DigitalCrust – a 4D data system of material properties for transforming research on crustal fluid flow

Geofluids
By: , and 

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Abstract

Fluid circulation in the Earth's crust plays an essential role in surface, near surface, and deep crustal processes. Flow pathways are driven by hydraulic gradients but controlled by material permeability, which varies over many orders of magnitude and changes over time. Although millions of measurements of crustal properties have been made, including geophysical imaging and borehole tests, this vast amount of data and information has not been integrated into a comprehensive knowledge system. A community data infrastructure is needed to improve data access, enable large-scale synthetic analyses, and support representations of the subsurface in Earth system models. Here, we describe the motivation, vision, challenges, and an action plan for a community-governed, four-dimensional data system of the Earth's crustal structure, composition, and material properties from the surface down to the brittle–ductile transition. Such a system must not only be sufficiently flexible to support inquiries in many different domains of Earth science, but it must also be focused on characterizing the physical crustal properties of permeability and porosity, which have not yet been synthesized at a large scale. The DigitalCrust is envisioned as an interactive virtual exploration laboratory where models can be calibrated with empirical data and alternative hypotheses can be tested at a range of spatial scales. It must also support a community process for compiling and harmonizing models into regional syntheses of crustal properties. Sustained peer review from multiple disciplines will allow constant refinement in the ability of the system to inform science questions and societal challenges and to function as a dynamic library of our knowledge of Earth's crust.

Publication type Article
Publication Subtype Journal Article
Title DigitalCrust – a 4D data system of material properties for transforming research on crustal fluid flow
Series title Geofluids
DOI 10.1111/gfl.12114
Volume 15
Issue 1-2
Year Published 2015
Language English
Publisher Wiley
Contributing office(s) John Wesley Powell Center for Analysis and Synthesis, Core Science Analytics, Synthesis, and Libraries
Description 8 p.
First page 372
Last page 379
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