PFAS Regulations in 2025: What EHS Professionals Need to Know

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Per- and polyfluoroalkyl substances (PFAS) have become a critical focus for environmental, health, and safety (EHS) professionals worldwide. Often referred to as "forever chemicals," PFAS are a group of synthetic compounds used extensively in manufacturing, from nonstick cookware and waterproof textiles to firefighting foam. Their persistence in the environment and bioaccumulation in living organisms pose significant risks to both human health and ecosystems.

The year 2025 marks a pivotal shift in the regulatory landscape for PFAS, as governments worldwide, led by the U.S. Environmental Protection Agency (EPA), implement stricter controls on their production, use, and disposal. For EHS professionals, these changes signify not just compliance challenges but also opportunities to lead sustainability efforts within their organizations.

This article delves into the critical updates to PFAS regulations for 2025, offering insights and actionable strategies to help EHS managers prepare for and adapt to these landmark changes.

What Are PFAS?

Per- and polyfluoroalkyl substances (PFAS) represent a vast class of over 12,000 synthetic chemicals characterized by their unique carbon-fluorine bonds. This chemical structure gives PFAS their remarkable stability, making them resistant to heat, water, and oil. These properties have made PFAS indispensable in various industries, including electronics, aerospace, textiles, and food packaging.

However, the very durability that makes PFAS valuable also makes them harmful. Dubbed “forever chemicals,” PFAS do not naturally break down, leading to their accumulation in soil, water, and the human body. Scientific studies have linked prolonged PFAS exposure to severe health risks, including cancer, thyroid disorders, liver damage, and immune system suppression.

PFAS contamination has become a global environmental crisis. These chemicals are frequently detected in drinking water supplies and agricultural lands, causing widespread concern. Regulatory bodies are intensifying efforts to address these issues, recognizing the urgent need to limit PFAS exposure and mitigate their impacts. For EHS professionals, understanding the science and prevalence of PFAS is critical to navigating the evolving regulatory environment and safeguarding their organizations against potential liabilities.

Key Changes in 2025 Regulations

The regulatory framework for PFAS is set to tighten significantly in 2025, with the U.S. Environmental Protection Agency (EPA) spearheading efforts to address these persistent chemicals. Several new measures aim to curb PFAS production, minimize exposure, and enhance environmental and human health protections.

A major milestone is the EPA’s anticipated finalization of enforceable limits for PFAS in drinking water under the Safe Drinking Water Act. This regulation targets specific compounds like PFOA and PFOS, setting limits as low as 4 parts per trillion (ppt)—a groundbreaking move given the chemicals' widespread detection in water systems. Additionally, new rules will require industries to monitor and report PFAS releases into air, soil, and waterways, ensuring greater transparency and accountability.

The Toxic Substances Control Act (TSCA) is also undergoing revisions. Manufacturers must now disclose PFAS usage in their products and demonstrate efforts to phase out or find safer alternatives. For industries such as textiles, firefighting, and electronics, these updates necessitate significant changes in supply chain management and production processes.

Another critical update involves waste management. Landfills and wastewater treatment facilities are facing stricter guidelines for handling PFAS-laden materials. Compliance will require enhanced treatment technologies and monitoring protocols.

Globally, other countries are following suit. The European Union is advancing its plans to ban over 10,000 PFAS chemicals by 2025, creating additional challenges for multinational corporations. These synchronized efforts reflect growing recognition of PFAS as a global crisis.

For EHS professionals, staying ahead of these regulations is imperative. Understanding these changes enables proactive planning, minimizing risks of noncompliance and reputational damage while fostering sustainable practices.

Implications for EHS Professionals

The upcoming PFAS regulations pose significant challenges and responsibilities for EHS professionals, who play a central role in ensuring organizational compliance and mitigating risks. As the 2025 implementation deadline approaches, EHS managers must adapt their practices to meet heightened standards.

