Claire Ryder : Dr Claire Ryder : UoR, Dept Of Meteorology

Dr Claire Ryder

Associate Professor and NERC Indendent Research Fellow

NEWS

Coarse and Giant Dust Observations

Read about my latest paper Coarse and giant particles are ubiquitous in Saharan dust export regions and are radiatively significant over the Sahara in my Departmental Blog article Desert Dust in the Atmosphere: Giant Particles, Giant Consequences

Research

Claire Ryder

I am an Associate Professor and hold a NERC Independent Research Fellowship. My research explores the role of Mineral Dust in the climate system, often with a focus on the size of dust particles and radiative properties, using in-situ observations such as aircraft measurements, as well as satellite retrievals and modelling approaches. I am also interested in biomass burning aerosol (smoke) from fires and other types of aerosols and their impacts, including the impacts of dust on solar energy generation. See my Research page for more information on past and current projects.

Please feel free to contact me if you are interested in collaborating, research positions or you are an undergrad or MSc student interested in a research project.

Find me on: Publons | Research Gate | Twitter:

Research Group

  • Alcide Zhao, PDRA working on the DAHLIA project (dust-climate interactions in East Asia)
  • Dhirendra Kumar, PDRA working on the DAHLIA project (dust-climate interactions in East Asia)
  • Liang Guo, PDRA working on the DAHLIA project (dust-climate interactions in East Asia)
  • Natalie Ratcliffe, PhD Student working on processes influencing dust transport and deposition, SCENARIO DTP funded, Met Office CASE award
  • Clement Bezier, Student internship partnered with Rolls Royce and ECMWF examining dust ingestion by aircraft engines at worldwide airports

Why do we care?

Aerosols, small particles in the atmosphere, such as dust, soot or pollution, can be found all over the world in varying amounts. One effect these particles have is to reflect sunlight back out to space. This can heat up the atmosphere, and cool or warm the surface of the planet, depending on the properties of the particles. Thus aerosols can have an impact on weather and climate. Small particles in the air also affect our air quality and health. Understanding these processes is not always straightforward or well understood. My research aims to improve our understanding and ability to model and predict these particles.

Have a look at some articles I've written for the department about aerosols in recent years.

Current Projects

  • DAHLIA: Dust-AtmospHere-Land Interactions in East Asia (Newton Fund)
  • MAPP: Metrology for Aerosol Optical Properties (EU Horizon 2020)
  • NERC Independent Research Fellowship: The Role of Coarse Mineral Dust Particles in the Climate System

Brief Univeresity Research Webpage

Aerosol Group Webpage