Person

Dr Timothy Allott

Tim is a physical geographer with expertise in environmental hydrology, palaeolimnology, aquatic and wetland environments. His research focuses on anthropogenic impacts on upland landscapes and the management and restoration of degraded freshwater and peatland landcapes.

Keywords: 
Environment, Resilience, Water, Evaluation, Peat, Pollution, Waste, Sustainability, Teaching, Education

Person

Dr Stephen Boult

Hydrology and hydrochemistry, is studied at all scales from laboratory simulation where conditions are wholly controlled to field scale where, though uncontrolled, conditions are monitored.  This work has been developed through the founding of a University spin out company Intelisys Ltd, which develops commercial monitoring equipment.

Keywords: 
Water, Chemistry, Hydrochemistry, Business, Instrumentation, Monitoring, Carbon, Environment, Climate change, Climate, Networks, Evaluation, Pollution, Governance, Sustainability, Teaching, Education

Person

Dr Sarah Lindley

I am a quantitative geographer specialising in the use of geospatial analysis to understand the outcomes of human-environment interactions. My main research interests are associated with urban air pollution and climate adaptation. Much of my research activity is motivated by the need to develop sustainable responses to current and future environmental challenges. I therefore often work in multi-disciplinary teams and in collaboration with stakeholders.

Keywords: 
Climate, Climate change, Carbon, Sustainability, Green infrastructure, Cities, Resilience, Urban heat island, Pollution

Person

Prof Raymond Agius

I am the Director of the Centre for Occupational and Environmental Health, and lead the Occupational and Environmental Health Research Group within the School of Translational Medicine.

Keywords: 
Environment, Health, Waste, Pollution, Health and safety, Workplace engagement, Climate, Cities, Society

Person

Dr Paul Williams

Keywords: 
Pollution, Climate, Monitoring

Person

Dr Nicholas Bryan

The main research area of my group is Environmental Chemistry, and in particular, the interaction of radionuclides with natural systems. Current projects involve the study of the interaction of these elements with natural colloids, including humic substances. Colloids have a high affinity for many pollutants, and can act as a vector for their migration in the environment. Lab experiments are used to study sorption and desorption mechanisms, and are backed up by work involving real samples from the field.

Keywords: 
Environment, Chemistry, Metals, Pollution, Nuclear energy, Radioactivity, Energy, Soil, Water, Geology, Waste, Impact, Nuclear waste, Sustainability, Teaching, Education

Person

Dr Keith White

I am interested in understanding and managing the water quality and ecology of urban watercourses, including preventing the formation of potentially harmful ‘blooms’ of blue-green algae. Work with an industrial partner is examining the relationship between past and present water quality and the changes in the ecology of Salford Quays – a restored and redeveloped dock system near Media City, Greater Manchester.

Keywords: 
Metals, Water, Pollution, Waste, Mining, Ecology, Environment, Plants, Biology, Animals, Sustainability, Teaching, Education

Person

Prof Jonathan Lloyd

I currently lead a multidisciplinary geomicrobiology group working at the interface between biology and geology. Our research focuses on the mechanisms of microbial metal reduction, with emphasis on the environmental impact and biotechnological applications of metal-reducing bacteria. Current activities are supported by funds from NERC, BBSRC, EPSRC, the EU and industry.

Keywords: 
Geology, Biology, Ecology, Metals, Materials, Nuclear waste, Radioactivity, Environment, Waste management, Bioremediation, Pollution, Chemistry, Sustainability, Teaching, Education

Person

Dr James Rothwell

I am interested in the stores, behaviour, fate and transport of pollutants in the environment. Much of my work addresses the hydrological and biogeochemical processes that affect trace metal and nutrient cycling. I work in a range of systems including peat bogs, forests and urban environments. My research involves, catchment scale process work, laboratory and field experiments, analysis of spatial and temporal monitoring data, and GIS/statistical modelling.

Keywords: 
Environment, Pollution, Waste, Water, Biology, Chemistry, Biochemistry, Metals, Ecology, Peat, Trees, Biodiversity, Cities, Planning, Buildings, Geography, Geographical Information Systems, Information technology, Sustainability, Teaching, Education

Person

Dr James Allan

One of the University's growing number of Sustainability Enthusiasts. Find out more about the initiative here.

The core theme of my research is the measurement of atmospheric aerosols. Particulate matter is produced from both natural and anthropogenic sources and is known to have significant effects on both health and climate. However, the processes governing their lifecycle and effects are poorly understood, which hampers our predictive capability of them and their impacts.

Keywords: 
Sustainability enthusiast, Workplace engagement, Engagement, Aerosols, Climate, Environment, Weather, Evaluation, Pollution, Particles, Health, Cities, Transport, Emissions, Carbon, Energy, Fossil fuels, Spectroscopy

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