FIBROKARST
Collected date : from 10 Nov 2020 ongoing
This project focuses on understanding karstic systems and particularly on the issue of recharge and transfer processes in these very heterogeneous and generally inaccessible environments. The objective is to use the fiber optic technique to identify the recharge points of the karstic aquifer of ...
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Discipline
- Geochemistry & geophysics
- Crystallography
- Environmental sciences
- Chemistry, organic
- Archaeology
- Microbiology
- Materials science, multidisciplinary
- Geosciences, multidisciplinary
- Chemistry, inorganic & nuclear
- Geology
- Cell biology
- Engineering, environmental
- Engineering, electrical & electronic
- Chemistry, physical
- Ecology
- Geography, physical
- Mycology
- Forestry
- Engineering, mechanical
- Electrochemistry
- Water resources
- Energy & fuels
- Parasitology
- Engineering, industrial
- Mathematical & computational biology
- Engineering, multidisciplinary
- Mineralogy
- Materials science, characterization & testing
- History
- Computer science, artificial intelligence
- Geography
- Biodiversity conservation
- Polymer science
- Biochemistry & molecular biology
- Remote sensing
- Dermatology
- Engineering, chemical
- Chemistry, applied
- Health care sciences & services
- Infectious diseases
- Marine & freshwater biology
- Materials science, biomaterials
- Materials science, coatings & films
- Mechanics
- Medical informatics
- Medieval & renaissance studies
- Ornithology
- Paleontology
- Pathology
- Physics, atomic, molecular & chemical
- Computer science, software engineering
- Robotics
- Surgery
- Toxicology
- Urban studies