Dr Rob Bryant

PhD

School of Geography and Planning

Reader in Dryland Processes

Rob Bryant profile photo
Profile picture of Rob Bryant profile photo
R.G.Bryant@Sheffield.ac.uk
+44 114 222 7966
F6, Geography and Planning Building

Full contact details

Dr Rob Bryant
School of Geography and Planning
F6
Geography and Planning Building
Winter Street
Sheffield
S3 7ND
Profile
I initially trained as an Earth Scientist with a BSc (hons) in Geology, followed by a PhD at PRIS/Department of Geography, University of Reading investigating the "sedimentology and hydrochemistry of the Chott el Djerid, Tunisia using remote sensing" - which allowed me to enter the world of Earth Observation. Post-PhD I worked as a Research Assistant at Reading working on the EU TREES Project [pre-processing AVHRR data for the Amazon) and then spent a summer in Iceland working on a project focused on monitoring aeolian processes. I then gained Postdoctoral Fellowship and Lectureship positions in Environmental Science at the University of Stirling where my research broadened into the use of airborne remote sensing and field spectroradiometry. I then moved to a Lectureship in Applied Remote Sensing at Sheffield - and in doing so returned to researching dryland systems and processes. I have now been at Sheffield for over 25 years, and in that time have been promoted to Senior Lecturer and Reader in Earth Observation.
Research interests
As an Earth Observation (EO) Scientist, I am interested in Landscape Dynamics and Earth/Atmosphere interactions. I'm particularly interested in the global dust cycle - with emphasis on the impacts that geomorphological, hydrological and ecological processes have on dust fluxes and Sand & Dust Storms across the globe. My research has included the first regional and continental scale mapping and characterisation of dust sources and emission using EO. In addition, I've championed and demonstrated the use  of EO data (including near and far surface approaches) as applied to a range of dynamic land surface domains and biomes/ecotones (e.g. rivers, wetlands, coasts, tropical forests, and where they interact) as well as land/atmosphere fluxes from these (e.g. fire, flooding), and aspects of spatial ecology/Conservation. I have received significant funding from ESA, UKRI, Leverhulme and other funding agencies.

Current research

As an EO Scientist, my recent research has been undertaken across three interconnected themes
 
1. Developing new observing techniques for aeolian processes and dust hazards. Desert dust is a critical component of the Earth system. Atmospheric dust has important effects on climate by changing the atmospheric radiation budget, while deposited dust influences biogeochemical cycles in the oceans and on land. The UN Coalition on Combating Sand and Dust Storms (UNCCD) identifies dust storms as a hazard that affects 11 of the 17 Sustainable Development Goals. Dust storms impair air quality causing damages to health, affect the economy by disrupting transportation, and disturb vulnerable ecosystems. However, the processes which act in mineral dust source regions within drylands, and factors which contribute to interannual variability within dust plumes emanating from them, are poorly understood. Through implementation and use of EO data, technology and innovative processing methods I have worked to generate some of the first inventories of dust sources regionally and globally. I have collaborated widely, leading to the generation of  inventories of dust emissions and controls from sources in Southern and Northern Africa, Argentina, Australia, Western USA and have aided their use to inform large scale modelling efforts. This research has been supported by funding from UKRI, Royal Society etc. 
 
2. Developing a Benchmark Understanding of Landscape Dynamics:  Land use/land cover (LULC) change is a fundamental concept of the Earth's system intimately connected to the human and physical environment. EO technology provides a direct source of data for LULC covering the entire globe. General Circulation Models (GCMs) predict significant 21st Century climate changes and suggest that hydrological and ecological system responses to these changes are likely to be rapid and un-buffered. I use innovative data and tools to qualify LCLU change (e.g., deforestation, mining impacts) and associated ecological impacts (e.g. spatial ecology of protected or endangered species). Recently, I have been leading efforts to implement the use of EO tools to monitor selective logging. This has involved collaboration with WRI [World Resources Institute; ] and OSINFOR [Organismo de Supervisi籀n de los Recursos Forestales y de Fauna Silvestre, Peru]. Funding and support from this work has come from UKRI (NERC and STFC), WRI, The Grantham Centre etc.
 
