Mark RichardsonUniversity of Leeds · Institute for Climate and Atmospheric Science (ICAS)
Mark Richardson
Ph.D.
About
10
Publications
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Introduction
As the technical head of Centre for Environmental Modelling And Computation.(CEMAC) I liaise closely with researchers when they apply for funding helping them identify technical aspects of their work that can be carried out by members of the CEMAC team.
High performance computing, automated data management; extensive Python and R tool development and data visualization.
Air quality, volcanic emissions, multinational project management tool, delivery of specialised forecasting techniques.
Additional affiliations
Education
October 1997 - September 2001
October 1982 - June 1986
Publications
Publications (10)
Aerosol radiative forcing uncertainty affects estimates of climate sensitivity and limits model skill in terms of making climate projections. Efforts to improve the representations of physical processes in climate models, including extensive comparisons with observations, have not significantly constrained the range of possible aerosol forcing valu...
Aerosol radiative forcing uncertainty affects estimates of climate sensitivity and limits model skill at making climate projections. Efforts to improve the representations of physical processes in climate models, including extensive comparisons with observations, have not significantly constrained the range of possible aerosol forcing values. A far...
Aerosol radiative forcing uncertainty affects estimates of climate sensitivity and limits model skill at making climate projections. Efforts to improve the representations of physical processes in climate models, including extensive comparisons with observations, have not significantly constrained the range of possible aerosol forcing values. A far...
Quantifying forcings from anthropogenic perturbations to the Earth system (ES) is important for understanding changes in climate since the pre-industrial (PI) period. Here, we quantify and analyse a wide range of present-day (PD) anthropogenic effective radiative forcings (ERFs) with the UK's Earth System Model (ESM), UKESM1, following the protocol...
We document and evaluate the aerosol schemes as implemented in the physical and Earth system models, the Global Coupled 3.1 configuration of the Hadley Centre Global Environment Model version 3 (HadGEM3-GC3.1) and the United Kingdom Earth System Model (UKESM1), which are contributing to the sixth Coupled Model Intercomparison Project (CMIP6). The s...
As one of the main drivers for climate change, it is important to understand changes in anthropogenic aerosol emissions and evaluate the climate impact. Anthropogenic aerosols have affected global climate while exerting a much larger influence on regional climate by their short lifetime and heterogeneous spatial distribution. In this study, the eff...
Abstract. We document and evaluate the aerosol schemes as implemented in the physical and Earth system models, HadGEM3-GC3.1 (GC3.1) and UKESM1, which are contributing to the 6th Coupled Model Intercomparison Project (CMIP6). The simulation of aerosols in the present-day period of the historical ensemble of these models is evaluated against a range...
Abstract. Quantifying forcings from anthropogenic perturbations to the Earth System (ES) is important for understanding changes in climate since the pre-industrial period. In this paper, we quantify and analyse a wide range of present-day (PD) anthropogenic climate forcings with the UK's Earth System Model (ESM), UKESM1, following the protocols def...
A new data structuring has been implemented which improves the performance of the aerosol subsystem in the UK Met Office Unified Model. Smaller amounts of atmospheric data, in the arrangement of segments of atmospheric columns, are handed to the aerosol sub-processes. The number of columns that are in a segment can be changed at runtime and is tune...
TOMCAT-GLOMAP is software that is used to model global atmospheric chemistry and aerosol processes in three dimensions. The model is written in FORTRAN and has evolved from originally running on vector machines to the current parallel code. It is widely used by the UK atmospheric science community on the Cray XE6 UK national computing resource (HEC...