on technical efficacy, regulatory compliance, and sustainability claims. As global trade and climate variability continue to reshape mycotoxin risk profiles, leading manufacturers are poised to deepen their engagement in public-private partnerships and multi-stakeholder initiatives to harmonize standards and accelerate the adoption of advanced remediation systems.

End-User Segments: Food, Feed, Agriculture, and Beyond

Mycotoxin remediation systems are gaining critical attention across diverse end-user segments, particularly within the food, feed, and agriculture industries. As regulatory frameworks tighten globally and awareness of mycotoxin risks rises, stakeholders are prioritizing both preventive and active remediation strategies to ensure product safety and compliance.

In the food industry, mycotoxin contamination poses serious risks to human health, pushing food processors and manufacturers to adopt advanced detection and decontamination systems. Leading technology providers have reported increased adoption of integrated mycotoxin management solutions, encompassing rapid on-site diagnostics and physical, chemical, or biological detoxification methods. Companies such as Bühler Group have expanded their portfolio of optical sorting and grain cleaning technologies, which can significantly reduce mycotoxin loads early in the food supply chain. Similarly, Neogen Corporation continues to develop rapid test kits and analytical platforms for reliable screening before products reach consumers.

The animal feed sector is another major end-user, as contaminated feed threatens livestock health and productivity. Feed producers are increasingly integrating remediation systems to comply with stringent quality standards. Companies like Evonik Industries and Adisseo are investing in feed additives and binding agents specifically designed to neutralize or sequester mycotoxins within animal digestive tracts. These solutions are expected to see higher demand, particularly in regions with humid climates where fungal contamination is prevalent.

Within agriculture, farmers and cooperatives are adopting both pre-harvest and post-harvest interventions. Implementation of good agricultural practices (GAPs), combined with technologies such as grain drying and storage solutions, is being prioritized to minimize fungal growth and toxin formation. Companies like AGCO Corporation offer post-harvest systems aimed at preserving crop quality and reducing mycotoxin risk during storage.

Beyond traditional sectors, mycotoxin remediation is expanding into areas such as bioethanol production, pet food, and even pharmaceuticals. For instance, by-products from grain processing are now subject to quality control to prevent toxin carryover. The outlook for 2025 and beyond points to growing cross-industry collaboration, with more solutions tailored for specific matrices and regulatory requirements.

• Food processors: Focus on rapid detection, sorting, and decontamination technologies.
• Feed manufacturers: Demand for binding agents and detoxification additives is rising.
• Agricultural producers: Increasing investment in GAPs and post-harvest management.
• Emerging sectors: Biofuel, pet food, and pharma industries are adopting mycotoxin control as a standard practice.

Overall, the next few years will see continued innovation and deployment of mycotoxin remediation systems across established and emerging end-user segments, driven by stricter regulations, technological advancements, and the imperative to safeguard public and animal health.

Global Regulatory Environment: Standards, Compliance, and Upcoming Policies

The global regulatory environment for mycotoxin remediation systems is rapidly evolving as food safety authorities intensify their focus on contaminant control. In 2025, regulatory standards for mycotoxins—especially aflatoxins, ochratoxin A, and fumonisins—are being updated to reflect advances in detection and remediation, as well as heightened awareness of health risks posed by even low-level exposures. The Codex Alimentarius Commission, under the joint FAO/WHO Food Standards Programme, continues to provide international benchmarks for permissible mycotoxin levels in food and feed. Many countries align national regulations with these Codex standards, but there is growing momentum for stricter, region-specific requirements in key markets.

Within the European Union, the European Commission has signaled that it will strengthen enforcement of maximum levels for mycotoxins in cereals, nuts, dried fruits, and animal feeds, building on its Regulation (EC) No 1881/2006. In 2025, industry stakeholders anticipate additional guidance on acceptable remediation methods, with particular scrutiny on the efficacy and safety of detoxification technologies. The European Food Safety Authority (EFSA) is reviewing new risk assessments, and the forthcoming updates are expected to influence both import controls and domestic processing standards.

