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Bio
My own research, somewhat ironically as a geochemist, uses the properties of the most chemically inert species we know, the noble gases (helium, neon, argon, krypton and xenon). I use their unique properties to understand the role that fluids and gases play in geological systems. For example, the noble gas low concentrations and large number of stable isotopes means that fluids from different sources often have characteristic isotopic signatures. This allows us to identify where the fluids have come from. Precisely because they are chemically inert, we know that the changes in the source signatures are only caused by the physical processes controlling the fluids in the system. This combination of properties allows us to reconstruct the fluid sources and detail the physical framework controlling liquid and gas migration and interaction that underpin many geological systems – on local to planetary scales.
Research Interests
Papers共 260 篇Author StatisticsCo-AuthorSimilar Experts
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James R. Lucas,Sietske J. Batenburg,Darren J. Hillegonds, Jennifer C. Mabry,Hugh C. Jenkyns,Chris J. Ballentine,Stuart A. Robinson
Sedimentology (2024)
Brendan McCormick,Peter J. Barry,Tobias P. Fischer, Greg Holland, Michael R. Hudak, S. A. Nowicki,C. J. Ballentine, Melina Höhn,Ima Itikarai,Kila Mulina, Emma Nicholson
EarthArXiv (California Digital Library) (2023)
Natureno. 7950 (2023): 94-99
arXiv (Cornell University) (2023)
NATUREno. 7950 (2023): 94-+
GEOCHEMISTRY GEOPHYSICS GEOSYSTEMSno. 4 (2023)
Environmental science & technologyno. 26 (2023): 9459-9473
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