3. Pioneering use of new Earth Observation and Geospatial Technologies. Environments which respond in a dynamic and often chaotic manner to a range of natural (e.g., climate change, volcanic eruptions, dust storms) and anthropogenic influences (e.g., deforestation, flooding, environmental pollution) are often hard to monitor using spaceborne systems. I have extensive experience in use and deployment of airborne and ground-based Remote Sensing and Unpiloted Airborne Systems (UAS) platforms to monitor dynamic terrestrial systems and operates a SHRIF-funded spectrometry laboratory at Sheffield to underpin algorithm development. My research has led to fundamental measurement and understanding of a range of otherwise unrecorded and documented Earth systems (from wetlands and rivers to volcanos) - and has attracted funding and support from ESA, UKRI ARSF, UKRI DSRS, UKRI GEF, Royal Society, Carnegie Trust etc.
Publications

Journal articles

  • Wallum NS, Wiggs GFS & Bryant RG (2025) . Science of the Total Environment, 995.
  • Brownlow R, Glentworth J, Val Martin M, Heydon J & Bryant R (2025) . People, Place and Policy Online, 19(1), 59-79.
  • Ahmed AI, Massam MR, Bryant RG & Edwards DP (2025) . Biological Conservation, 304.
  • Nkiaka E, Bryant RG & Demb矇l矇 M (2025) . Earth Systems and Environment, 9(1), 491-504.
  • Baddock M, Hall A, Rideout J, Bryant R, Bullard J & Gass籀 S (2025) . Weather, 80(2), 61-66.
  • Tornquist F, Bigg GR & Bryant RG (2024) . Journal of Marine Systems, 246, 104013-104013.
  • Nkiaka E, Bryant RG, Demb矇l矇 M, Yonaba R, Imuwahen Priscilla A & Karambiri H (2024) . Journal of Hydrology, 642, 131874-131874.
  • Lamb IP, Massam MR, Mills SC, Bryant RG & Edwards DP (2024) . Current Biology, 34(16), 3673-3684.e4.
  • Shao M, Luo W, Che X, Hesp PA & Bryant RG (2024) . Earth Surface Processes and Landforms, 49(8), 2380-2404.
  • Nkiaka E, Bryant RG & Kom Z (2024) . Earth's Future, 12(2).
  • Finlayson C, Hethcoat MG, Cannon PG, Bryant RG, Yusah KM, Edwards DP & Freckleton RP (2024) . Forest Ecology and Management, 554.
  • Tornquist F, Bigg GR & Bryant RG (2024) . Journal of Marine Systems, 242, 103934-103934.
  • Huck R, Bryant R & King J (2023) . Atmospheric Chemistry and Physics, 23(11), 6299-6318.
  • Nkiaka E, Bryant RG, Manda S & Okumah M (2023) . Environmental Science & Policy, 140, 250-260.
  • Nkiaka E, Bryant RG, Ntajal J & Biao EI (2022) . Hydrology and Earth System Sciences, 26(22), 5899-5916.
  • Dye A, Bryant R & Rippin D (2022) . Geografiska Annaler: Series A, Physical Geography.
  • Wiggs GFS, Baddock MC, Thomas DSG, Washington R, Nield JM, Engelstaedter S, Bryant RG, Eckardt FD, von Holdt JRC & K繹tting S (2022) . Journal of Geophysical Research: Earth Surface, 127(8).
  • Bateman MD, Bryant RG & Luo W (2022) . Quaternary Geochronology, 72.
  • Hanna E, Aplin K, Bjornsson H, Bryant RG, Cappelen J, Fausto R, Fettweis X, Graham E, Harrison RG, Jonsson T , Penman J et al (2022) . Weather.
  • Hethcoat MG, Carreiras JMB, Bryant RG, Quegan S & Edwards DP (2022) . Remote Sensing, 14(1).
  • Nkiaka E, Bryant RG, Okumah M & Gomo FF (2021) . Wiley Interdisciplinary Reviews: Water, 8(6).
  • Dye A, Bryant R, Dodd E, Falcini F & Rippin DM (2021) . Remote Sensing, 13(15).
  • Swift DA, Tallentire GD, Farinotti D, Cook SJ, Higson WJ & Bryant RG (2021) . Earth Surface Processes and Landforms, 46(11), 2264-2278.
  • Hethcoat MG, Carreiras JMB, Edwards DP, Bryant RG & Quegan S (2021) . Remote Sensing of Environment, 259, 112411-112411.
  • Baird T, Bristow C, Lou W, Du E, Bryant R, Mitchell T & Vermeesch P (2021) . Frontiers in Earth Science, 9.
  • Ahmed AI, Bryant RG & Edwards DP (2021) . Land Degradation & Development, 32(1), 112-122.
  • Baddock MC, Bryant RG, Acosta MD & Gill TE (2021) . Journal of Arid Environments, 184.
  • Luo W, Shao M, Che X, Hesp PA, Bryant RG, Yan C & Xing Z (2020) . Earth Surface Processes and Landforms, 45(13), 3293-3312.
  • Hethcoat MG, Carreiras JMB, Edwards DP, Bryant RG, Peres CA & Quegan S (2020) . Environmental Research Letters, 15(9).
  • Cook JM, Tedstone AJ, Williamson C, McCutcheon J, Hodson AJ, Dayal A, Skiles M, Hofer S, Bryant R, McAree O , McGonigle A et al (2020) . The Cryosphere, 14(1), 309-330.
