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Personal profile

Scholarly biography

Dr Niall Burnside is a Reader in Geoinformatics and Biogeography and the PGR Coordinator for Post Graduate Research Students in School of Environment & Technology. He is a member of the Centre for Aquatic Environments, and the lead researcher in the use of UAVs (AKA Drones) within physical and environmental geography. 

Dr Burnside’s research primarily links the disciplines of Geoinformatics with Biogeography, Ecology and Environmental Management. He formerly worked in practical conservation management and now has over 20 years’ of consultancy and research experience in the application of GIS and Remote Sensing specialising in landscape ecology, biogeography and ecological studies. More recent research has a focus on small Unmanned Aircraft Systems (sUAS) in landscape and ecological studies.

Dr Burnside has successfully supervised nine PhD students, one MPhil student and is currently supervising a further three PhD students. He has authored well over 40 scientific publications and presented his research to academics, professionals, government departments and the public internationally.

Dr Burnside has worked closely with a range of environmental organisations including: Natural England, Environment Agency, DEFRA, South Downs National Park, Inshore Fisheries Conservation Authority, Earthwatch, Darwin Initiative, and British Council.

Approach to teaching

I particularly enjoy skill-based teaching and learning, as evidenced by my involvement in fieldwork modules, applications in GIS, spatial data analysis and geostatistics. I like to use some of my own published research and case studies to help students to see the practical, applied and novel aspects of these subject areas.

It is clear that students benefit from the practical and skills-based nature of the modules that I teach on, and it is rewarding to see them include these skills in dissertations and further study. I believe that the development of these advanced skills can help set our graduates apart from others in the geography and environmental field.

The rapidly developing geoinformatics field presents many opportunities for students to engage with state-of-the-art equipment, methods and techniques such as small Unmanned Aircraft Systems (sUAS); differentially corrected GPS; mobile technologies and advanced geostatistical modelling. I believe this interaction, learning and knowledge will help prepare our graduates for future employment opportunities.

Research interests

My research to date has centred on a range of biogeographical and landscape systems (unimproved grasslands, ancient woodlands, intertidal and marine ecology and some specific species groups). Common to these research activities is the use of GIS, Remote Sensing (e.g. sUAS) and geostatistics to find solutions to environmental problems and help direct policy.

I have been fortunate to interact and work with a range of professionals in the ecological and environmental field over the years from organisations such as: Natural England, Environment Agency, DEFRA, South Downs National Park, Inshore Fisheries Conservation Authority.

I believe this involvement and interaction has helped to maintain my strong interest in and desire to identify solutions to the many ecological and environmental issues facings us today.

Current research projects:

•The potential of small-Unmanned Aircraft Systems for nutritional stress assessment of mountain ungulates: Iberian Ibexes (Universitat Autònoma de Barcelona (UAB))

•Effective management of the invasive aquatic plant Australian Swamp Stonecrop (Crassula helmsii) in wetlands: The use of sUAS and multi-spectral remote sensing for monitoring. (Environment Agency)

•The use of small Unmanned Aircraft Systems (sUAS) and structure-from-motion (SfM) to understand the intertidal processes in managed realignment: Medmerry nature reserve. (Environment Agency)

•Linking soils and human health: Geospatial analysis of podoconiosis occurrence and cause in Ethiopia and Cameroon (National Institute for Health Research)

Previous research projects:

•The development of small Unmanned Aircraft Systems (sUAS) for the detection of unimproved grassland systems. (High Weald Area of Outstanding Natural Beauty).

•LiDAR-based modelling and visualisation of managed retreat scenarios for coastal planning: an example from the southern UK. (Cuckmere Estuary)

•Marine Habitat Mapping using acoustic multibeam data - backscatter and bathymetry (Inshore Fisheries Conservation Authority).

•GIS development work for State of the Park Report, (South Downs National Park Authority)

•Restoring biodiversity to coastal wetlands, Estonia (Earthwatch & Darwin Initiative)

•GIS habitat suitability modelling for BAP target habitats in the proposed South Downs National Park. (Natural England)

•Saline lagoon baseline and mapping survey, Sussex (Natural England)

Education/Academic qualification

Bachelor

PhD

Keywords

  • G Geography (General)
  • GB Physical geography
  • GE Environmental Sciences

Fingerprint Fingerprint is based on mining the text of the person's scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

  • 3 Similar Profiles
coastal wetland Earth & Environmental Sciences
hydroelectric power Earth & Environmental Sciences
community composition Earth & Environmental Sciences
grassland Earth & Environmental Sciences
microrelief Agriculture & Biology
plant community Earth & Environmental Sciences
habitats Agriculture & Biology
river Earth & Environmental Sciences

Network Recent external collaboration on country level. Dive into details by clicking on the dots.

Research Output 2001 2018

The evolution of embryonic creek systems in a recently inundated large open coast managed realignment site

Dale, J., Burgess, H., Burnside, N., Kilkie, P., Nash, D. & Andrew, C. 2 May 2018 1, 1, p. 16-33 18 p.

Research output: Contribution to journalArticle

Open Access
File
managed realignment
coast
DGPS
intertidal environment
drainage

The Effects of Run-of-River Hydroelectric Power Schemes on Fish and Invertebrate Community Composition in Temperate Streams and Rivers

Bilotta, G., Burnside, N., Turley, M., Gray, J. & Orr, H. 1 May 2017 p. 0-0 1 p.

Research output: Contribution to conferenceAbstract

Open Access
File
hydroelectric power
community composition
invertebrate
fish
river

The effects of run-of-river hydroelectric power schemes on invertebrate community composition in temperate streams and rivers

Bilotta, G., Burnside, N., Turley, M., Gray, J. & Orr, H. 3 Feb 2017 12, 2

Research output: Contribution to journalArticle

Open Access
File
hydroelectric power
community composition
invertebrate
river
ecological impact
Open Access
File
NDVI
aircraft
grassland
vegetation index
pasture

A sediment-specific family-level biomonitoring tool to identify the impacts of fine sediment in temperate rivers and streams

Turley, M., Bilotta, G., Chadd, R., Extence, C., Brazier, R., Burnside, N. & Pickwell, A. 20 Jun 2016 70, p. 151-165 15 p.

Research output: Contribution to journalArticle

Open Access
File
biomonitoring
river
sediment
macroinvertebrate
family