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AbstractCertain persistent and polar substances may pose a hazard to drinking water resources. To foster the knowledge exchange in this field the Working Group Environmental Monitoring of the German Chemical Society (GDCh) Division Environmental Chemistry and Ecotoxicology discussed at their meeting in December 2018 the significance and relevance of persistent, mobile and toxic chemicals (PMT substances) in the environment. Five oral contributions highlighted not only various aspects such as the identification of potential PMT substances based on certain properties and their possible regulation under the European REACH regulation, but also current developments in the analysis of PMT substances and results from environmental monitoring. The data presented prove that many persistent and mobile substances can be detected in surface waters. Once detected, it can be complex and costly to identify sources and reduce inputs, as a case study on 1,4-dioxane in Bavarian surface waters shows. The same applies to the removal of polar substances from raw water for drinking water production. Today, scientific advances in analytical methods make it easier to identify and quantify even very polar substances in water samples. In addition to the targeted analysis of critical chemicals, non-target screening is playing an increasingly important role. This opens up the possibility of detecting substances in water samples that have not previously been investigated in routine monitoring and testing their relevance for humans and the environment. However, the list of potentially occurring PM substances that have not yet been investigated is still very long. Further methodological improvements seem necessary here. In view of the evidence for the presence of PMT substances in the environment (e.g., trifluoroacetic acid and 1,4-dioxane) and the potential risks for drinking water abstraction, it seems important under consideration of the precautionary principle to identify and prioritise relevant REACH-registered substances. The assessment should be based on the intrinsic properties and the emission potential of the compounds. The implementation of a detailed proposal made at European level to regulate PMT and very persistent and very mobile (vPvM) substances in the context of REACH would ensure that chemicals identified as being substances of very high concern according to the PMT and vPvM criteria are subject to authorisation in future.

Abstract
Background
Lately scientific and societal concern has emerged about persistent (P), mobile (M) and toxic (T) chemicals. Such chemicals, like some polyfluoroalkyl acids (PFAAs), are of concern due to their high mobility and persistence in aquatic compartments which relates to long-term biotic exposure and difficult removal from drinking water. In this study, a screening approach for identification of PMT chemicals was developed and applied to 6158 diverse chemicals.

Results
Chemicals are given a continuous score for P, M and T potential based on the modelled indicators (low to moderate potential is a score of 0–0.33, high potential is a score of 0.33–0.5 and very high potential a score of 0.5–1). The P score was based on the estimated aquatic environmental half life and the M score on the chemical's organic carbon/water partition coefficient (Koc) using respectively the BIOWIN3 and KocWIN QSAR models of EPISuite™. The T score was based on the indicators for five human health endpoints: carcinogenicity (c), mutaganicity (m), reprotoxicity (r), endocrine disruption (ED) and general repeated dose systemic toxicity. Structural alerts for these endpoints taken from the OECD QSAR Toolbox™ and Toxtree™ were used as indicators of potential (human) toxicity. Chemical similarity values to Substances of Very High Concern (SVHC) with c, m and/or r properties were also included. Value functions were developed to translate the presence of alerts and similarity to the existing SVHCs to values between 0 and 1. Subsequently, all values were also aggregated to an overall PMT score, again ranging from 0 to 1. Applying the approach to chemicals from the Inventory of Existing Commercial chemical Substances, which are also REACH registered, resulted in 15% of the chemicals receiving high scores (≥ 0.33) for all three (P-, M- and T-) indicators and 4% getting very high scores (≥ 0.5) for both the P- and M-indicators.

Conclusions
The approach confirmed the properties of chemicals classified as SVHC due to PMT properties (e.g. 1,4-dioxane), illustrating the ability of the approach to identify PMT chemicals of concern. Water regulators, drinking water suppliers and others can use this approach to identify potential PMT/vPvM chemicals that need further investigation.

