Fournier K., Glorennec P., Bonvallot N. (2014). Construction de valeurs toxicologiques de référence adaptées à la prise en compte des mélanges en évaluation des risques sanitaires : méthodes existantes et applications récentes. Environ Risque Santé, n° 13, p. 203-21.
Host S., Grange D., Mettetal L., Dubois U. (2014). Précarité énergétique et santé : état des connaissances et situation en Ile-de-France. Paris, Observatoire régional de santé Ile-de-France, 20 p.
Reis J. (2014). Maladies neurologiques et environnement. Environ Risque Santé, n° 13, p. 177-8.
Redlingshöfer B., Métais A., André J.-C., (2014). Complexité, risques incertains, précaution et débat public. Environ Risque Santé, n°13, p. 222-31.
Rozes S. (2014). Sans création de valeur, la transition énergétique ne se fera pas. Rev Énergie, n° 618, p. 85-8.
Smil V. (2014). Énergies renouvelables. Pour la Science, n° 441, p. 64-9.
Tossa P., Roguet T., Thoren A.C., Piotrowski A. (2014). Potentiel génotoxique des nanomatériaux : où en est la recherche ? Environ Risque Santé, n° 13, p. 113-22.
Sources et émissions
Masiol M., Harisson R.M. (2014). Aircraft engine exhaust emissions and other airport-related contributions to ambient air pollution: A review. Atmos Environ, n° 95, p. 409-55.
Taiwo A.M., Harrison R.M., Shi Z. (2014). A review of receptor modelling of industrially emitted particulate matter.Atmos Environ n° 97, p. 109-20.
Taiwo A.M., Harrison R.M., Shi. Z. (2014). A review of receptor modelling of industrially emitted particulate matter. Atmosph Environ, n° 97, p. 109-20.
Plachinski S.D., Holloway T., Meier P.J. et al. (2014). Quantifying the emissions and air quality co-benefits of lower-carbon electricity production. Atmosph Environ, n° 94, p. 180-91.
Lund M.T., Bernstein T.K., Heyes C. et al. (2014). Global and regional climate impacts of black carbon and co-emitted species from the on-road diesel sector. Atmosph Environ, n° 98, p. 50-8.
Masiol M., Harrison R.M. (2014). Aircraft engines exhaust emissions and other airport-related contribution to ambient air pollution. Atmosph Environ, n° 95, p. 409-55.
Hamaoui-Lagel L., Meleux F., Beekmann M. et al. (2014). Improving ammonia emissions in air quality modelling for France. Atmosph Environ, n°92, p. 584-95.
Émissions à l’intérieur des locaux
Alliot F., Moreau-Guigon E., Bourges C. et al. (2014). A multi-residue method for characterization of endocrine disruptors in gaseous and particulate phases of ambient air. Atmos Environ, n° 92, p. 1-8.
Laiman R., He C., Mazaheri M. et al. (2014). Characteristics of ultrafine particle sources and deposition rates in primary school classrooms. Atmos Environ,n° 94, p. 28-35.
MacNeill M., Kearney J., Wallace L. et al. (2014). Quantifying the contribution of ambient and indoor-generated fine particles to indoor air in residential environments. Indoor Air, n° 24(4), p. 362-75.
Collignan B., Powaga E. (2014). Procedure for the characterization of radon potential in existing dwellings and to assess the annual average indoor radon concentration. Journal of Environmental Radioactivity, n° 137, p. 64-70.
Berry S., Whaley D., Davidson K., Saman W. (2014). Near zero energy homes. What do users think? Energy policy, n° 73, p. 127-137.
Derbez M., Berthineau B., Cochet V. et al.(2014). A 3-year followup of indoor air quality and comfort in two energy-efficient houses. Build Environ, n°82, p. 388-99.
Habre R., Coull B., Moshler E. et al. (2014). Sources of indoor air pollution in New York City residences of asthmatic children. J Expo Sci Environ Epidemiol, n°24, p. 269-78.
Kim J.T., Yu C.W.F. (2014). Hazardous materials in buildings. Indoor Built Environ, n° 23, p. 44-61.
Kim S., Osmond P. (2014). Analysing green building rating tools for healthcare buildings from the building user’s perspective. Indoor Built Environ, n° 23, p. 757-66.
Nazaroff. W.W. (2014). Illumination, lighting technologies and indoor environment quality. Indoor Air, n° 24, p. 225-6.
Qian H., Xheng X., Zhou L. et al.(2014). A survey investigation of the associated effect of using air conditioning equipment on children’s health in Nanjing. Indoor Built Environ, n°23, p. 284-92.
Ramos T., Stephens B. (2014). Tools to improve built environment data collection for microbial ecology investigations. Build Environ, n° 81, p. 243-57.
Tran D.T., Alleman L.Y., Codeville P., Galloo D.C. (2014). Indoor-outdoor behavior and sources of size-resolved airborne particles in French classrooms. Build Environ, n° 81, p. 183-91.
Ucci M., Yu C.W.F. (2014). Low-carbon buildings, health and well-being: current perspectives and critical challenges. Indoor Built Environ, n° 23, p. 335-9.
Verdier T., Coutand M., Bertron A., Roques C. (2014). A review of indoor microbial growth across building materials and sampling and analysis methods. Build Environ, n° 80, p. 136-49.
Immission-exposition
Do D.H., van Langenhove H., Chigbo S.I. et al. (2014). Exposure to volatile organic compounds: Comparison among different transportation modes.Atmos Environ, n° 94, p. 53-62.