  • Wilkes TC, Pering TD, McGonigle AJS, Willmott JR, Bryant R, Smalley AL, Mims FM, Parisi AV & England RA (2019) . Frontiers in Earth Science, 7.
  • Pering TD, Ilanko T, Wilkes TC, England RA, Silcock SR, Stanger LR, Willmott JR, Bryant RG & McGonigle AJS (2019) . Frontiers in Earth Science, 6.
  • Hethcoat M, Edwards D, Carreiras JMB, Bryant R, Franca F & Quegan S (2019) . Remote Sensing of Environment, 221, 569-582.
  • Kraftl P, Datta K, Bryant R & Nash F (2018) . Area, 50(4), 434-439.
  • Cook JM, Hodson AJ, Gardner AS, Flanner M, Tedstone AJ, Williamson C, Irvine-Fynn TDL, Nilsson J, Bryant R & Tranter M (2017) . Cryosphere, 11(6), 2611-2632.
  • Nield JM, McKenna Neuman C, O'Brien P, Bryant RG & Wiggs GFS (2016) . Aeolian Research, 23, 51-62.
  • Kraftl P, Bryant R & Datta K (2016) . Area, 48(4), 398-400.
  • Wilkes TC, McGonigle AJS, Pering TD, Taggart AJ, White BS, Bryant RG & Willmott JR (2016) . Sensors Switzerland, 16(10).
  • Hanna E, Penman J, Jonsson T, Bigg GR, Bjornsson H, Sjuroarson S, Hansen MA, Cappelen J & Bryant RG (2016) . Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences, 374(2077).
  • Murray JE, Brindley HE, Bryant RG, Russell JE, Jenkins KF & Washington R (2016) . Journal of Geophysical Research, 121(17), 10-219.
  • Hodgkins R, Bryant R, Darlington E & Brandon M (2016) . Annals of Glaciology, 57(73), 39-46.
  • Nield JM, Wiggs GFS, King J, Bryant RG, Eckardt FD, Thomas DSG & Washington R (2016) . Earth Surface Processes and Landforms, 41(6), 738-753.
  • Lam KC, Bryant RG & Wainright J (2015) . Mediterranean Journal of Social Sciences, 6(4S3), 108-116.
  • Haustein K, Washington R, King J, Wiggs G, Thomas DSG, Eckardt FD, Bryant RG & Menut L (2015) . Geoscientific Model Development, 8, 341-362.
  • Nield JM, Bryant RG, Wiggs GFS, King J, Thomas DSG, Eckardt FD & Washington R (2015) . Geology, 43(1), 31-34.
  • Livingstone I, Baas A, Bateman MD, Bristow C, Bryant RG, Bullard JE, Nield JM, Thomas DSG, White KH & Wiggs GFS (2014) . Transactions of the Royal Society of South Africa, 69(3), 151-156.
  • Bigg GR, Wise SM, Hanna E, Mansell D, Bryant RG & Howard A (2014) . Meteorological Applications, 21(2), 161-170.
  • Nield JM, King J, Wiggs GFS, Leyland J, Bryant RG, Chiverrell RC, Darby SE, Eckardt FD, Thomas DSG, Vircavs LH & Washington R (2013) . Journal of Geophysical Research Atmospheres, 118(23), 12-961.
  • Vickery KJ, Eckardt FD & Bryant RG (2013) . Geophysical Research Letters, 40(19), 5274-5279.
  • Ikema T, Bryant RG & Bigg GR (2013) . Estuarine Coastal and Shelf Science, 128, 52-63.
  • Bryant RG (2013) . Progress in Physical Geography, 37(3), 397-421.
  • Bateman MD, Bryant RG, Foster IDL, Livingstone I & Parsons AJ (2012) . Geomorphology, 161-162, 93-109.
  • Kantzas EP, McGonigle AJS, Tamburello G & Bryant RG (2012) . Computers and Geosciences, 40, 194-199.
  • Bateman MD, Carr AS, Dunajko AC, Holmes PJ, Roberts DL, McLaren SJ, Bryant RG, Marker ME & Murray-Wallace CV (2011) . Quaternary Science Reviews, 30(1-2), 63-81.
  • Ikema T, Bigg GR & Bryant RG (2010) . Journal of Geophysical Research Atmospheres, 115(24).
  • Kantzas EP, McGonigle AJS, Tamburello G, Aiuppa A & Bryant RG (2010) . J VOLCANOL GEOTH RES, 194(1-3), 55-60.
  • Bryant R (2010) . GEOGRAPHICAL JOURNAL, 176, 119-119.
  • Livingstone I, Bristow C, Bryant RG, Bullard J, White K, Wiggs GFS, Baas ACW, Bateman MD & Thomas DSG (2010) . Aeolian Research, 2(2-3), 93-104.
  • Harris A & Bryant RG (2009) . Geophysical Monograph Series, 184, 79-98.
  • Baddock MC, Bullard JE & Bryant RG (2009) . Remote Sensing of Environment, 113(7), 1511-1528.
  • Kantzas EP, McGonigle AJS & Bryant RG (2009) . SENSORS-BASEL, 9(5), 3256-3268.
  • Harris A & Bryant RG (2009) . Journal of Environmental Management, 90(7), 2178-2188.
  • Eckardt FD, Bryant RG, McCulloch G, Spiro B & Wood WW (2008) . APPL GEOCHEM, 23(6), 1563-1580.
  • McCulloch GP, Irvine K, Eckardt FD & Bryant R (2008) . HYDROBIOLOGIA, 596, 31-46.
  • Bryant RG, Bigg GR, Mahowald NM, Eckardt FD & Ross SG (2007) . J GEOPHYS RES-ATMOS, 112(D9).
  • Harris A, Bryant RG & Baird AJ (2006) Remote sensing of Sphagnum stress: A proxy for near-surface wetness conditions in northern peatlands?. European Space Agency Special Publication ESA SP(SP-634).