Abstract
Background
Safe and clean drinking water is essential for human life. Persistent, mobile and toxic (PMT) substances and/or very persistent and very mobile (vPvM) substances are an important group of substances for which additional measures to protect water resources may be needed to avoid negative environmental and human health effects. PMT/vPvM substances do not sufficiently biodegrade in the environment, they can travel long distances with water and are toxic (those that are PMT substances) to the environment and/or human health. PMT/vPvM substance research and regulation is arguably in its infancy and in order to get in control of these substances the following (non-exhaustive list of) knowledge gaps should to be addressed: environmental occurrence; the suitability of currently available analytical methods; the effectiveness and availability of treatment technologies; the ability of regional governance and industrial stewardship to contribute to safe drinking water while supporting innovation; the ways in which policies and regulations can be used most effectively to govern these substances; and, the identification of safe and sustainable alternatives.

Methods
The work is the outcome of the third PMT workshop, held in March 2021, that brought together diverse scientists, regulators, NGOs, and representatives from the water sector and the chemical sector, all concerned with protecting the quality of our water resources. The online workshop was attended by over 700 people. The knowledge gaps above were discussed in the presentations given and the attendees were invited to provide their opinions about knowledge gaps related to PMT/vPvM substance research and regulation.

Results
Strategies to closing the knowledge, technical and practical gaps to get in control of PMT/vPvM substances can be rooted in the Chemicals Strategy for Sustainability Towards a Toxic Free Environment from the European Commission, as well as recent advances in the research and industrial stewardship. Key to closing these gaps are: (i) advancing remediation and removal strategies for PMT/vPvM substances that are already in the environment, however this is not an effective long-term strategy; (ii) clear and harmonized definitions of PMT/vPvM substances across diverse European and international legislations; (iii) ensuring wider availability of analytical methods and reference standards; (iv) addressing data gaps related to persistence, mobility and toxicity of chemical substances, particularly transformation products and those within complex substance mixtures; and (v) advancing monitoring and risk assessment tools for stewardship and regulatory compliance. The two most effective ways to get in control were identified to be source control through risk governance efforts, and enhancing market incentives for alternatives to PMT/vPvM substances by using safe and sustainable by design strategies.

Background: Safe and clean drinking water is essential for human life. Persistent, mobile and toxic (PMT) substances and/or very persistent and very mobile (vPvM) substances are an important group of substances for which additional measures to protect water resources may be needed to avoid negative environmental and human health effects. PMT/vPvM substances do not sufficiently biodegrade in the environment, they can travel long distances with water and are toxic (those that are PMT substances) to the environment and/or human health. PMT/vPvM substance research and regulation is arguably in its infancy and in order to get in control of these substances the following (non-exhaustive list of) knowledge gaps should to be addressed: environmental occurrence; the suitability of currently available analytical methods; the effectiveness and availability of treatment technologies; the ability of regional governance and industrial stewardship to contribute to safe drinking water while supporting innovation; the ways in which policies and regulations can be used most effectively to govern these substances; and, the identification of safe and sustainable alternatives. Methods: The work is the outcome of the third PMT workshop, held in March 2021, that brought together diverse scientists, regulators, NGOs, and representatives from the water sector and the chemical sector, all concerned with protecting the quality of our water resources. The online workshop was attended by over 700 people. The knowledge gaps above were discussed in the presentations given and the attendees were invited to provide their opinions about knowledge gaps related to PMT/vPvM substance research and regulation. Results: Strategies to closing the knowledge, technical and practical gaps to get in control of PMT/vPvM substances can be rooted in the Chemicals Strategy for Sustainability Towards a Toxic Free Environment from the European Commission, as well as recent advances in the research and industrial stewardship. Key to closing these gaps are: (i) advancing remediation and removal strategies for PMT/vPvM substances that are already in the environment, however this is not an effective long-term strategy; (ii) clear and harmonized definitions of PMT/vPvM substances across diverse European and international legislations; (iii) ensuring wider availability of analytical methods and reference standards; (iv) addressing data gaps related to persistence, mobility and toxicity of chemical substances, particularly transformation products and those within complex substance mixtures; and (v) advancing monitoring and risk assessment tools for stewardship and regulatory compliance. The two most effective ways to get in control were identified to be source control through risk governance efforts, and enhancing market incentives for alternatives to PMT/vPvM substances by using safe and sustainable by design strategies. ; ISSN:2190-4715 ; ISSN:2190-4707

