J
Jack Molinié
Researcher at University of the French West Indies and Guiana
Publications - 11
Citations - 382
Jack Molinié is an academic researcher from University of the French West Indies and Guiana. The author has contributed to research in topics: Mineral dust & Municipal solid waste. The author has an hindex of 8, co-authored 11 publications receiving 311 citations.
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Characterizing the annual cycle of African dust transport to the Caribbean Basin and South America and its impact on the environment and air quality
TL;DR: In this article, the authors characterize the complete annual cycle of dust transport to the western Atlantic by linking the Barbados record to multi-year records of airborne particulate matter less than 10 µm diameter (PM10) measured in air quality programs at Cayenne (French Guiana) and Guadeloupe.
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Impact of long-range transport over the Atlantic Ocean on Saharan dust optical and microphysical properties based on AERONET data
Cristian Velasco-Merino,David Mateos,Carlos Toledano,Joseph M. Prospero,Jack Molinié,Lovely Euphrasie-Clotilde,Ramiro González,Victoria E. Cachorro,Abel Calle,Ángel M. de Frutos +9 more
TL;DR: In this article, the changes in columnar aerosol properties when mineral dust outbreaks from western Africa arrive over the eastern Caribbean after transport across the Atlantic Ocean, a transit of 5-7 days.
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Evidence of the effect of an urban heat island on air quality near a landfill
TL;DR: In this paper, conditions for urban breeze detection have been examined and two different methods have been proposed for the estimate of the urban breeze intensity, about 1m−s −1, was of the same order of magnitude as measured wind data.
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Remote and in situ plume measurements of acid gas release from La Soufriere volcano, Guadeloupe
Marie-Lise Bernard,Jack Molinié,Rose-Helen Petit,François Beauducel,Gilbert Hammouya,Guy Marion +5 more
TL;DR: In this paper, the authors presented the first remote measurements of La Soufriere gas emissions since the fumarolic and seismic reactivation in 1992, using an OP-FTIR spectrometer up to 15 m downwind the South Crater.
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In situ quantification and tracking of volatile organic compounds with a portable mass spectrometer in tropical waste and urban sites.
TL;DR: It was observed that the most affected locations are under the wind of the landfill plume, which means most of the surrounding area, downwind and upwind, can undergo an increase of the tracer concentration levels, as shown in the paper during a dust outbreak.