Hyporheic flow and transport processes: Mechanisms, models, and biogeochemical implications
Fifty years of hyporheic zone research have shown the important role played by the
hyporheic zone as an interface between groundwater and surface waters. However, it is only …
hyporheic zone as an interface between groundwater and surface waters. However, it is only …
Advances in understanding river‐groundwater interactions
River‐groundwater interactions are at the core of a wide range of major contemporary
challenges, including the provision of high‐quality drinking water in sufficient quantities, the …
challenges, including the provision of high‐quality drinking water in sufficient quantities, the …
Is the hyporheic zone relevant beyond the scientific community?
Rivers are important ecosystems under continuous anthropogenic stresses. The hyporheic
zone is a ubiquitous, reactive interface between the main channel and its surrounding …
zone is a ubiquitous, reactive interface between the main channel and its surrounding …
Measurements and observations in the XXI century (MOXXI): Innovation and multi-disciplinarity to sense the hydrological cycle
To promote the advancement of novel observation techniques that may lead to new sources
of information to help better understand the hydrological cycle, the International Association …
of information to help better understand the hydrological cycle, the International Association …
Groundwater-surface water interactions: New methods and models to improve understanding of processes and dynamics
Interest in groundwater (GW)-surface water (SW) interactions has grown steadily over the
last two decades. New regulations such as the EU Water Framework Directive (WFD) now …
last two decades. New regulations such as the EU Water Framework Directive (WFD) now …
[HTML][HTML] Using multi-tracer inference to move beyond single-catchment ecohydrology
Protecting or restoring aquatic ecosystems in the face of growing anthropogenic pressures
requires an understanding of hydrological and biogeochemical functioning across multiple …
requires an understanding of hydrological and biogeochemical functioning across multiple …
Heat as a tracer to quantify water flow in near-surface sediments
The dynamic distribution of thermal conditions present in saturated near-surface sediments
have been widely utilised to quantify the flow of water. A rapidly increasing number of …
have been widely utilised to quantify the flow of water. A rapidly increasing number of …
Automated calculation of vertical pore-water flux from field temperature time series using the VFLUX method and computer program
Heat is a useful tracer for quantifying groundwater–surface water interaction, but analyzing
large amounts of raw thermal data has many challenges. We present a computer program …
large amounts of raw thermal data has many challenges. We present a computer program …
Double-ended calibration of fiber-optic Raman spectra distributed temperature sensing data
N Van de Giesen, SC Steele-Dunne, J Jansen, O Hoes… - Sensors, 2012 - mdpi.com
Over the past five years, Distributed Temperature Sensing (DTS) along fiber optic cables
using Raman backscattering has become an important tool in the environmental sciences …
using Raman backscattering has become an important tool in the environmental sciences …
Using high‐resolution distributed temperature sensing to quantify spatial and temporal variability in vertical hyporheic flux
Hyporheic flow can be extremely variable in space and time, and our understanding of
complicated flow systems, such as exchange around small dams, has generally been limited …
complicated flow systems, such as exchange around small dams, has generally been limited …