  • Harris A, Baird A & Bryant R (2006) Detecting near-surface moisture stress in Sphagnum spp. COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY, 143(4), S147-S147.
  • Harris A, Bryant RG & Baird AJ (2006) . REMOTE SENS ENVIRON, 100(3), 363-378.
  • Harris A, Bryant RG & Baird AJ (2005) . REMOTE SENS ENVIRON, 97(3), 371-381.
  • Rainey MP, Tyler AN, Gilvear DJ, Bryant RG & McDonald P (2003) . Remote Sensing of Environment, 86(4), 480-490.
  • Bryant RG (2003) . Geographical Journal(2), 131-141.
  • Bryant RG & Baird AJ (2003) . Geophysical Research Letters, 30(3), 1-34.
  • Mahowald NM, Bryant RG, del Corral J & Steinberger L (2003) . Geophysical Research Letters, 30(2), 1-46.
  • Ferrier G, White K, Friffiths G, Bryant R & Stefouli M (2002) The mapping of hydrothermal alteration zones on the island of Lesvos, Greece using an integrated remote sensing dataset (vol. 23, pg. 341, 2002). INTERNATIONAL JOURNAL OF REMOTE SENSING, 23(5), 1009-1009.
  • Ferrier G, White K, Griffiths G, Bryant R & Stefouli M (2002) . International Journal of Remote Sensing, 23(2), 341-356.
  • Bryant RG & Rainey MP (2002) Investigation of flood inundation on playas within the Zone of Chotts, using a time-series of AVHRR. REMOTE SENS ENVIRON, 82(2-3), 360-375.
  • Osborne PE, Alonso JC & Bryant RG (2001) . Journal of Applied Ecology, 38(2), 458-471.
  • Rainey MP, Tyler AN, Bryant RG, Gilvear DJ & McDonald P (2000) The influence of surface and interstitial moisture on the spectral characteristics of intertidal sediments: implications for airborne image acquisition and processing. INT J REMOTE SENS, 21(16), 3025-3038.
  • Bryant RG & Gilvear DJ (1999) Quantifying geomorphic and riparian land cover changes either side of a large flood event using airborne remote sensing: River Tay, Scotland. GEOMORPHOLOGY, 29(3-4), 307-321.
  • Bryant RG (1999) Application of AVHRR to monitoring a climatically sensitive playa. Case study: Chott el Djerid, southern Tunisia.. EARTH SURF PROC LAND, 24(4), 283-302.
  • Gilvear DJ, Bryant RG & Hardy T (1999) Remote sensing of channel morphology and in-stream fluvial processes. Progress in Environmental Science, 1, 257-284.
  • Gilvear DJ, Bryant R & Hardy T (1999) Remote sensing of channel morphology and in-stream fluvial processes. Progress in Environmental Science, 1, 257-284.
  • White K, Bryant R & Drake N (1998) Techniques for measuring rock weathering: Application to a dated fan segment sequence in southern Tunisia. EARTH SURF PROC LAND, 23(11), 1031-1043.
  • Simpson IA, Bryant RG & Tveraabak U (1998) . Journal of Archaeological Science, 25(12), 1185-1198.
  • Bryant RG (1996) Validated linear mixture modelling of Landsat TM data for mapping evaporite minerals on a playa surface: Methods and applications. INT J REMOTE SENS, 17(2), 315-330.
  • Bryant R, Tyler A, Gilvear D, Mcdonald P, Teasdale I, Brown J & Ferrier G (1996) . International Journal of Remote Sensing, 17(2), 405-412.
  • Bryant RG & Davidson DA (1996) The use of image analysis in the micromorphological study of old cultivated soils: An evaluation based on soils from the Island of Papa Stour, Shetland. Journal of Archaeological Science, 23(6), 811-822.
  • GRIEVE IC, GILVEAR DG & BRYANT RG (1995) HYDROCHEMICAL AND WATER SOURCE VARIATIONS ACROSS A FLOODPLAIN MIRE, INSH MARSHES, SCOTLAND. HYDROL PROCESS, 9(1), 99-110.
  • MILLINGTON AC, DRAKE NA, WHITE K & BRYANT RG (1995) SALT RAMPS - WIND-INDUCED DEPOSITIONAL FEATURES ON TUNISIAN PLAYAS. EARTH SURF PROCESSES, 20(2), 105-113.
  • Drake NA, Bryant RG, Millington AC & Townsend JRG (1994) . Sedimentology and Geochemistry of Modern and Ancient Saline Lakes, 125-131.
  • Bryant RG, Drake NA, Millington AC & Sellwood BW (1994) . Sedimentology and geochemistry of modern and ancient saline lakes, 50, 3-12.
  • BRYANT RG, SELLWOOD BW, MILLINGTON AC & DRAKE NA (1994) MARINE-LIKE POTASH EVAPORITE FORMATION ON A CONTINENTAL PLAYA - CASE-STUDY FROM CHOTT-EL-DJERID, SOUTHERN TUNISIA. SEDIMENT GEOL, 90(3-4), 269-291.
  • Dye A, Bryant R, Falcini F, Mallalieu J, Dimbleby M, Beckwith M, Rippin D & Kirchner N () . The Cryosphere, 19(10), 4471-4486.
  • Cook JM, Tedstone AJ, Williamson C, McCutcheon J, Hodson AJ, Dayal A, Skiles M, Hofer S, Bryant R, McAree O , McGonigle A et al () .

