3. 3
• What are ultrafine particles (UFPs)?
• What are the sources of UFPs?
• What are the health effects of UFPs?
• How are UFPs measured?
• UFP trends
• What are the relevant legislation for UFPs?
Contents
4. 4
• Ultrafine particles (UFPs) defined as
particles with aerodynamic diameter
<100nm (PM0.1µm)
• Contribution to particle mass is small
but >90% of particles in air is in UFP
size range
• Particle number concentration (PNC)
per unit volume air (particles/cm3)
- PM10 and PM2.5 are measured in
terms of mass concentration
(µg/m3)
What are ultrafine particles?
Kwon et al., 2020
5. 5
• Reveals formation, history of particles
• Highly dynamic atmospheric
processes
Particle number size distribution
High temperature
processes
New particle
formation (NPF)
Minutes
Growth of nucleation
mode particles
Incomplete
combustion
Primary and
secondary particles
Days
Break up of
bulk materials,
re-suspension
Minutes to
hours
What are ultrafine particles?
7. 7
• Greater toxicity hypothesised
due to vast numbers, small
diameters, high surface area
• Deposition in bronchioles and
alveoli, greater potential to
diffuse into bloodstream
• Retention in lungs, increased
accumulation and potential for
interaction with cells and tissue
Why are we interested?
Kreyling et al. 2006
8. 8
• Condensation Particle Counter (CPC) to measure
particle number concentration (PNC)
(particles/cm3)
• Scanning Mobility Particle Sizer (SMPS) to
understand size distribution
• Others:
- Simpler portable instruments (PNC, mean size) –
accuracy ±30%
- Other metrics (surface area, mass)
How are ultrafine particles measured?
CPC
SMPS
9. 9
How are ultrafine particles measured?
London Honor Oak Park
Urban background
London Marylebone Road
Roadside (street canyon)
Chilbolton Observatory
Rural background
• European Committee
for Standardisation
(CEN) to publish
Technical Specification
for UFP measurements
• Environment
Agency’s MCERTS
performance
standard
Monitoring in the UK
10. 10
Ultrafine particle trends
Historical
• Limits to fuel sulphur as a key reason
for decline in past two decades
Temporal
• Generally follows road traffic diurnal
profile
AQEG, 2018 Historical PNC measurements at London Marylebone Road
AQEG, 2018 Diurnal profile of pollutants at London Marylebone
Road
11. 11
Ultrafine particle trends
Spatial
• Peak concentrations close to emission sources
• Background concentrations around 200m from
source
• Heterogeneous distribution
Relationship with other pollutants
• Association with road traffic
pollutants
• Slight difference compared to
PM10 and PM2.5 trends
Karner et al., 2010
12. 12
Existing
• No ambient air quality standards for UFP
• EU legislation – particle number emission
standards for new vehicles
- Not relevant for public UFP exposure
Relevant guidelines and legislation
Future
• WHO recommendation on UFP in next
update of air quality guidelines?
- 2005 update stated that epidemiological
evidence for UFPs was insufficient to
develop a guideline value
WHO, 2006
14. 14
Air Quality Expert Group (2018) Ultrafine Particles (UFP) in the UK. Available at: https://uk-air.defra.gov.uk/assets/documents/reports/cat09/1807261113_180703_UFP_
Report_FINAL_for_publication.pdf [Accessed April 2020]
Carslaw, D.C., Taylor, P.J., Analysis of air pollution data at a mixed source location using boosted regression trees. Atmospheric Environment 43, 3563-3570
Chen, K. Schneider, A., Cyrys, J., Wolf, K. Meisinger, C., Heier, M., von Scheidt, W., Kuch, B., Pitz, M., Peters, A., Breitner, S. (2020) Hourly Exposure to Ultrafine
Particle Metrics and the Onset of Myocardial Infarction in Augsburg, Germany. Available at: https://ehp.niehs.nih.gov/doi/pdf/10.1289/EHP5478 [Accessed April 2020]
Defra, UK Air Information Resource Automatic Urban and Rural Network (AURN) Available at: https://uk-air.defra.gov.uk/networks/network-info?view=aurn
[Accessed April 2020]
Health Effects Institute (2013) Understanding the Health Effects of Ambient Ultrafine Particles. Available at: https://www.healtheffects.org/system/files/Perspectives3.pdf
[Accessed April 2020]
Karner AA, Eisinger DS, Niemeier DA. 2010. Near roadway air quality: Synthesizing the findings from real world data. Environ Sci Technology 44:5334–5344.
Kwon, H-S, Ryu, M.H., Carlsten, C. (2020) Ultrafine particles: unique physicochemical properties relevant to health and disease, Experimental & Molecular
Medicine 52: 318-328
Morawska, L. & Wierzbicka, A. & Buonanno, G. & Cyrys, J. & Schnelle-Kreis, J. & Kowalski, M. & Riediker, M. & Birmili, W. & Querol, X. & Cassee, F. & Yildirim, A.
& Elder, A. & Yu, I.J. & Ovrevik, J. & Hougaard, K. & Loft, S. & Schmid, O. & Stöger, T. & Peters, A. and Lucht, S. (2019) Ambient ultrafine particles: evidence for
policy makers. Available at: https://efca.net/files/WHITE%20PAPER-UFP%20evidence%20for%20policy%20makers %20(25%20OCT).pdf [Accessed April 2020]
Ohlwein, S., Kappeler, R., Kutlar Joss, M., Kunzli, N., Hoffmann, B. (2019) Health effects of ultrafine particles: a systematic literature review update of epidemiological
evidence. International Journal of Public Health 64(4): 547-559. Available at: https://www.ncbi.nlm.nih.gov/pubmed/30790006 [Accessed April 2020]
World Health Organization (2006) WHO Air quality guidelines for particulate matter, ozone, nitrogen dioxide and sulfur dioxide global update 2005 summary
of risk assessment
References