AbstractIn 2020, the European Commission released its Chemicals Strategy for Sustainability towards a Toxic Free Environment (CSS) as part of the European Union's zero pollution ambition, which is a key commitment of the European Green Deal. One group of substances highlighted in the CSS is persistent, mobile and toxic and very persistent and very mobile (PMT/vPvM) substances. This article focuses on the current, broad European political landscape that applies to PMT/vPvM substances as well as looking into gaps and opportunities within this policy framework. To look at the political landscape, strategies and action plans published in the context of the European Green Deal, as well as a small number of other strategies adopted prior to the European Green Deal, were reviewed. A template was developed to identify actions related to PMT/vPvM substances and the actions were split between the following categories: "Prevent & Reduce", "Prioritize", and "Remediation". Following this, opportunities and gaps were identified.The current overarching strategy governing environmental policy is the European Green Deal which aims to achieve carbon neutrality and zero pollution by 2050. The CSS is the main and most focused Green Deal strategy addressing chemical pollution and uses a hierarchy tailored to chemicals management called the Toxic Free Hierarchy. The potential sources and exposure pathways of PMT/vPvM substances which result in environmental emissions are vast. This has the resultant effect that the relevant legal framework to address PMT/vPvM substances spans policies and legislation with different aims. Broadly, these policies and legislations are related to prevention, minimization/control and remediation, as reflected by the toxic-free hierarchy. There are many gaps and opportunities in the current policy framework which have primarily arisen due to the bold ambition of the CSS and the subsequent introduction of new hazard classes for PMT/vPvM substances. One such gap is related to a lack of harmonization across European Chemicals Policy demonstrated via the Cosmetics Regulation and the Biocidal Products Regulation (BPR) which are currently not aligned. The Cosmetics Regulation does not require a re-evaluation of a substance even in light of new scientific information, whilst the BPR requires new scientific evidence to be considered. In addition, REACH (SVHC criteria) and other legislation using hazard classes for triggering risk management measures (BPR, PPPR, pharmaceutical legislation, Water Framework Directive) may be expected to be revised or are currently being revised based on the new hazard class. The regulation of PMT/vPvM substances is in its infancy. While many EU action plans exhibit gaps and opportunities for chemical regulation as a whole, only certain policies refer to PMT/vPvM substances directly. It is up to policymakers, regulators and academia to highlight those gaps and corresponding emerging windows of opportunity that reflect potential regulatory engagement. The introduction of new hazard classes for PMT/vPvM substances in the Classification, Labelling and Packaging (CLP) regulation provides a first step as these substances are identified, however, regulatory consequences need to be implemented in all other legislation in the future. This will need strong commitment from the European Commission and the EU Member States.

Abstract
Background
Under the EU chemicals regulation REACH (Registration, Evaluation, Authorisation and Restriction of Chemicals EC 1907/2006), registrants are not obliged to provide information related to intrinsic substance properties for substances that pose a threat to the drinking water resources. In 2019, perfluorobutane sulfonic acid (PFBS) and 2,3,3,3-tetrafluoro-2-(heptafluoropropoxy)-propanoic acid (HFPO-DA trade name GenX) were demonstrated to have an equivalent level of concern (ELoC) to persistent, bioaccumulative and toxic or very persistent and very bioaccumulative (PBT/vPvB) substances owing to their persistent, mobile and toxic (PMT) substance properties and very persistent and very mobile (vPvM) substance properties, respectively. They were both subsequently identified as substances of very high concern (SVHC) applying Article 57(f) in REACH. This work follows up on this regulatory decision by presenting a science based, conceptual level comparison that all PMT/vPvM substances pose an ELoC to PBT/vPvB substances. Using the two cases named above, as well as 1,4-dioxane, 16 categories were developed to evaluate a) serious effects on human health, b) serious effects on the environment and c) additional effects. 1,4-dioxane has recently been proposed to be classified as Carcinogenic 1B by the Committee for Risk Assessment (RAC). The aim was to enable an objective and scientifically justified conclusion that these classes of substances have an equivalent level of concern for the environment and human health.

Results
In all of the categories related to human health, the environment and other effects, the PMT/vPvM case study substances exhibited comparable effects to PBT/vPvB substances. A difference in the human and environmental exposure pathways of PMT/vPvM and PBT/vPvB substances exists as they vary temporally and spatially. However, effects and impacts are similar, with PMT/vPvM substances potentially accumulating in (semi-)closed drinking water cycles and pristine aquatic environments, and PBT/vPvB substances accumulating in humans and the food chain. Both PMT/vPvM and PBT/vPvB substances share the common difficulty that long term and long-range transport and risk of exposure is very difficult to determine in advance and with sufficient accuracy.

