SEARCH

SEARCH BY CITATION

References

  • ASHRAE. (2010) Ventilation for Acceptable Air Quality ASHRAE/ANSI Standard 62.1-2010, Atlanta, GA, American Society of Heating Refrigerating and Air-Conditioning Engineers.
  • Bakó-Biró, Zs, Clements-Croome, D.J., Kochhar, N., Awbi, H.B. and Williams, M.J. (2012) Ventilation rates in schools and pupils' performance, Build. Environ., 48, 215223.
  • Doney, S.C., Fabry, V.J., Feely, R.A. and Kleypas, J.A. (2009) Ocean acidification: the other CO2 problem, Ann. Rev. Mar. Sci., 1, 169192.
  • Erdmann, C.A. and Apte, M.G. (2004) Mucous membrane and lower respiratory building related symptoms in relation to indoor carbon dioxide concentrations in the 100-building BASE dataset, Indoor Air, 14(Suppl. 8), 127134.
  • George, K., Ziska, L.H., Bunce, J.A. and Quebedeaux, B. (2007) Elevated atmospheric CO2 concentration and temperature across an urban-rural transect, Atmos. Environ., 41, 76547665.
  • Haverinen-Shaughnessy, U., Moschandreas, D.J. and Shaughnessy, R.J. (2011) Association between substandard classroom ventilation rates and students' academic achievement, Indoor Air, 21, 121131.
  • IEA (2012) World Energy Outlook 2012 — Executive Summary, International Energy Agency, www.worldenergyoutlook.org.
  • IOM (2011) Climate Change, the Indoor Environment, and Health, Washington, DC, National Academies Press.
  • IPCC (2007) Climate Change 2007 — The Physical Science Basis, Intergovernmental Panel on Climate Change, New York, Cambridge University Press.
  • Jacobson, M.Z. (2010) Enhancement of local air pollution by urban CO2 domes, Environ. Sci. Technol., 44, 24972502.
  • Nazaroff, W.W. (2008) Climate change, building energy use, and indoor environmental quality, Indoor Air, 18, 259260.
  • Satish, U., Mendell, M.J., Shekar, K., Hotchi, T., Sullivan, D., Steufert, S. and Fisk, W.J. (2012) Is CO2 an indoor pollutant? Direct effects of low-to-moderate CO2 concentrations on human decision-making performance, Environ. Health Perspect., 120, 16711677.
  • Seppänen, O.A., Fisk, W.J. and Mendell, M.J. (1999) Association of ventilation rates and CO2 concentrations with health and other responses in commercial and institutional buildings, Indoor Air, 9, 226252.
  • Shendell, D.G., Prill, R., Fisk, W.J., Apte, M.G., Blake, D. and Faulkner, D. (2004) Associations between classroom CO2 concentrations and student attendance in Washington and Idaho, Indoor Air, 14, 333341.
  • Spengler, J.D. (2012) Climate change, indoor environments, and health, Indoor Air, 22, 8995.
  • Twardella, D., Matzen, W., Lahrz, T., Burghardt, R., Spegel, H., Hendrowarsito, L., Frenzel, A.C. and Fromme, H. (2012) Effect of classroom air quality on students' concentration: results of a cluster-randomized cross-over experimental study, Indoor Air, 22, 378387.
  • Von Pettenkofer, M.J. (1873) The Relations of the Air to the Clothes We Wear, the House We Live In, and the Soil We Dwell On, Hess, A. (translator). London, N. Trübner & Co.
  • Wargocki, P. and Wyon, D.P. (2007) The effects of moderately raised classroom temperatures and classroom ventilation rate on the performance of schoolwork by children (RP-1257), HVAC&R Res. 13, 193220.
  • Wayne, P., Foster, S., Connolly, J., Bazzaz, F. and Epstein, P. (2002) Production of allergenic pollen by ragweed (Ambrosia artemisiifolia L.) is increased in CO2-enriched atmospheres, Ann. Allergy Asthma Immunol., 88, 279282.