Revista Clima 298
Medio especializado en climatización, preservación del medio ambiente, sustentabilidad en arquitectura y en sistemas de confort e industriales. Promoción de las energías alternativas. Un medio moderno que difunde noticias específicas para estar al día y no perder la dinámica del mundo de hoy. Único medio que publica una encuesta anual sobre la comercialización de equipos de confort climático, muy requerida por las empresas del país y del exterior. 47 años de publicación ininterrumpida.
Medio especializado en climatización, preservación del medio ambiente, sustentabilidad en arquitectura y en sistemas de confort e industriales. Promoción de las energías alternativas. Un medio moderno que difunde noticias específicas para estar al día y no perder la dinámica del mundo de hoy. Único medio que publica una encuesta anual sobre la comercialización de equipos de confort climático, muy requerida por las empresas del país y del exterior. 47 años de publicación ininterrumpida.
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
ASHRAE
Referencias
1. Burke, M., A. Driscoll, J. Heft-Neal, J. Xue. 2021.
“The changing risk and burden of wildfire in the
United States.” Proceedings of the National Academy
of Sciences 118(2).
2. Fann, N., B. Alman, R. Broome, G. Morgan, et al.
2018. “The health impacts and economic value
of wildland fire episodes in the U.S.: 2008-2012.”
Science of the Total Environment 601 – 611:802
– 809.
3. Matz, C., M. Egyed, G. Xi, J. Racine, et al. 2020.
“Health impact analysis of PM2.5 from wildfire
smoke in Canada (2013 – 2015, 2017 – 2018).”
Science of the Total Environment 725:138506.
4. National Interagency Coordination Center. 2022.
“Wildland Fire Summary and Statistics Annual
Report 2021.” National Interagency Coordination
Center. https://tinyurl.com/4kndjs6w
5. Groß, S.; M. Esselborn, B. Weinzierl, M. Wirth, et
al. 2013. “Aerosol classification by airborne high
spectral resolution lidar observations.” Atmospheric
Chemistry and Physics 13: 2487 – 2505.
6. Vincente, F., M. Cesari, A. Serrano. 2013. “The impact
of fire on terrestrial tardigrade biodiversity: a
first case-study from Portugal.” Journal of Limnology
73(s1):152 – 159.
7. O’Dell, K., R. Hornbrook, W. Permar, E. Levin, L.
Garofalo. 2020. “Hazardous air pollutants in fresh
and aged western US wildfire smoke and implications
for long-term exposure.” Environmental
Science and Technology 54(19):11838 – 11847.
8. Nazarenko, Y., D. Pal, P. Ariya. 2021. “Air quality
standards for the concentration of particulate
matter 2.5, global descriptive analysis.” Bull World
Health Organization 1:99(2):125 – 137D.
9. Ryan, R., J. Silver, R. Schofield. 2021. “Air quality
and health impact of 2019 – 20 Black Summer
megafires and COVID-19 lockdown in Melbourne
and Sydney, Australia.” Environmental Pollution
274:116498.
10. WHO. 2021. “WHO Global Air Quality Guidelines:
Particulate Matter (PM2.5 and PM10), Ozone, Nitrogen
Dioxide, Sulfur Dioxide and Carbon Monoxide.”
World Health Organization.
11. U.S. EPA. 2019. “Wildfire Smoke: a Guide for Public
Health Officials.” U.S. Environmental Protection
Agency.
12. Arriagada, N., A. Palmer, D. Bowman, G. Morgan,
et al. 2020. “Unprecedented smoke-related health
burden associated with the 2019 – 20 bushfires
in eastern Australia.” Medical Journal of Australia.
213(6):282 – 283.
13. Cascio, W. 2018. “Wildland fire smoke and human
health.” Science of the Total Environment 624:586
– 595.
14. Kunzli, N., E. Avol, J. Wu, W. Gauderman, et al.
2006. “Health effects of the 2003 Southern California
wildfires on children.” American Journal
of Respiratory and Critical Care Medicine
174(11):1221 – 1228.
15. Liu, L., S. Oza, D. Hogan, J. Perin, et al. 2015.
“Global, regional, and national causes of child
mortality in 2000-13, with projections to inform
post-2015 priorities: an updated systematic analysis.”
The Lancet 385(9966):430 – 440.
16. Reid, C., E. Considine, G. Watson, D. Telesca, et
al. 2019. “Associations between respiratory health
and ozone and fine particulate matter during a
wildfire event.” Environment International 129:291
– 298.
17. Aguilera, R., T. Corringham, A. Gershunov, T. Benmarhnia.
2021. “Wildfire smoke impacts respiratory
health more than fine particles from other
sources: observational evidence from Southern
California.” Nature Communications 12(1493).
18. Sacks, J., L. Stanek, T. Luben, D. Johns, et al.
2011. “Particulate matter-induced health effects:
who is susceptible?” Environmental Health Perspectives
119(4):446 – 454.
19. Holstius, D., C. Reid, B. Jesdale, R. Morello-Frosch.
2012. “Birth weight following pregnancy
during the 2003 Southern California wildfires.”
Environmental Health Perspectives. 120(9).
20. Li, X., S. Huang, A. Jiao, X. Yang, et al. 2017. “As-
• 38 •