In the United States, the Food and Drug Administration (FDA) continues to enforce action levels for mycotoxins in foods and feeds, while also evaluating the integration of novel remediation systems. The FDA’s focus remains on ensuring that any decontamination process does not compromise nutritional quality or introduce chemical residues. The recent emergence and adoption of advanced physical, chemical, and biological remediation techniques have prompted the agency to consider possible updates to its guidance documents, especially as more companies seek pre-market clearance for new detoxification aids (U.S. Food and Drug Administration).

China, a significant producer and consumer of grains, has also updated its national mycotoxin standards, with the National Health Commission setting stricter maximum residue levels effective from 2024. This regulatory tightening is expected to drive increased demand for validated remediation systems and prompt greater investment in local technology development (COFCO Corporation).

Globally, industry bodies such as the International Feed Industry Federation are working with regulators to harmonize requirements and promote the adoption of safe, effective remediation solutions. Looking forward, the next few years are likely to see a convergence of regulatory expectations around system validation, post-remediation testing, and supply chain traceability. Companies developing mycotoxin remediation technologies will need to ensure robust documentation of efficacy and safety, while also keeping pace with evolving compliance frameworks in all major markets.

Investment & M&A Activity: Funding Trends and Notable Deals

The global market for mycotoxin remediation systems is witnessing increased investment and consolidation as food safety concerns and regulatory pressures intensify. In 2025, the sector continues to attract funding from both strategic investors and venture capital, reflecting the expanding demand for technologies that address mycotoxin contamination in animal feed, food ingredients, and supply chains.

A notable trend is the heightened interest from multinational agribusinesses and feed additive manufacturers, who are investing in in-feed binders, enzymatic degradation solutions, and emerging post-harvest detoxification technologies. For instance, DSM—a global leader in animal nutrition and health—has expanded its portfolio through targeted acquisitions and partnerships, enhancing its capacity to offer mycotoxin risk management solutions for both feed producers and integrators.

Private equity and venture capital firms are also showing active interest. In late 2024 and early 2025, several early-stage companies specializing in biological and enzymatic remediation attracted seed and Series A rounds. These investments are driven by the push for residue-free, sustainable solutions and the promise of scaling up new biotechnologies to commercial production. Companies such as Adisseo have also been involved in partnering with startups to co-develop advanced mycotoxin detoxifiers for global markets.

Mergers and acquisitions remain a central strategy for market leaders seeking to consolidate their positions and broaden technology offerings. In 2025, the animal feed sector has witnessed consolidation with major players acquiring regional specialists in mycotoxin binders, especially in high-risk geographies like Southeast Asia and Latin America. For example, Evonik Industries has continued to make strategic investments to strengthen its animal nutrition business, including mycotoxin management systems, as part of its broader focus on sustainable agriculture.

Looking ahead, analysts anticipate that regulatory tightening—particularly in the EU and Asia-Pacific—will further drive M&A activity as companies seek to rapidly access compliant technologies and expand their global footprints. There is also growing interest from grain storage and logistics companies in integrating remediation solutions, reflecting a holistic approach to mycotoxin risk management across the supply chain.

Overall, the investment climate for mycotoxin remediation systems in 2025 is dynamic, with robust venture funding, strategic partnerships, and ongoing M&A likely to accelerate innovation and market penetration over the next several years.

Case Studies: Successful Implementations and Demonstrated Efficacy

In recent years, the implementation of mycotoxin remediation systems has accelerated as regulators and food industry stakeholders confront the ongoing challenges of mycotoxin contamination in agricultural commodities. In 2025, several notable case studies highlight both the efficacy and scalability of these systems, particularly in grain and feed processing sectors.

A prominent example is the deployment of advanced detoxification technology by Bühler Group, whose SORTEX optical sorters have been widely adopted to remove mycotoxin-contaminated kernels from cereal grains. In commercial-scale trials across Europe and Asia, these systems demonstrated up to 80% reduction in aflatoxin contamination in maize batches, while maintaining high throughput and minimal grain loss. The ability to visually detect and separate affected grains has become a critical control point in integrated food safety management.

