EUROqCHARM – DEVELOPING TEST METHODS TO IDENTIFY ENDOCRINE DISRUPTING CHEMICALS TOXIC TO FEMALE REPRODUCTION

Start date: 01 November 2020
End date: 31 October 2023
Coordinator Environment and Health: Prof Dr Jacob de Boer

Overall coordinator: Prof Dr Bert van Bavel, NIVA, Oslo, Norway

Funding: EU H2020 (Call CE-SC5-29-2020, Proposal no. 101003805)

INTRODUCTION TO THE PROJECT

Plastics have been one of the most important materials of the last century, enabling rapid technological and economic development and having an undeniably influential role in our society. Despite this, leakages of plastic debris to the environment have recently been identified as a major contamination issue. Approximately 4.8–12.7 million tonnes of plastics end up in the oceans each year and an estimated 12,000 million tonnes of plastics waste are expected to accumulate in landfills by 2050. Plastic contamination in the environment is threatening terrestrial, freshwater and marine life both physically and chemically. This may have serious effects on ecosystems and human health – although the risks have not yet been quantified – with corresponding economic losses estimated at $13 billion per year. Marine contamination has received much recent attention and some advancement have been made in establishing methodologies. Freshwater systems and the atmosphere, however, represent important compartments connecting terrestrial sources of plastic to the marine environment and attention must also addressed to these pathways to effectively tackle the global contamination issue.

International governing bodies now consider plastics to be an issue of emerging concern. The environmental monitoring of plastics is positioned high on the agenda of countries and international organisations worldwide. European Union (EU) Member States and Regional Sea Conventions must ratify monitoring frameworks and instruments, including stringent environmental assessment practices according to national and regional circumstances.

To date, the plastic economy has been characterised by a lack of technical monitoring standards and coordination actions for plastic pollution monitoring across value chains and countries. As a result, data on the presence of plastics in the environment vary in regard to quality, resolution and focus, which compromises comparative assessments of contamination and limits confidence related to the impacts of plastic pollution. To reach substantial improvements in environmental sustainability and socio-economic development, it is essential to undertake major actions for the evaluation and optimisation of plastic pollution monitoring and assessment. Efforts extending from national to global scales should be made to facilitate efficient risk assessment and environmental policy implementation.

Furthermore, harmonised methods are required to enable regulatory compliance by different private and public actors as well as to assess the effectiveness of environmental protection policies. To do so, robust and harmonised standards and recommendations are required. There is an urgent need to reinforce existing initiatives and improve coordination at pan-European scale.

Against this background, EUROqCHARM puts forward a multi-stakeholder approach to develop cost-effective monitoring strategies focusing on all environmental compartments (water, soil/sediment, air, biota) and targeting a broad size spectrum of plastics (nano-, micro-, macro-). EUROqCHARM takes an innovative approach, bringing together the existing plastic monitoring schemes within EU countries, and on the EU and global level, to facilitate improvements in plastic monitoring programmes and the realisation of European and international best-practices in the form of standards.

OBJECTIVES

The overall objective of EUROqCHARM is to develop optimised, validated and harmonised methods for monitoring and assessment of plastics in the environment, as well as blueprints for standards and recommendations for policy and legislation.

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More specifically, EUROqCHARM’s specific objectives are:

  1. Identification of state-of-the-art methods for sample collection, sample preparation and analysis of plastics (nano-, micro-, macro-) in four different environmental matrices (water, soil/sediment, air and biota) currently in use by research institutes, Small and Medium-sized Enterprises (SMEs) and other relevant research units through a systematic review of current practices amongst researchers, institutions and international working groups.
  2. Identification of state-of-the-art protocols, recommendations and guidelines, which are currently being used for monitoring and assessment of plastics in different environmental matrices by European member states, through a systematic review of current practices of international working groups and institutions.
  3. Harmonising sample preparation, analysis and data reporting formats as recommendations for standards through validation and quality assurance of identified candidate standard methods in a European-wide intercalibration exercise, using newly prepared certified reference materials and quality assured and controlled studies.
  4. Harmonising monitoring methods that can be used by stakeholders to formulate and implement policy and legislation at European and international levels, through the development of recommended guidelines.
  5. Capacity building to facilitate and accelerate adoption of developed standards and guidelines by EU policy and legislation through the creation of a platform for knowledge exchange between scientists, industry, standardisation bodies (CEN, ISO etc.) and governance.

DETAILS

Prof. Dr. Bert van Bavel of NIVA, Oslo, Norway is the overall coordinator of EUROqCHARM. VU will coordinate work package (WP) 2 on validation of methods. Certified reference materials will be prepared and an interlaboratory study will be organised. VU will also contribute to the organization of  workshop and to several other WPs.  

STAFF INVOLVED IN THIS PROJECT

Prof. Dr. Jacob de Boer (email: jacob.de.boer@vu.nl)

Mrs. Ike van der Veen (MSc)

Dr. Heather Leslie

Mr. Quinn Groenewoud (BSc)