Soil Moisture Sensor Network Design for Hydrological Applications

Zhuo, Lu; Dai, Qiang; Zhao, Binru; Han, Dawei

doi:10.5194/hess-2020-24

Cited by 2 publications

(1 citation statement)

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“…The monitoring system was able to detect six debris flows and 11 debris floods between summer 2009 and autumn 2012. In situ field measurements in a limited set of locations can indeed be representative for an unexpected large region, and for this reason, soil moisture network design studies for hydrological applications is changing in order to define the minimal required number of sensors for capturing accurately the catchment-scale soil moisture information, as reported by Zhuo et al (2020). Obviously, the monitoring system should be customized (i.e., relevant variables, installed sensors, frequency of acquisition, etc.)…”

Section: Understanding Landslide Hydrological Processes Through Exper...mentioning

confidence: 99%

Recent advancements of landslide hydrology

2023

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Occurrence of rainfall‐induced landslides is increasing worldwide, owing to land use and climate changes. Although the connection between hydrology and rainfall‐induced landslides might seem obvious, hydrological processes have been only marginally considered in landslide research for decades. In 2016, an advanced review paper published in WIREs Water [Bogaard and Greco (2016), WIREs Water, 3(3), 439–459] pointed out several challenging issues for landslide hydrology research: considering large‐scale hydrological processes in the assessment of slope water balance; including antecedent hydrological information in landslide hazard assessment; understanding and quantifying the feedbacks between deformation and infiltration/drainage processes; overcoming the conceptual mismatch of soil mechanics models and hydrological models. While little progress has been made on the latter two issues, a variety of studies have been published, focusing on the role of hydrological processes in landslide initiation and prediction. The importance of the identification of the origin of water to understand the processes leading to landslide activation is largely acknowledged. Techniques and methodologies for the definition of landslide catchments and for the assessment of landslide water balance are progressing fast, often considering the hydraulic effect of vegetation. The use of hydrological information in landslide prediction models has also progressed enormously. Empirical predictive tools, to be implemented in early warning systems for shallow landslides, benefit from the inclusion of antecedent soil moisture, extracted from different sources depending on the scale of the prediction, leading to significant improvement of their predictive skill. However, this kind of information is generally still missing in operational LEWS.This article is categorized under: Science of Water > Hydrological Processes

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Section: Understanding Landslide Hydrological Processes Through Exper...mentioning

confidence: 99%