Another successful approach is enzymatic detoxification, as pioneered by Biomin with their Mycofix range. Used extensively in animal feed mills, these solutions employ specific enzymes capable of degrading aflatoxins, zearalenone, and ochratoxin A to non-toxic metabolites. In 2024–2025, feed producers in Latin America and Southeast Asia reported significant improvements in animal health parameters and product safety, with independent monitoring confirming mycotoxin levels consistently below regulatory thresholds after treatment.

Physical adsorption technologies have also gained traction, especially in regions with high aflatoxin risk. Olmix Group, for instance, has expanded the use of its clay-based binding agents in poultry and swine production throughout 2025. Field data from commercial farms indicate up to 90% reduction in aflatoxin bioavailability in treated feed, translating to measurable improvements in flock performance and reduced veterinary interventions.

On a larger scale, collaborative projects involving major grain processors and government agencies in North America have piloted integrated remediation strategies combining cleaning, sorting, and chemical detoxification. Early reports from these multi-site trials anticipate broader adoption across the sector, particularly as food safety standards tighten and consumer demand for mycotoxin-free products increases.

Looking ahead, the next few years are expected to see further optimization of existing systems, greater adoption of real-time detection technologies, and increased regulatory harmonization globally. The current case studies provide compelling evidence that scalable, effective mycotoxin remediation is achievable, offering a blueprint for broader implementation across both developed and emerging markets.

Future Outlook: Disruptive Opportunities and Long-Term Industry Impact

The future outlook for mycotoxin remediation systems is shaped by a confluence of regulatory pressure, technological innovation, and increasing global awareness of food safety. As the global food and feed supply chains face heightened scrutiny in 2025, there is a notable shift toward integrated, multi-modal remediation strategies. These combine physical, chemical, and biological methods to achieve more robust and scalable mycotoxin reduction, responding to the diverse contamination profiles observed across grains, nuts, and animal feeds.

In the near term, disruptive opportunities center on the advancement of real-time detection and targeted decontamination technologies. Leading manufacturers like Bühler Group are expanding optical sorting platforms that utilize hyperspectral imaging and AI to identify and physically remove contaminated grains at industrial throughput rates. Simultaneously, companies such as Evonik Industries are scaling up the commercial production of enzymatic and bio-transformative feed additives, capable of degrading aflatoxins and other key mycotoxins in situ, thereby protecting animal health and improving feed value.

Another major development is the adoption of ozone and cold plasma-based detoxification systems, with suppliers like AgriFain piloting modular units for on-site treatment of stored commodities. These approaches offer residue-free remediation and can be integrated into existing storage and processing infrastructure, addressing both regulatory compliance and sustainability targets.

Over the next few years, the industry is likely to see the convergence of these remediation technologies with digital traceability solutions. This will enable real-time monitoring and adaptive management of mycotoxin risks throughout the supply chain, a trend supported by platforms from organizations such as Cargill and ADM. Such integration is expected to facilitate compliance with evolving maximum residue limits and transparency requirements, especially in key export markets.

• Expansion of regulatory frameworks in the EU, China, and South America is forecasted to drive broader adoption of validated remediation systems by 2027.
• Continued R&D investment is anticipated in microbial consortia and enzyme engineering, aiming to degrade a broader spectrum of mycotoxins at lower cost and with minimal nutrient loss.
• Collaborative initiatives between equipment manufacturers and agrifood giants are likely to accelerate the commercialization of next-generation remediation platforms.

In sum, the disruption in mycotoxin remediation systems over the coming years will reshape risk management practices, raise baseline food safety standards, and create new value streams for technology providers and supply chain stakeholders.

Sources & References

• Adisseo
• Romer Labs
• Neogen Corporation
• Evonik Industries
• DSM-Firmenich
• Bühler Group
• Kemin Industries
• PerkinElmer
• Clariant
• Olmix Group
• International Feed Industry Federation
• AgriFain
• ADM