One immediate task is conducting a comprehensive inventory of PFAS usage within the organization. This involves identifying all products, processes, and waste streams that may contain these chemicals. Collaboration with suppliers to obtain detailed material disclosures is also essential, especially for industries heavily reliant on PFAS-containing materials, such as manufacturing, firefighting, and construction.

EHS teams will also need to establish robust monitoring systems to track PFAS emissions and ensure compliance with reporting requirements. This could include sampling water discharges, testing air emissions, and auditing waste disposal practices. Implementing advanced technologies for PFAS detection, such as high-resolution mass spectrometry, can enhance the accuracy of these efforts.

Training and communication are critical components of compliance. Employees at all levels must be educated about the new regulations, their implications, and best practices for managing PFAS-related risks. This ensures organizational alignment and fosters a culture of accountability.

Additionally, EHS managers must prepare for increased scrutiny from regulators and stakeholders. Transparent reporting, backed by data-driven assessments, will be key to maintaining trust and credibility.

By proactively addressing these challenges, EHS professionals not only safeguard their organizations against potential liabilities but also position themselves as leaders in environmental stewardship and sustainability.

Future Trends and Innovations

As PFAS regulations evolve, advancements in technology and policy offer promising pathways for mitigation and management. Emerging solutions, such as activated carbon filters, ion exchange resins, and advanced oxidation processes, are proving effective in reducing PFAS contamination in water systems. Meanwhile, industries are exploring biodegradable alternatives to PFAS, fostering innovation in materials science.

Policy developments are also gaining momentum on the global stage. Initiatives like the European Union’s sweeping restrictions on PFAS and collaborative international efforts signal a shift toward comprehensive, unified action. For EHS professionals, staying abreast of these trends is essential for long-term compliance and environmental leadership.

CORe: Surprise H&S Inspection - Use your Legal Register to be Inspection Ready

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Have your company’s offices or stores ever been caught off-guard by an unexpected inspection from the Occupational Health and Safety authority? Imagine scrambling to locate key documents and records to verify compliance, only to find that many required files were incomplete or missing entirely. It’s a stressful situation.

As a CORe member, there is a smart solution to ensure you are always prepared: leverage your CORe Country H&S Legal Register as the foundation for a streamlined and organized system.

Here is how it works: Simply link all relevant records and documents from your office or store directly to the corresponding regulatory items in your H&S legal register or checklist. This transforms your legal register into a powerful compliance tool.

Benefits? Your office or store will be inspection-ready—no more last-minute searches, just a well-prepared, easy-to-access system. It's a simple yet effective solution.

Take note:

  • This approach also serves as a central repository for all site H&S documents, and provides easy access.

  • Of course, maintaining up-to-date H&S documents is essential for the long-term success of this strategy.

  • This approach works best when most or all of your H&S documents are in an electronic format.

To learn more about CORe EHS regulatory compliance tools for offices and stores, please visit Core EHS Legal Compliance Resources or contact convergence consulting at infomail@cc-global.com

October as Biosafety and Biosecurity Month: Promoting Safety and Compliance in Research Environments

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Every October, institutions across the country participate in Biosafety and Biosecurity Month, a campaign led by the American Biological Safety Association (ABSA) to promote a culture of safety and responsibility in research environments. This initiative aims to raise awareness about the importance of handling hazardous biological materials safely and emphasizes the ethical responsibilities researchers have to protect both human health and the environment.

The campaign's focus goes beyond compliance; it fosters collaboration between environmental health and safety (EHS) professionals and research staff, encouraging best practices to prevent accidents and biosecurity breaches. As laboratories engage with more advanced research, from infectious disease studies to synthetic biology, the need for strict adherence to biosafety protocols is more critical than ever. This month provides an opportunity for organizations to evaluate and enhance their safety practices, ensuring they meet both regulatory requirements and ethical standards.

What is Biosafety and Biosecurity?

