Oliver W. Moore
University of Leeds
21 Papers
Oliver W. Moore is an academic researcher from University of Leeds. The author has contributed to research in topics: Chemistry & Bedrock. The author has an hindex of 6, co-authored 10 publications. Previous affiliations of Oliver W. Moore include University of Bristol.
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Papers
Lithological influences on contemporary and long-term regolith weathering at the Luquillo Critical Zone Observatory
Heather L. Buss,Maria Chapela Lara,Oliver W. Moore,Andrew C. Kurtz,Marjorie S. Schulz,Art F. White +5 more
TL;DR: In this paper, the authors compared two nearby catchments in the Luquillo Critical Zone Observatory in Puerto Rico, which have similar climate history, relief and vegetation, but differ in bedrock lithology.
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Carboxyl-richness controls organic carbon preservation during coprecipitation with iron (oxyhydr)oxides in the natural environment
Lisa Curti,Oliver W. Moore,Peyman Babakhani,Ke-Qing Xiao,Clare Woulds,Andrew W. Bray,Ben J. Fisher,Majid Kazemian,Burkhard Kaulich,Caroline L. Peacock +9 more
- 04 Nov 2021
TL;DR: In this paper, the authors coprecipitate carboxylic acids with iron (oxyhydr)oxide ferrihydrite and use near-edge X-ray absorption fine structure spectroscopy and wet chemical treatments to determine the relationship between sequestration mechanism and organic carbon stability against its release and chemical oxidative remineralisation.
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Long-term organic carbon preservation enhanced by iron and manganese.
Oliver W. Moore,Lisa Curti,Clare Woulds,James Bradley,Peyman Babakhani,Benjamin J. W. Mills,William B. Homoky,Keping Xiao,Andrew W. Bray,Ben J. Fisher,Majid Kazemian,Burkhard Kaulich,Andrew W. Dale,Caroline L. Peacock +13 more
TL;DR: Iron and manganese ions/minerals catalyze the Maillard reaction, enhancing organic carbon preservation in marine sediments by up to two orders of magnitude, potentially generating 4.1 Tg C yr−1 and influencing global OC preservation over geological time.
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Soil Salinity and pH Drive Soil Bacterial Community Composition and Diversity Along a Lateritic Slope in the Avon River Critical Zone Observatory, Western Australia
Flora Jane Mary O'Brien,Maya Almaraz,Melissa A. Foster,Alice F. Hill,David P. Huber,Elizabeth K. King,Harry Langford,Mary-Anne Lowe,Bede S. Mickan,Valerie S. Miller,Oliver W. Moore,Falko Mathes,Deirdre B. Gleeson,Matthias Leopold +13 more
TL;DR: The results supported the hypothesis that shifts in the microbial community would reflect variations in certain edaphic properties associated with the different layers of the lateritic profile and vegetation cover, with electrical conductivity, pH and clay content having the strongest correlation with beta diversity.