N. Fritz scite author profile

Abstract.A long term data acquisition effort of profile soil moisture is under way in southwestern France at 13 automated weather stations. This ground network was developed in order to validate remote sensing and model soil moisture estimates. In this paper, both those in situ observations and a synthetic data set covering continental France are used to test a simple method to retrieve root zone soil moisture from a time series of surface soil moisture information. A recursive exponential filter equation using a time constant, T , is used to compute a soil water index. The Nash and Sutcliff coefficient is used as a criterion to optimise the T parameter for each ground station and for each model pixel of the synthetic data set. In general, the soil water indices derived from the surface soil moisture observations and simulations agree well with the reference root-zone soil moisture. Overall, the results show the potential of the exponential filter equation and of its recursive formulation to derive a soil water index from surface soil moisture estimates. This paper further investigates the correlation of the time scale parameter T with soil properties and climate conditions. While no significant relationship could be determined between T and the main soil properties (clay and sand fractions, bulk density and organic matter content), the modelled spatial variability and the observed inter-annual variability of T suggest that a weak climate effect may exist.

show abstract

An evaluation of ASCAT surface soil moisture products with in-situ observations in Southwestern France

Albergel

Rüdiger

Carrer

et al. 2009

Hydrol. Earth Syst. Sci.

192

118

View full text Add to dashboard Cite

Abstract.A long term data acquisition effort of profile soil moisture is currently underway at 13 automatic weather stations located in Southwestern France. In this study, the soil moisture measured in-situ at 5 cm is used to evaluate the normalised surface soil moisture (SSM) estimates derived from coarse-resolution (25 km) active microwave data of the AS-CAT scatterometer instrument (onboard METOP), issued by EUMETSAT for a period of 6 months (April-September) in 2007. The seasonal trend is removed from the satellite and in-situ time series by considering scaled anomalies. One station (Mouthoumet) of the ground network, located in a mountainous area, is removed from the analysis as very few ASCAT SSM estimates are available. No correlation is found for the station of Narbonne, which is close to the Mediterranean sea. On the other hand, nine stations present significant correlation levels. For two stations, a significant correlation is obtained when considering only part of the ASCAT data. The soil moisture measured in-situ at those stations, at 30 cm, is used to estimate the characteristic time length (T ) of an exponential filter applied to the ASCAT product. The best correlation between a soil water index derived from AS-CAT and the in-situ soil moisture observations at 30 cm is obtained with a T -value of 14 days.

show abstract

Joint assimilation of surface soil moisture and LAI observations into a land surface model

Muñoz‐Sabater

Rüdiger

Calvet

et al. 2008

Agricultural and Forest Meteorology

View full text Add to dashboard Cite

In situ soil moisture observations for the CAL/VAL of SMOS: the SMOSMANIA network

et al. 2007

View full text Add to dashboard Cite

SMOSMANIA (Soil Moisture Observing SystemMeteorological Automatic Network Integrated Application) is a project aiming at implementing soil moisture measurements in a portion of the automatic ground station network of Météo-France (the RADOME network). The SMOSMANIA network will permit to monitor soil moisture in southwestern France thanks to in situ automatic, real-time measurements of soil moisture profiles (-5, -10, -20, -30 cm). Twelve ground stations were activated in 2006 forming a Mediterranean-Atlantic gradient. The soil moisture data acquisition became fully operational in January 2007. In 2007, soil temperature probes will be installed and the calibration of the soil moisture probes will be finalized. This ground network will be associated with modeling activities and will permit to validate the products of the SMOS (Soil Moisture and Ocean Salinity) mission of ESA, from 2008 to 2012.

show abstract

From near-surface to root-zone soil moisture using an exponential filter: an assessment of the method based on in-situ observations and model simulations

Albergel¹,

Rüdiger²,

Pellarin³

et al. 2008

Preprint

View full text Add to dashboard Cite

A long term data acquisition effort of profile soil moisture is under way in southwestern France at 13 automated weather stations. This ground network was developed in order to validate remote sensing and model soil moisture estimates. In this paper, both those in situ observations and a synthetic data set covering continental France are used to test a simple method to retrieve root zone soil moisture from a time series of surface soil moisture information. A recur-sive exponential filter equation using a time constant, T , is used to compute a soil water index. The Nash and Sutcliff coefficient is used as a criterion to optimise the T parameter for each ground station and for each model pixel of the synthetic data set. In general, the soil water indices derived from the surface soil moisture observations and simulations agree well with the reference root-zone soil moisture. Overall, the results show the potential of the exponential filter equation and of its recursive formulation to derive a soil water index from surface soil moisture estimates. This paper further investigates the correlation of the time scale parameter T with soil properties and climate conditions. While no significant relationship could be determined between T and the main soil properties (clay and sand fractions, bulk density and organic matter content), the modelled spatial variability and the observed inter-annual variability of T suggest that a weak climate effect may exist.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

N. Fritz

From near-surface to root-zone soil moisture using an exponential filter: an assessment of the method based on in-situ observations and model simulations

An evaluation of ASCAT surface soil moisture products with in-situ observations in Southwestern France

Joint assimilation of surface soil moisture and LAI observations into a land surface model

In situ soil moisture observations for the CAL/VAL of SMOS: the SMOSMANIA network

From near-surface to root-zone soil moisture using an exponential filter: an assessment of the method based on in-situ observations and model simulations

Contact Info

Product

Resources

About