Book chapters

  • Gilvear D & Bryant R (2016) (pp. 103-132). Wiley
  • Shaw PA & Bryant RG (2011) , Arid Zone Geomorphology Process Form and Change in Drylands (pp. 373-401).
  • Bryant RG & Gilvear DJ (2005) In Kondolf GM & Pi矇gay H (Ed.), Tools in Fluvial Geomorphology (pp. 135-170). Wiley
  • Bryant RG & Drake NA (1994) Monitoring the flooding ratios of Tunisian Playas using AVHRR data In Millington AC & Pye K (Ed.), Environmental change in drylands John Wiley & Son Ltd
  • Bryant RG & Baddock MC () In Shroder JF & Lancaster N (Ed.), Treatise on Geomorphology: Aeolian Geomorphology (pp. 84-119). Elsevier
  • Ashaari Z, Bigg GR & Bryant RG () In Aris AZ, Tengku Ismail TH, Harun R, Abdullah AM & Ishak MY (Ed.), From Sources to Solution (pp. 579-583). Springer Singapore

Conference proceedings

  • Gill TE, Baddock MC & Bryant RG (2019) . Geological Society of America Abstracts with Programs
  • Harris A, Bryant RG & Baird AJ (2006) Remote sensing of Sphagnum stress: A proxy for near-surface wetness conditions in northern peatlands?. European Space Agency, (Special Publication) ESA SP(SP-634)
  • DRAKE NA & BRYANT RG (1994) MONITORING THE FLOODING RATIO OF TUNISIAN PLAYAS USING ADVANCED VERY HIGH-RESOLUTION RADIOMETER (AVHRR) IMAGERY. ENVIRONMENTAL CHANGE IN DRYLANDS: BIOGEOGRAPHICAL AND GEOMORPHOLOGICAL PERSPECTIVES (pp 347-364)

Reports

  • Weber J, Val Martin M & Bryant R (2023)

Datasets

  • Ahmed A, Massam M, Bryant R & Edwards D (2025) .

