Methodology for measuring environmental health within Europe. Health Risk from Environmental Pollution Levels in Urban Systems (HEREPLUS)

Background: The European Commission funds a European research project titled "Health Risk from Environmental Pollution Levels in Urban Systems" (HEREPLUS) that focuses on environmental health within Europe. The HEREPLUS project was presented at the 16th EUPHA conference in Lisbon in November 2008 within a workshop named "The assessment of the effect of air pollution on population and environmental health: the integration of epidemiology and geographical information system (GIS)". Methods: The HEREPLUS project aims to measure the correlation between air pollution (especially ozone and particulate matter), meteorology, vegetation and human health in four European cities (Rome, Madrid, Athens and Dresden) by using a Geoinformation System to develop risk maps and subsequently guidelines to reduce air pollution and number of diseases. Results: The project started in September 2008 and a large, structured, relational database has been developed and completed. A literature review including national as well as international scientific literature goes on and will be completed in April 2009. Final results will be presented and published in 2011. Conclusions: Detailed scientific knowledge is important and needed to implement environmental programmes with the overall aim to protect human population against environmental related diseases

International Comparison CCQM-P28: Ozone at Ambient Level

We report a pilot study organized within the Consultative Committee for Amount of Substance (CCQM), in which the ozone reference standards of 23 institutes have been compared to one common reference, the BIPM ozone reference standard, in a series of bilateral comparisons carried out between July 2003 and February 2005. The BIPM, which maintains as its reference standard a standard reference photometer (SRP) developed by the National Institute of Standards and Technology (NIST, United States), served as pilot laboratory. A total of 25 instruments were compared to the common reference standard, either directly (16 comparisons) or via a transfer standard (9 comparisons). The comparisons were made over the ozone mole fraction range 0 nmol/mol to 500 nmol/mol. Two reference methods for measuring ozone mole fractions in synthetic air were compared, thanks to the participation of two institutes maintaining a gas-phase titration system with traceability of measurements to primary gas standards of NO and NO2, while the 23 other instruments were based on UV absorption. In the first instance, each comparison was characterized by the two parameters of a linear equation, as well as their related uncertainties, computed with generalized least-squares regression software. Analysis of these results using the Birge ratio indicated an underestimation of the uncertainties associated with the measurement results of some of the ozone standards, particularly the NIST SRPs. As a final result of the pilot study, the difference from the reference value (BIPM-SRP27 measurement result) and its related uncertainty were calculated for each ozone standard at the two nominal ozone mole fractions of 80 nmol/mol and 420 nmol/mol.JRC.H.4-Transport and air qualit