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Home > Research > Researchers > Oliver Wild
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Oliver Wild supervises 2 postgraduate research students. Some of the students have produced research profiles, these are listed below:

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Dr Oliver Wild

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Oliver Wild

LEC Building

Lancaster University

Bailrigg

Lancaster LA1 4YQ

United Kingdom

Tel: +44 1524 594871

Location: B508-LEC1

Research overview

Oliver's interests are in atmospheric composition, chemistry and transport, and in understanding how natural and anthropogenic emissions of trace gases affect regional air quality and global climate.

Research

He has spent more than 20 years developing and applying numerical models of atmospheric processes over a range of scales from urban to global, and has published more that 65 refereed journal papers. His recent research in atmospheric sciences has focussed on:

  • Intercontinental transport of ozone and its precursors. This research informs air quality policy through the UN-ECE task force on Hemispheric Transport of Air Pollution (HTAP).
  • Indirect climate impacts of short-lived gases such as NOx and CO through their influence over tropospheric chemistry. This has involved contributing to the last three IPCC climate assessment reports.
  • Atmosphere-biosphere interactions and the role of atmospheric chemistry in the Earth System. Recent research has focussed on biogenic emissions of isoprene and the consequent effects of biofuel cultivation on human mortality and crop yields in Europe, and on ozone dry deposition processes under the NERC Atmospheric Chemistry in the Earth System (ACITES) network.
  • Anthropogenic and meteorological factors controlling surface ozone and air quality over East Asia. This builds on almost 10 years experience working in the US and Japan and ongoing collaboration with the Chinese Academy of Sciences in Beijing on air quality.
  • Characterising and reducing uncertainty in atmospheric chemistry-transport models. This research has contributed to a number of recent international model intercomparison projects, including ACCENT, HTAP and CCMI.

Oliver is a Fellow of the Royal Meteorological Society, and was a member of council 2010-2013. He is an editor of Atmospheric Science Letters, a journal of the Royal Meteorological Society, and Scientific Online Letters on the Atmosphere, a journal of the Meteorological Society of Japan. He currently serves as a NERC Peer Review College member.

PhD Opportunities: I currently have one PhD position available (application deadline 4th Feb 2015) on Mitigation and Control of Urban Air Pollution in China.

Teaching

Oliver's teaching includes first and second year undergraduate courses on Atmosphere, Weather and Climate that provide a grounding in atmospheric science and meteorology for students on BSc and MSci degree schemes across the Lancaster Environment Centre. He contributes lectures on air quality and on the chemistry and transport of atmospheric pollutants to undergraduate and Masters courses. He also supervises undergraduate and masters dissertation topics focussing on atmospheric chemistry and transport, air quality and climate.

Roles

Oliver is an undergraduate Admissions Tutor for Environmental Science degree schemes in LEC. He is also a member of the LEC outreach team and is involved with maintaining the departmental web site.

PhD supervision

One PhD project currently available (deadline 4th Feb 2015):
Mitigation and Control of Urban Air Pollution in China

Research Interests

My research involves developing and using numerical models of atmospheric composition and chemistry to explore how natural and anthropogenic emissions of trace gases affect regional air quality and global climate. My principal interests are in the intercontinental transport of ozone and its precursors, meteorological influences on tropospheric composition, and the indirect climate impacts of short-lived gases such as NOx and CO. I am also interested in quantifying the uncertainties in current models of global atmospheric composition and climate, and in modelling the interactions and feedbacks in the wider Earth System that involve tropospheric chemistry.

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