2023 - Research.com Environmental Sciences in France Leader Award
2015 - Fellow of the Soil Science Society of America (SSSA)
Philippe C. Baveye mainly investigates Soil water, Hydraulic conductivity, Porous medium, Soil science and Mineralogy. He studied Soil water and Environmental chemistry that intersect with Loam, Groundwater and Soil chemistry. His Hydraulic conductivity research incorporates themes from Mathematical model, Clogging and Chemical engineering.
His Porous medium study combines topics from a wide range of disciplines, such as Infiltration, Aquifer and Differential equation. His Soil science research includes elements of Permeability and Water content. Philippe C. Baveye interconnects Organic matter, Chromatography, Distilled water and Bacteria in the investigation of issues within Mineralogy.
Soil water, Soil science, Context, Environmental chemistry and Mineralogy are his primary areas of study. Soil water connects with themes related to Hydrology in his study. The concepts of his Soil science study are interwoven with issues in Ecology, Ecosystem and Microscale chemistry.
In his study, which falls under the umbrella issue of Context, Grayscale is strongly linked to Pattern recognition. He has researched Soil organic matter in several fields, including Organic matter, Soil carbon and Mineralization. Hydraulic conductivity is closely attributed to Porous medium in his research.
His primary areas of investigation include Soil water, Context, Microscale chemistry, Soil science and Ecosystem services. Philippe C. Baveye has included themes like Environmental chemistry, Characterisation of pore space in soil and Spatial distribution in his Soil water study. His Context research integrates issues from Soil contamination, Soil test and Thallium.
His study on Microscale chemistry also encompasses disciplines like
His main research concerns Soil water, Context, Soil science, Soil organic matter and Environmental resource management. His specific area of interest is Soil water, where he studies Soil quality. His research integrates issues of Biochemical engineering, Soil test, Research program and Microscale chemistry in his study of Context.
His Soil science research includes themes of Spatial ecology, Rugosity, Spatial heterogeneity and Water content. His work carried out in the field of Soil organic matter brings together such families of science as Organic matter, Soil carbon and Scale. His Environmental resource management research incorporates elements of Ecology, Field and Ecosystem services.
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Influence of Ionic Strength, pH, and Cation Valence on Aggregation Kinetics of Titanium Dioxide Nanoparticles
Rebecca A. French;Astrid R. Jacobson;Bojeong Kim;Sara L. Isley.
Environmental Science & Technology (2009)
Environmental impact and mechanisms of the biological clogging of saturated soils and aquifer materials
Philippe Baveye;Philippe Vandevivere;Blythe L. Hoyle;Paul C. DeLeo.
Critical Reviews in Environmental Science and Technology (1998)
Modeling Soil Processes: Review, Key Challenges, and New Perspectives
H. Vereecken;A. Schnepf;J. W. Hopmans;M. Javaux.
Vadose Zone Journal (2016)
Saturated Hydraulic Conductivity Reduction Caused by Aerobic Bacteria in Sand Columns
Philippe Vandevivere;Philippe Baveye.
Soil Science Society of America Journal (1992)
An evaluation of mathematical models of the transport of biologically reacting solutes in saturated soils and aquifers
Philippe Baveye;Albert J Valocchi.
Water Resources Research (1989)
Effect of bacterial extracellular polymers on the saturated hydraulic conductivity of sand columns
P Vandevivere;P Baveye.
Applied and Environmental Microbiology (1992)
The Operational Significance of the Continuum Hypothesis in the Theory of Water Movement Through Soils and Aquifers
Philippe Baveye;Garrison Sposito.
Water Resources Research (1984)
Soil “Ecosystem” Services and Natural Capital: Critical Appraisal of Research on Uncertain Ground
Philippe C. Baveye;Jacques Baveye;John Gowdy.
Frontiers in Environmental Science (2016)
Environmental factors determining the trace-level sorption of silver and thallium to soils.
Astrid R. Jacobson;Murray B. McBride;Philippe Baveye;Tammo S. Steenhuis.
Science of The Total Environment (2005)
Transport of bacteria in an aquifer sand: Experiments and model simulations
Y. Tan;J. T. Gannon;P. Baveye;M. Alexander.
Water Resources Research (1994)
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