Biosafety and biosecurity are essential components of laboratory and research practices designed to protect individuals, communities, and the environment from exposure to biological hazards. While these terms are often used together, they address different but complementary concerns. Biosafety focuses on the protection of people and the environment from accidental exposure to or release of potentially harmful biological materials. In contrast, biosecurity emphasizes the protection of these materials from theft, misuse, or intentional release, ensuring that pathogens are not used for malicious purposes.

In research and clinical settings, biosafety practices involve protocols such as the correct use of personal protective equipment (PPE), autoclave sterilization, and the safe disposal of medical waste. Biosecurity measures, on the other hand, include access controls, surveillance systems, and tracking biological materials to prevent unauthorized access or diversion of infectious agents.

The increasing complexity of scientific research—such as studies involving genetic engineering, synthetic biology, and high-containment pathogens—requires advanced biosafety and biosecurity frameworks. Organizations like the American Biological Safety Association (ABSA) lead efforts to promote these practices, ensuring that laboratories worldwide adopt robust safety systems to protect public health and research integrity.

The alignment of biosafety and biosecurity also promotes public trust, as researchers demonstrate that their work is conducted safely and responsibly. By adhering to these standards, institutions not only protect their staff but also avoid reputational risks and meet evolving regulatory requirements from agencies like OSHA and the National Institutes of Health (NIH).

Key Campaign Objectives for 2024

The 2024 Biosafety and Biosecurity Month centers on promoting safety stewardship and regulatory compliance across laboratories and research institutions. This year’s campaign emphasizes three core objectives: enhancing collaboration between safety professionals and researchers, ensuring regulatory compliance, and fostering ethical conduct in scientific research.

  1. Training and Awareness Building
    A key focus is on increasing awareness and providing targeted training on critical safety protocols, such as handling infectious agents, bloodborne pathogen management, and autoclave operations. Site-specific training led by supervisors is emphasized, ensuring that safety measures are tailored to the specific risks of each laboratory environment. Regular training ensures compliance with federal and state regulations, such as OSHA's mandates on hazardous materials management.

  2. Emphasis on Waste Management and Compliance
    Improper disposal of biohazardous and chemical waste poses significant safety risks and can attract financial penalties. The campaign encourages research institutions to conduct routine audits of their waste management practices, involving EHS professionals in annual reviews of waste regulations to maintain compliance. The goal is to prevent accidents and ensure that all hazardous waste is handled according to federal guidelines.

  3. Engaging Researchers in Safety Practices
    Beyond compliance, the campaign fosters a culture of safety by engaging researchers directly in discussions about biosecurity. This collaborative approach aims to build trust and ensure that safety practices are integrated into day-to-day operations. The campaign encourages participation from every level of research personnel, from principal investigators to laboratory technicians, emphasizing that safety is a shared responsibility.

By focusing on these objectives, the 2024 campaign aims to enhance operational safety, prevent accidents, and ensure that scientific work is conducted with both integrity and responsibility.

Compliance and Training Requirements

Strict adherence to biosafety and biosecurity regulations is essential for laboratories to avoid accidents, protect staff, and maintain research integrity. Federal and state bodies such as OSHA, the CDC, and the NIH provide frameworks that guide safety protocols, including the proper handling, storage, and disposal of biohazardous materials. Non-compliance can result in severe financial penalties, reputational damage, and increased scrutiny from regulatory agencies.

  1. Federal and State Regulatory Requirements
    Regulations such as OSHA’s Bloodborne Pathogens Standard and NIH guidelines for research involving recombinant DNA require laboratories to implement specific biosafety measures. Laboratories must also comply with Hazard Communication (HazCom) standards, which mandate proper labeling and documentation of all hazardous substances used in the lab.

  2. Mandatory Training Programs
    Effective biosafety management begins with comprehensive training. Institutions must provide both general and site-specific training to laboratory staff. General training typically covers topics like biohazard waste management, PPE use, and chemical safety, while site-specific sessions address risks unique to a particular lab setting. The 2024 Biosafety and Biosecurity Month highlights the importance of involving supervisors in these training efforts, ensuring that protocols are reviewed before any research activities commence.