Other

  • Cunningham ST, Bryant RG, Khan MS, Caine RS, Edmondson J, Absalom ECP, Turner A, Blackman R & Croft H (2025) .
  • Wiggs G, Wallum N, Bryant R & Reynolds R (2025) .
  • Dye A, Bryant R, Falcini F, Mallalieu J, Dimbleby M, Beckwith M, Rippin D & Kirchner N (2024) .
  • Huck RA, Bryant RG & King J (2023) .
  • Nkiaka E, Bryant RG, Ntalja J & Biao E (2022) .
  • Swift D, Jones A, Westoby M, Bryant R & Veness R (2022) .
  • Weber KMF, Jones J, Willett KM, Osborne C & Bryant R (2022) .

Preprints

  • Dye A, Bryant R, Falcini F, Mallalieu J, Dimbleby M, Beckwith M, Rippin D & Kirchner N (2024) , Copernicus GmbH.
  • Nkiaka E, Bryant RG, Ntalja J & Biao E (2022) , Copernicus GmbH.
  • Hethcoat MG, Carreiras JMB, Edwards DP, Bryant RG & Quegan S (2020) , Cold Spring Harbor Laboratory.
  • Hethcoat MG, Edwards DP, Carreiras JMB, Bryant RG, Fran癟a FM & Quegan S (2018) , Cold Spring Harbor Laboratory.
  • Haustein K, Washington R, King J, Wiggs G, Thomas D & Menut L (2014) , Copernicus GmbH.
Teaching interests

I have almost 20 years of teaching experience in a range of universities in the UK and other countries (eg Finland, Zambia and Namibia), and have taught classes of all levels and sizes. I currently teach a range of modules at the undergraduate and postgraduate level based on topics that I find to be both exciting and enabling. The major themes of my teaching are driven by my research interests and experience and encompass aspects of dryland geomorphology and the use/exploitation of a range of earth observation approaches. At all levels I encourage learning through inquiry, seek to expose students to the most up to date technological advances in geographical research, and aim to include both field and laboratory components wherever possible.

Professional activities and memberships

Editorial responsibilities

  • Co-Editor of the Journal AREA for the Royal Geographical Society (with the Institute of British Geographers)
  • Journal Reviewer for >20 International, peer-reviewed journals

Committee/panel activities

  • NERC Peer-Review College (2007-2011).
  • NERC EO Mission Support Scheme Moderating Panel (2007).
  • NERC Services Review Group (2008).
  • NERC steering committee for the Dundee Satellite Receiving Station (DSRS) and the NERC -Remote Sensing Data Analysis Service (RSDAS) (2001 - 2006).
  • Council Member of the British Society for Geomorphology (BSG: 2006-2008)
  • Council Member of the Remote Sensing and Photogrammetry Society (RSPSoc: 2000-2002).
  • Advisor to USGS Dust Source Monitoring Workgroup (2007)

External Examiner roles

  • University of West Indies (Degrees in Geography) 2007-2011
  • Kings College London (Masters Programmes in Geography) 2012-2015
  • I have undertaken 27 PhD Examinations (12 external and 15 internal) - including overseas

Invited Lectures and Visiting Positions

I have given 26 departmental lectures/seminars at a range of locations
Invited research visits to USDA, Texas, ICESS, University of California Santa Barbara,
Invited Visiting Lectureships at the University of Zambia, University of Turku, Finland, and the University of Namibia (via a DAAD Humboldt Fellowship).