Conclusion
The registration process of substances under REACH should reflect that PMT/vPvM substances pose an equivalent level of concern to PBT/vPvB substances.

Protecting the sources of our drinking water from any threats caused by chemicals is of the utmost importance. A strategy is needed in order to allow Europe's chemical industry to continue to innovate while ensuring the protection of the water cycle. The German Environment Agency (UBA) is carrying out an initiative to identify those substances that are persistent (P) in the environment, mobile (M) in the water cycle (PM substances), and additionally toxicity (T) to human health (PMT substances). The proposed criteria will assist registrants in fulfilling their responsibility of guaranteeing the safe use of chemicals under the EU's chemical regulation "REACH" (Regulation EC No 1907/2006).

Chemicals with a specific combination of intrinsic substance properties pose a hazard to the sources of our drinking water, including substances that are very persistent (vP) in the environment and very mobile (vM) in the aquatic environment as well as substances that are persistent (P), mobile (M), and toxic (T). This publication presents the result of the scientific and technical development of the PMT/vPvM criteria under EU ⁠REACH⁠ Regulation (EC) No 1907/2006. The scientific and regulatory considerations include (1) monitoring data, (2) simulation and model studies and (3) impact considerations. This can be considered a ready-to-use tool for industry to identify PMT/vPvM substances.

37 pages, 3 figures.-- JEL Classification Codes: D4, K23, L51, L96. -- The paper was previously circulated under the title "A Retail Benchmarking Approach to Efficient Two-Way Access Pricing: Termination-Based Price Discrimination with Elastic Subscription Demand". ; In this paper, we study how access pricing affects network competition when subscription demand is elastic and each network uses non-linear prices and can apply termination-based price discrimination. In the case of a fixed per minute termination charge, we find that a reduction of the termination charge below cost has two opposing effects: it softens competition but helps to internalize network externalities. The former reduces mobile penetration while the latter boosts it. We find that firms always prefer termination charge below cost for either motive while the regulator prefers termination below cost only when this boosts penetration. Next, we consider the retail benchmarking approach (Jeon and Hurkens, 2008) that determines termination charges as a function of retail prices and show that this approach allows the regulator to increase penetration without distorting call volumes. ; This research was partially funded by the Kauffman Foundation and the Net Institute (www.netinst.org) whose financial support is gratefully acknowledged. We also thank the support from the Barcelona GSE research network and of the Generalitat de Catalunya. Jeon gratefully acknowledges the financial support from the Spanish government under SEJ2006-09993/ECON. Hurkens gratefully acknowledges the financial support from the Spanish Ministry of Education and Science under SEJ2006-01717. ; Peer reviewed

With toxic pollutants as a rising threat, important questions about environmental justice, gender, and the sexual politics of environmental movements issue an urgent challenge to intersectional gender and science studies; to anticolonial, queer, and trans theory; as well as to environmental and human-animal studies at large. Taking up this challenge, this piece aims at attending to the ways toxic embodiment disturbs or aligns with multiple boundaries of sexes, generations, races, geographies, nation-states, and species and how toxicity has re-dynamized corporeality and the biochemical materiality of bodies. ; QC 20191105 ; The Posthumanities Hub and The Seed Box

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ALL MANKIND SHOULD BE CONCERNED ABOUT THE ALARMING INCREASE IN TOXIC WASTE AND THE RISKS INVOLVED IN ITS SHIPMENT TO DEVELOPING COUNTRIES. IN THE MAJORITY OF CASES, THE THIRD WORLD COUNTRIES RECEIVING SUCH WASTE DO NOT POSSESS ADEQUATE MEANS TO PROTECT PUBLIC HEALTH OR TO TREAT SUCH WASTE. BRITISH COMMONWEALTH PARLIAMENTS, INDIVIDUALLY AND COLLECTIVELY, MUST TAKE STEPS TO PREVENT DEVELOPING COUNTRIES FROM BEING TURNED INTO TOXIC WASTELANDS.