  3. Risks of Non-Compliance
    Non-compliance with biosafety standards not only increases the risk of accidents but can also result in fines or operational shutdowns. Regulatory bodies conduct routine inspections, and institutions found lacking in compliance may be required to halt projects until safety gaps are addressed. Moreover, research misconduct or negligence in biosecurity protocols can tarnish the reputation of institutions, affecting their ability to secure funding or partnerships in the future.

Practical Steps for Labs to Improve Safety

Laboratories can adopt several practical measures to strengthen their biosafety and biosecurity practices. Implementing these strategies not only reduces the risk of accidents but also ensures compliance with evolving regulations and fosters a culture of continuous improvement in safety management.

  1. Conduct Regular Audits and Inspections
    Routine inspections help identify safety gaps before they result in incidents. EHS professionals recommend scheduling annual or semi-annual audits focused on key areas such as waste management, chemical storage, and PPE usage. These inspections ensure that lab conditions align with the latest safety standards and regulatory requirements.

  2. Engage EHS Experts and Provide Continuous Training
    One way to enhance safety performance is to involve EHS professionals in lab meetings and training sessions. Continuous education, including refresher courses, ensures that staff stay updated on new regulations and technologies.

  3. Establish Clear Communication Channels
    Effective safety management relies on open communication between researchers, supervisors, and EHS teams. Creating platforms for reporting safety concerns, such as anonymous suggestion boxes or digital reporting tools, encourages proactive problem-solving.

  4. Integrate Safety into Everyday Operations
    Instead of treating safety as an isolated responsibility, it should be integrated into all aspects of lab operations. Ensuring that safety protocols become routine helps build a sustainable culture of safety.

Conclusion

Biosafety and Biosecurity Month serves as a vital reminder of the importance of safeguarding research environments through comprehensive safety practices and regulatory compliance. Participating in initiatives such as this campaign not only enhances operational safety but also reinforces public trust in scientific research.

The Evolution of EHS in 2023: Embracing Technology for a Safer, More Sustainable Future

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In today's rapidly evolving world, Environmental, Health, and Safety (EHS) remains a pivotal area for organizations globally. The year 2023 stands out as a milestone in the EHS landscape, marked by the seamless fusion of innovative technologies into EHS practices. This blog post offers a comprehensive look at how these technological strides, ranging from advanced software to sophisticated wearable devices, are transforming the EHS sector. We will unearth insights from industry experts, discuss significant technological impacts, and outline the emerging trends that are defining the direction of EHS in 2023 and beyond.

The Rise of Technology in EHS

2023 has been a landmark year for the integration of cutting-edge technology in the field of Environmental, Health, and Safety (EHS). This technological revolution is fundamentally changing how EHS professionals approach their work, offering new tools and methods to enhance safety and sustainability practices.

One of the most notable advancements is the application of Artificial Intelligence (AI). AI technologies are being utilized for predictive modeling, risk management, and compliance, providing EHS professionals with powerful tools to anticipate and mitigate potential hazards before they occur. This predictive capability of AI, coupled with its ability to analyze large data sets, has proven invaluable in improving workplace safety and environmental sustainability.

The implementation of EHS software has also seen a surge. These software solutions are crucial in helping businesses manage complex safety programs, particularly for small and medium-sized enterprises that might lack the resources for extensive EHS management. Moreover, EHS software facilitates efficient ESG reporting, a growing necessity for organizations across the globe. With these tools, businesses can more easily track and report on their environmental and safety impacts, an essential aspect in today's increasingly regulated corporate world.

Wearable technology is another area where significant strides have been made. From smartwatches to advanced sensors, wearables are empowering workers with real-time data about their work environment, enhancing their ability to stay safe and productive. These devices are not only useful in monitoring health parameters but also in providing immediate feedback on safety practices, a crucial factor in preventing accidents and ensuring worker wellbeing.

In sum, the rise of technology in EHS is a testament to the ongoing evolution of this critical field. By embracing these technological advancements, EHS professionals are better equipped to face the challenges of the modern workplace, ensuring safety and sustainability are at the forefront of their operations.