Press and Media

  • 02/04/2014 Featured in a Live Blog on air pollution. Quoted in The Guardian
  • 02/04/2014 Weather Alert. Quoted in the Belfast Telegraph and other local newspapers via the Press Association
  • 03/04/2014 Sheffield air pollution rise caused by Sahara dust. Quoted in the Sheffield Star
  • 03/04/2014 The hazy shade of Spring. Quoted in the Yorkshire Post
  • 03/04/2014 Warning to cut outdoor activity - Quoted in the Belfast Telegraph
  • 03/04/2014 Discussion of Saharan dust which was blown over to parts of the UK resulting in a layer of smog covering some towns and cities. Interview with the Independent
  • 03/04/2014 Discussion of Saharan dust which was blown over to parts of the UK resulting in a layer of smog covering some towns and cities. Interview with the BBC (National 壅翌腦瞳)
  • 03/04/2014 Discussion of Saharan dust which was blown over to parts of the UK resulting in a layer of smog covering some towns and cities. Interview on BBC Radio Sheffield
  • 03/04/2014 Discussion of Saharan dust which was blown over to parts of the UK resulting in a layer of smog covering some towns and cities. Interview with Sheffield Star
  • 03/04/2014 Discussion of Saharan dust which was blown over to parts of the UK resulting in a layer of smog covering some towns and cities Discussion with the Guardian
  • 03/04/2014 South Yorks smog explained and YOUR photos. Sheffield Telegraph
  • 03/04/2014 Smog expert: Worsening Saharan dust storms to become an annual ...Large Feature (Im the expert) in the Independent
  • 03/04/2014 Featured on the Nationalheadlines.co.uk web site Smog expert: Worsening Saharan dust storms to become an annual Spring fixture as climate changes Nationalheadlines.co.uk
  • 03/04/2014 Above story also features on worldnews.com, and news24.com - along with a quote from me. The toxic smog that smothered most of Britain this week will become more frequent in coming years, experts warned last night.
  • 04/04/2014 999 calls soar as vulnerable choke on smog Quoted in The Scotsman
  • 04/04/2014 Is Saharan dust cloud just a load of hot air? Experts divided as even PM gives up his morning jog because of 'poor air quality' Quoted in the Daily Mail
  • 04/04/2014 Further discussion with the Daily Mail about camel hair found in dust on a car in London!! Daily Mail
  • 04/04/2014 Further discussion with the Times about the frequency of Saharan dust events, and a subsequent mention in the Sunday Times The Times
  • 04/04/2014 .the above "Dust from the Sahara - and more is UK bound story was also picked up by the New Zealand Herald and the Sheffield Star Sheffield air quality 'will get worse'. New Zealand Herald and Sheffield Star
  • 05/04/2014 Sahara disease threat: Britain faces potential foot-and-mouth outbreak from smog Quoted in this article in the Daily Star
  • 06/04/2014 Mentioned prominently in two articles discussing dust and foot and mouth and dust and climate change in general Climate change to bring years of toxic smog and Britain's toxic smog leaves millions of people at risk of heart disease. The Daily/Sunday Express
  • 06/04/2014 The above story was also picked up by the Star - Star/Star on Sunday
  • 06/04/2014 My outputs were featured on the RGS #geogtoday news feed. Royal Geographical Society
  • 18/3/2015 Daily Mirror quotes me in Toxic smog hits UK: Air pollution health alert is set trigger asthma attacks and ...
  • 19/3/2015 Birmingham Mail Quoted my stance on air pollution complexity and the import of air masses and pollution from Africa from 2014.
  • 19/3/2014 The Daily Record also runs with my suggestions from 2014 in relation to the Smog event in March 2015.
  • 19/3/2015 The Daily Mirror [Toxic smog hits UK: Live updates] also picks up on the same story and quotes me in a range of contexts.
  • 19/3/2015 Belfast Live picked up on the same story as above.
  • 19/3/2015 The Loughborough Echo does the same.as does the Cheddar Valley Gazette.
  • 8/12/2015 BBC 壅翌腦瞳 at 10 Coverage by David Schukman from Etosha Pan regarding the DO4Models project. Lengthy segment which highlighted the global importance of the research programme.
  • 9/12/2015 BBC Science and Environment Editorial about the RCUK funded DO4Models project. This was picked up by a range of other news outlets
Additional research projects

Ephemeral Lakes and Dust Emissions

Atmospheric mineral aerosols impact global climate through the absorption and scattering of incoming solar radiation and outgoing planetary radiation, as well as affecting ocean and terrestrial biogeochemistry. Due to the prevalence of arid surfaces with reduced vegetation cover and high velocity winds, much of the observed atmospheric dust is derived from susceptible surfaces within dryland regions.

Work has shown that topographic lows are the predominant sources of atmospheric desert dust within drylands. However, there are no general theories of why some basins are more active dust sources than other regions. Gross changes in the hydrology of an ephemeral lake system can lead to extreme changes in regional dust emissions (eg Owens Lake). It is possible, therefore, that changes in the frequency and extent of natural inundation occurring on large ephemeral lake systems may lead to significant fluctuations in regional dust loadings on a seasonal and inter-annual basis.

Research here focuses on using a range of remote sensing approaches (eg TOMS, POLDER, AVHRR) to constrain the affect of inundation on dust emissions from ephemeral lake systems in Africa.

Including Collaboration with: Natalie Mahowold (UCSB/NCAR), Giles Wiggs (Oxford), Frank Eckhardt (UCT) and Richard Washington (Oxford). Funding from NERC and the Royal Society.

