M
M. Gascoyne
Researcher at University of Leeds
Publications - 3
Citations - 216
M. Gascoyne is an academic researcher from University of Leeds. The author has contributed to research in topics: Haboob & Thermal low. The author has an hindex of 2, co-authored 3 publications receiving 194 citations.
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Journal ArticleDOI
Meteorology and dust in the central Sahara: Observations from Fennec supersite‐1 during the June 2011 Intensive Observation Period
John H. Marsham,M. Hobby,C. Allen,Jamie Banks,M. Bart,Barbara Brooks,Carolina Cavazos-Guerra,Sebastian Engelstaedter,M. Gascoyne,Adriana Rocha Lima,J. V. Martins,James B. McQuaid,A. O'Leary,Bouziane Ouchene,A. Ouladichir,Douglas J. Parker,Azzedine Saci,M. Salah-Ferroudj,Martin C. Todd,Richard Washington +19 more
TL;DR: The Fennec supersite at Bordj-Badji Mokhtar made during the June 2011 Fennec Intensive Observation Period was used for detailed in-situ observations of meteorology and dust from the central Sahara, close to the centre of the Saharan Heat Low and the summertime dust maximum as discussed by the authors.
Journal ArticleDOI
Meteorological and dust aerosol conditions over the western Saharan region observed at Fennec Supersite-2 during the intensive observation period in June 2011
Martin C. Todd,C. Allen,M. Bart,Mohammed Bechir,J. Bentefouet,Barbara Brooks,Carolina Cavazos-Guerra,T. Clovis,S. Deyane,M. Dieh,Sebastian Engelstaedter,Cyrille Flamant,Luis Garcia-Carreras,Abdoulaye Gandega,M. Gascoyne,M. Hobby,Cécile Kocha,Christophe Lavaysse,John H. Marsham,J. V. Martins,James B. McQuaid,Jean-Blaise Ngamini,Douglas J. Parker,Thierry Podvin,Adriana Rocha-Lima,S. Traore,Yi Wang,Richard Washington +27 more
TL;DR: In this article, the Fennec Supersite-2 (SS2) at Zouerate, Mauritania during the June 2011 Fennec Intensive Observation Period was studied.
Journal ArticleDOI
MEMS-Integrated Load Cell for Measuring Pressure, Erosion, and Deposition in Dynamic Environmental Flows
M. Hobby,Robert E. Thomas,M. Gascoyne,Daniel R. Parsons,Gareth M. Keevil,Jeff Peakall,Jonathan L. Carrivick +6 more
TL;DR: In this article, a microelectromechanical system-based load cell is integrated with signal conditioning circuitry, temperature, and tilt sensors for measurement of sediment-fluid interaction and flow under turbulent conditions.