Expert Insights on Technological Influence

The transformation of EHS through technology is not just theoretical but is being actively shaped by the insights and experiences of industry leaders. Dr. John Howard, the director of the National Institute for Occupational Health and Safety, highlights the impact of diverse technologies such as algorithmic management tools, robotic devices, and wearable sensor technologies. He emphasizes that these advancements challenge EHS professionals to learn new skills for assessing and controlling emerging risks.

Amanda Engstrom, EHS Program Manager at Advance Auto Parts, points out the dual benefits of emerging technologies in EHS. Firstly, she notes the ease of assessment and testing, particularly in ergonomics, facilitated by wearable devices that can track movement and provide immediate feedback. Secondly, Engstrom underscores the improvement in training strategies through augmented reality and gamification, which enhance engagement and knowledge retention.

Zach Pucillo, EHS Compliance Manager at KPA, identifies several key trends to watch. These include the growing importance of EHS software for small and medium-sized businesses, the increasing necessity of ESG reporting, the integration of mobile technologies in the workforce, and the future potential of AI in hazard alerts and ergonomic improvements.

Helen Harris, Health & Safety Center of Excellence Leader at WestRock, adds a nuanced perspective. She acknowledges that while technology can simplify certain aspects of EHS work, it also adds complexity, particularly in data gathering and analysis. Harris emphasizes the need for EHS professionals to develop skills in data analysis to prioritize improvement efforts effectively.

These expert opinions collectively paint a picture of an EHS landscape in transition, marked by the adoption of new technologies and the evolving role of EHS professionals.

Legislative Impact and Compliance

The landscape of EHS in 2023 is also being reshaped by legislative developments. Globally and in the U.S., new regulations are setting precedents that profoundly affect EHS practices. In the United States, for instance, California’s recent environmental disclosure laws demand stringent compliance and reporting standards. Similarly, the European Union's Corporate Sustainability Reporting Directive (CSRD) broadens sustainability reporting requirements, significantly impacting companies operating in the EU. These regulations highlight the growing emphasis on transparency and accountability in environmental and safety matters.

Understanding and adapting to these legislative changes is crucial for EHS professionals. They must swiftly align their practices with these new standards to remain compliant. Moreover, these regulations are not just about adherence; they present an opportunity for organizations to improve their EHS practices, leveraging legislative requirements as a catalyst for positive change. Staying ahead in this changing regulatory environment is key to maintaining operational excellence and upholding organizational reputation.

Emerging Trends in EHS for 2023

The EHS landscape in 2023 is marked by transformative trends. A key development is the EHS function’s growing role in driving Environmental, Social, and Governance (ESG) initiatives, reflecting a deeper integration of EHS and sustainability goals.

EHS software is increasingly being used to manage ESG responsibilities, helping professionals efficiently handle complex data management and reporting tasks. Additionally, operationalizing ESG is gaining focus, moving from strategic visions to actionable plans involving all levels of employees.

Furthermore, EHS programs are adopting a holistic approach to worker wellness, encompassing both mental health and physical well-being. This shift recognizes the comprehensive nature of workplace health.

Diversity, equity, and inclusion (DE&I) initiatives are also becoming integral to safety programs, ensuring practices cater to diverse workforce needs.

With stricter ESG regulations emerging, companies are ramping up investments in data management tools to meet compliance demands.

These trends underscore a period of significant evolution in EHS, where technology, regulatory changes, and sustainability intersect.

The Role of Gamification in EHS Training

Gamification is revolutionizing EHS training in 2023. By incorporating gaming designs into training scenarios, EHS professionals are making safety education more engaging and memorable. This approach includes digital safety games where players create avatars and complete challenges, as well as traditional games like cards and board games designed for hazard recognition and mitigation. Such interactive methods are proving effective in improving learning experiences and employee engagement in safety practices, showcasing a creative blend of entertainment and education in EHS training.