Evidence of preferential flow activation in the vadose zone via geophysical monitoring
Sensors
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Abstract
Preferential pathways allow rapid and non-uniform water movement in the subsurface due to strong heterogeneity of texture, composition, and hydraulic properties. Understanding the importance of preferential pathways is crucial, because they have strong impact on flow and transport hydrodynamics in the unsaturated zone. Particularly, improving knowledge of the water dynamics is essential for estimating travel time through soil to quantify hazards for groundwater, assess aquifer recharge rates, improve agricultural water management, and prevent surface stormflow and flooding hazards. Small scale field heterogeneities cannot be always captured by the limited number of point scale measurements collected. In order to overcome these limitations, noninvasive geophysical techniques have been widely used in the last decade to predict hydrodynamic processes, due to their capability to spatialize hydrogeophysical properties with high resolution. In the test site located in Bari, Southern Italy, the geophysical approach, based on electrical resistivity tomography (ERT) monitoring, has been implemented to detect preferential pathways triggered by an artificial rainfall event. ERT-derived soil moisture estimations were obtained in order to quantitatively predict the water storage (m3m−3), water velocity (ms−1), and spread (m2) through preferential pathways by using spatial moments analysis.
Study Area
| Publication type | Article |
|---|---|
| Publication Subtype | Journal Article |
| Title | Evidence of preferential flow activation in the vadose zone via geophysical monitoring |
| Series title | Sensors |
| DOI | 10.3390/s21041358 |
| Volume | 21 |
| Issue | 4 |
| Year Published | 2021 |
| Language | English |
| Publisher | MDPI |
| Contributing office(s) | WMA - Earth System Processes Division |
| Description | 1358, 15 p. |
| Country | Italy |
| City | Bari |
| Google Analytic Metrics | Metrics page |