Sanderson P., Delgado-Saborit J.M., Harrison R.M. (2014). A review of chemical and physical characterisation of atmospheric metallic nanoparticles.Atmos Environ, n° 94, p. 353-65.
Batterman S., Chambliss S., Isakov V. (2014). Spatial resolution requirements for traffic-related air pollutant exposure evaluations. Atmos Environ, n° 94, p. 518-28.
Keuken M.P., Moerman M., Jonkers J. et al. (2014). Impact of inland shipping emissions on elemental carbon concentrations near waterways in The Netherlands. Atmos Environ, n° 95, p. 1-9.
Valach A.C., Langford B, Nemitz E. et al. (2014). Concentrations of selected volatile organic compounds at kerbside and background sites in central London. Atmos Environ, n° 95, p. 456-67.
Ragettli M.S., Ducret-Stich R.E., Foraster M. et al. (2014). Spatio-temporal variation of urban ultrafine particle number concentrations. Atmos Environ, n° 96, p. 275-83.
Yusà V., Coscollà C., Millet M. (2014). New screening approach for risk assessment of pesticides in ambient air. Atmos Environ, n° 96, p. 322-30.
Goel A., Kumar P. (2014). A review of fundamental drivers governing the emissions, dispersion and exposure to vehicle-emitted nanoparticles at signalised traffic intersections.Atmos Environ, n° 97, p. 316-31.
Van Ryswyk K., Wheeler A.J., Wallace L. et al. (2014). Impact of microenvironments and personal activities on personal PM2,5 exposures among asthmatic children. J Expo Sci Environ Epidemiol, n° 24, p. 260-8.
Wu C.D., Mac Naughton P., Melly S. et al. (2014). Mapping the vertical distribution of population and particulate air pollution in a near-highway urban neighborhood: implications for exposure assessment. J expo Sci Environ Epidemiol, n° 24, p. 297-304.
Sanderson P., Delgado-Sabori J.M., Harrison R.M. (2014). A review of chemical and physical characterization of atmospheric metallic nanoparticles. Atmosph Environ, n° 94, p. 353-65.
Ragettli M.S., Ducret-Stich R.E., Foraster M. et al. (2014). Spatio-temporal variation of urban ultrafine particle number concentrations. Atmosph Environ, n° 96, p. 275-83.
Lacressionniere G., Peuch V.H., Vautard R. et al. (2014). European air quality in the 2030s and 2050s: impacts of global and regional emissions trends and of climate change. Atmosph Environ, n° 92, p. 348-58.
Gueirreiro C.B.B., Foltescu V., De Leeuw F. (2014). Air quality status and trends in Europe. Atmosph Environ, n° 98, p. 376-84.
Cyrys J., Peters A., Soentgen J., Wichmann H.E. (2014). Low emissions zones reduce PM10 mass concentrations and diesel soot in German cities. J Air Waste Manag, n° 64(4), p. 481-7.
Santé
Pascal M., Falq G., Wagner V. et al. (2014). Short-term impacts of particulate matter (PM10, PM10–2.5, PM2.5) on mortality in nine French cities.Atmos Environ, n° 95, p. 175-84.
Kuo P-H., Tsuang B-J., Chen C-J. et al. (2014). Risk assessment of mortality for all-cause, ischemic heart disease, cardiopulmonary disease, and lung cancer due to the operation of the world's largest coal-fired power plant.Atmos Environ, n° 96, p. 117-24.
Hu H., Ha S., Roth J. et al. (2014). Ambient air pollution and hypertensive disorders of pregnancy: A systematic review and meta-analysis. Atmos Environ, n° 97, p. 336-45.
Bell M.L., Zanobetti A., Dominici F. (2014). Who is more affected by ozone pollution? A systematic review and meta-analysis. Am J Epidemiol, n° 180(1), p. 15-28.
Berhane K., Zhang Y., Salam M.T. et al. (2014). Longitudinal effects of air pollution on exhaled nitric oxide: the Children’s Health Study. Occup. Environ Med, n° 71, p. 507-13.
Hampel R., Ruckert R., Yli-Tuomi T. et al. (2014). Impact of personally measured pollutants on cardiac function. Intern J Hyg Environ Health, n° 217, p. 460-4.
Ranzi A., Porta D., Badaloni C. et al. (2014). Exposure to air pollution and respiratory symptoms during the first 7 years of life in an Italian birth cohort. OccupEnviron Med, n° 71, p. 430-6.
Savitz D.A., Bobb J.F., Carr J.L. et al. (2014). Ambient fine particulate matter, nitrogen dioxide and term birth weight in New York, New York. Am J Epidemiol, n°179, p. 457-66.
Roberts A., Lyall K., Laden F. et al. (2013). Perinatal air pollutant exposures and autism spectrum disorder in the children of Nurses’Health Study II participants. Environ Health Perspect, n° 121, p. 978-84.
Vawda S., Mansour R., Takeda A. et al. (2014). Associations between inflammatory and immune response genes and adverse respiratory outcomes following exposure to outdoor air pollution: a HuGE systematic review. Am J Epidemiol, n° 179, p. 432-42.
Climat
Grote M., Williams I., Preston J. (2014). Direct carbon dioxide emissions from civil aircraft. Atmos Environ, n° 95, p. 214-24.
Chivian E. (2014). Why doctors and their organisations must help tackle climate change. Brit MedJ, n° 348, p. 20-1