(A) MODIS Visible (250m – Channel-1) image of dust plumes which seem to emanate from the southern part of Sua Pan (B) SeaWIFS (Channel-2) image of a similar dust plume 10 days later. Here the dust plume also seems to emanate from parts of Ntetwe Pan (C) Near Infra-Red (Landsat ETM-Channel 4) Image showing the extent of standing water on Sua and Ntetwe Pan following heavy rainfall associated with Tropical Cyclone Eline.

Landsat ETM+ image of the Northern edge of Sua pan after the flood event of 2000.

Monitoring Ephemeral Lakes

In drylands past fluctuations in climate have resulted in relatively extreme changes in regional precipitation regimes. However, within most drylands contemporary changes in regional rainfall patterns are difficult to assess by direct measurement, and are best indicated and preserved by studying changes in the level and chemistry of closed or "non-outlet" lakes. However, many of these basins are un-gauged, and relatively little is known about their hydrologic response to climate inputs.

Research here focuses on the use of time-series EO data to determine inundation frequency and groundwater levels for large ephemeral systems. These data are used to estimate regional hydrologic inputs, and generate simple hydrological models.

Including collaboration with: Dr Charon Birkett (GSFC), NERC Dundee Satellite Receiving Station, NASA Surface Water Working Group. Funding from NERC and the Royal Society

Time series of observations for the Magkadigkadi Basin, (A) Lake inundation data at Sua Pan derived from AVHRR and MODIS data; a time series of NIR reflectance and the percent of the lake area covered by surface water. Key flood events are highlighted, (B) rainfall within the Nata River Catchment derived from gridded climate data (0.5 degree) and flow on the Nata River, (C) Average and anomalies in FASIR FAPAR data for the Makgadikgadi Basin, (D) monthly normalized anomalies (monthly mean minus the mean of the monthly means normalized to one standard deviation) for TOMS AAI v8 (NIMBUS7 and Earth Probe) 1980 through 2005 and wind speed data derived from the ECMWF ERA-40 gridded climate product (1 degree); (E) Sea Surface Temperature anomalies for the Dipole Mode Index (DMI) and Pacific (ENSO3.4) regions. The landfall of Tropical Cyclones on the Eastern Coast of southern Africa are also noted [L]

Applied Remote Sensing

Research here has focused on the innovative application of airborne remote sensing (principally CASI, CASI SWIR and Daedalus ATM) to estuaries, rivers, and wetlands, and a range of other environments. These dynamic and important environments require both progressive and innovative use of remote sensing techniques.

The work has included collaboration with Andrew Tyler and Dave Gilvear (Stirling), Andrew Baird and Angela Harris (Sheffield), Graham Ferrier (Hull). Data from NERC ARSF and FSF facilities.

Daedalus ATM Image of Cors Fochno (Borth Bog) collected in May 2002 as part of a project targeted at understanding and mapping the effects of water stress on Sphagnum spp - and thereby derive proxy measures of seasonal and sub-seasonal water table fluctuations

Co-ordinated Fieldwork at Cors Fochno in May 2002 : (a) Location of the study area, (b) Comparison of monthly rainfall totals for 2002 and mean total rainfall throughout 1981-2003, (c-d) A map of the locations of field sampling sites, and a photograph of typical primary and sub sampling stations

Field and Laboratory Spectroscopy

Reflectance spectroscopy is the study of light as a function of wavelength that has been reflected or scattered from a solid, liquid, or gas. Spectroscopy is therefore a field and laboratory research tool that can be used to identify and map specific materials by detecting specific chemical bonds. As a result it is an excellent tool for environmental assessments, mineral mapping and exploration, vegetation communities/species and health studies, and general land management studies.

Field/Lab Spectrometers

Within the Department of Geography, Sheffield we have a laboratory facility with associated dark room, lights sources and controller PC. We have one ASD Fieldspec-3JR (0.4 - 2.5 micron) spectrometer and one ASD HH (0.1-1.1 micron) spectrometer to measure samples and provide in situ calibration of surface directional reflectance/radiance for terrestrial imaging spectroscopy studies. They also serve as laboratory spectrometers when rapid spectra are needed. We have a series ASD attachments and software to that enable us to analyse a wide range of soil, sediment, rock and vegetation samples.

ASD Fieldspec HH being used to characterise soil reflectance at field sites in Southern Tunisia

NERC FSF ASD Fieldspec Pro being used to characterise a kaeolinite target reflectance at field sites on the island of Milos, Greece as part of an airborne remote sensing campaign

Typical field spectral signatures for S. pulchrum collected in May and September 2002 as part of a laboratory and field campaign targeted at understanding and mapping the Effects of Water Stress on Sphagnum.

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