Séminaire de David Boutt (University of Massachusetts) / Birdsall-Dreiss lecture


Le lundi 11 juin 2018 à 13h30, en salle de conf de l'OSUR, David Boutt propose un séminaire intitulé "Groundwater as a Buffer to Climatic Change​"

Le lundi 11 juin 2018 à 13h30, en salle de conf de l'OSUR, David Boutt propose un séminaire intitulé "Groundwater as a Buffer to Climatic Change​"

Cette présentation est proposée dans le cadre du 2018 Birdsall-Dreiss Distinguished Lecture

David Boutt is an Associate Professor in the Department of Geosciences at the University of Massachusetts-Amherst.  He received B.S. and M.S. degrees from the Department of Geological Sciences at Michigan State University in 1997 and 1999.  His MS work focused on understanding the impacts of land-use change on groundwater quantity and quality at the watershed-scale.  He earned his Ph.D. from the New Mexico Institute of Mining and Technology (Socorro, New Mexico, USA) in 2004 and held a postdoctoral position at Sandia National Laboratories before joining the faculty at UMass-Amherst in 2005. During his Ph.D. research he was awarded an AGU Horton Research Grant.  Dr. Boutt’s dissertation work focused on the coupling of fluid flow and deformation in fractured and faulted media through the development of discretely-coupled fluid-solid models. His current research program focuses on understanding the role of groundwater in catchment-scale hydrologic processes. This involves delineating the contribution of groundwater storage to stream flow generation, spring discharge, and hydrologic budgets. He maintains an active and dynamic research laboratory with dedicated students ranging from undergraduates to PhD students. His research interests have taken him on board the Japanese Drilling Vessel Chikyu during IODP Expedition 319 – the first riser drilling operation in IODP history – to wild of the Atacama desert in Chile.  Some of his current work is focused on understanding the origin of lithium-rich continental brines in northern Chile and in the Great Basin of the western United States.  Dr. Boutt has also contributed extensively to understanding the hydrogeology of a former cranberry bog that is part of the largest freshwater restoration project in New England (http://www.livingobservatory.org/). A list of his publications can be found at https://blogs.umass.edu/dboutt/. Boutt has served the hydrogeologic and broader geoscience communities by serving on proposal review panels and volunteer boards. Boutt has been a member of GSA since 1997 and has convened many topical sessions at GSA national meetings. He is currently an editor for the journal Hydrological Processes, and he was previously an associate editor for Hydrogeology journal. 


Groundwater as a Buffer to Climatic Change

The northeastern United States is experiencing rapid changes in its hydrology due to intense land-use change, urbanization, and climate change.  It also possesses some of the highest density, longest term observations of hydrologic variables (streamflow, groundwater levels) in the US and world.  The focus of this presentation is how small unconfined aquifer systems, and the streams to which they are connected, respond to hydroclimatic and land use changes.  The research is data-driven. Physical and geochemical information is used to understand how different subsurface environments and surface-water groundwater interactions impact the sensitivity of groundwater storage to climate variability. Analysis of groundwater levels and streamflows reveal a heterogeneous response of aquifers to climate variability. This highlights the role of subsurface hydrologeologic heterogeneity to aquifer response.   A long-term rise in water levels can be observed from analysis of water level trends. This is associated with an increase in precipitation and land-use change which has ultimately led to an increase in nuisance flooding.   Integrating isotopic tracers into this work has improved our understanding of the role of extreme precipitation events on groundwater storage. Isotope data have also shed light on the fundamental importance of groundwater discharge to streamflow in the region.  This work highlights the importance of understanding groundwater processes in generating in streamflow, with implications for water supply, baseflow generation, climate refugia, and assessing flood risk in a changing world.

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Laurent Longuevergne (Géosciences Rennes)
Alain-Hervé Le Gall (multiCOM OSUR)

ODD13 / ODD14 / ODD15