Search results for "Water content"

showing 10 items of 380 documents

A geostatistical approach to map near-surface soil moisture through hyperspatial resolution thermal inertia.

2021

Thermal inertia has been applied to map soil water content exploiting remote sensing data in the short and long wave regions of the electromagnetic spectrum. Over the last years, optical and thermal cameras were sufficiently miniaturized to be loaded onboard of unmanned aerial systems (UASs), which provide unprecedented potentials to derive hyperspatial resolution thermal inertia for soil water content mapping. In this study, we apply a simplification of thermal inertia, the apparent thermal inertia (ATI), over pixels where underlying thermal inertia hypotheses are fulfilled (unshaded bare soil). Then, a kriging algorithm is used to spatialize the ATI to get a soil water content map. The pr…

Kriging interpolation thematic mapping thermal admittance UAS variogram analysisSettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaMultispectral image0211 other engineering and technologies02 engineering and technologyMicrowave imagingITC-ISI-JOURNAL-ARTICLEContent (measure theory)Soil waterGeneral Earth and Planetary SciencesEnvironmental scienceKriging interpolation thematic mapping thermal admittance UAS variogram analysis.Electrical and Electronic EngineeringReflectometryImage resolutionWater contentSettore ICAR/06 - Topografia E Cartografia021101 geological & geomatics engineeringRemote sensingInterpolation
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Calibrating the effective scattering albedo in the SMOS algorithm: some first results

2016

International audience; This study focuses on the calibration of the effective scattering albedo (ω) of vegetation in the soil moisture (SM) retrieval at L-Band. Currently, in the SMOS Level 2 and 3 algorithms, the value of ω is set to 0 for low vegetation and ∼ 0.06 – 0.08 for forests. Different parameterizations of vegetation (in terms of ω values) were tested in this study. The possibility of combining soil roughness and vegetation contributions as a single parameter (“combined” method) leads to an important simplification in the algorithm and was also evaluated here. Following these assumptions, retrieved values of SMOS SM were compared with SM data measured over many in situ sites worl…

L band010504 meteorology & atmospheric sciencesPixelScattering0211 other engineering and technologies[SDU.STU]Sciences of the Universe [physics]/Earth SciencesSingle parameter02 engineering and technologyVegetationSMAP15. Life on landAlbedo01 natural sciencesscattering albedoCalibrationEnvironmental sciencesoil moistureL-MEB modelAlgorithmWater content[SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing021101 geological & geomatics engineering0105 earth and related environmental sciencesRemote sensingSMOS
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Incidence Angle Diversity on L-Band Microwave Radiometry and Its Impact on Consistent Soil Moisture Retrievals

2021

Incidence angle diversity of space-borne L-band radiometers needs to be taken into account for a consistent estimation of surface soil moisture (SM). In this study, the Land Parameter Retrieval Model (LPRM) is applied to SMOS brightness temperatures to calibrate the effective scattering albedo (w) and the soil roughness (h 1 ) parameter against ERA5-land SM. The analysis is carried out for SMOS data at three different incidence angles ( 32.5±5∘, 42.5±5∘ and 52.5±5∘ ) focusing in 2016 on the three main land cover types of the Iberian Peninsula according to the Climate Change Initiative (agricultural, forest and grassland). The parameterization shows an increasing trend of w and h 1 with rise…

L bandBrightnessmicrowaveincidence angleScattering albedoradiometryLand coverAtmospheric sciencesMicroonesmulti-angularMicrowavesWater contentRadiometerScattering:Enginyeria de la telecomunicació [Àrees temàtiques de la UPC]AlbedoL-bandSatèl·lits artificials en teledeteccióEnvironmental scienceSoil moistureRoughness and incidence angle diversitysoil moistureMicrowave radiometryLPRMArtificial satellites in remote sensingSMOS
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Comparison of downscaling techniques for high resolution soil moisture mapping

2017

Soil moisture impacts exchanges of water, energy and carbon fluxes between the land surface and the atmosphere. Passive microwave remote sensing at L-band can capture spatial and temporal patterns of soil moisture in the landscape. Both ESA and NASA have launched L-band radiometers, in the form of the SMOS and SMAP satellites respectively, to monitor soil moisture globally, every 3-day at about 40 km resolution. However, their coarse scale restricts the range of applications. While SMAP included an L-band radar to downscale the radiometer soil moisture to 9 km, the radar failed after 3 months and this initial approach is not applicable to developing a consistent long term soil moisture prod…

L bandRadiometer010504 meteorology & atmospheric sciences0211 other engineering and technologiesdownscalingFOS: Physical sciencesPhysics - Applied PhysicsApplied Physics (physics.app-ph)02 engineering and technology01 natural scienceslaw.inventionAtmosphereMicrowave imaging13. Climate actionlawcomparisonEnvironmental scienceRadarsoil moistureScale (map)Water content021101 geological & geomatics engineering0105 earth and related environmental sciencesDownscalingRemote sensing
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Intercomparison of soil moisture retrieved from GNSS-R and passive L-band radiometry at the Valencia Anchor Station

2016

In this paper, the SOMOSTA (Soil Moisture Monitoring Station) experiment on soil moisture monitoring by Global Navigation Satellite System Reflected signals(GNSS-R) at the Valencia Anchor Station is introduced.

L bandRadiometer010504 meteorology & atmospheric sciencesbiology0208 environmental biotechnologySatellite system02 engineering and technologybiology.organism_classification01 natural sciences020801 environmental engineeringL band radiometryGNSS applicationsRemote sensing (archaeology)Environmental scienceValenciaWater content0105 earth and related environmental sciencesRemote sensing2016 IEEE International Geoscience and Remote Sensing Symposium (IGARSS)
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Retrieval of Forest Water Potential from L-Band Vegetation Optical Depth

2021

A retrieval methodology for forest water potential from ground-based L-band radiometry is proposed. It contains the estimation of the gravimetric and the relative water content of a forest stand and tests in situ- and model-based functions to transform these estimates into forest water potential. The retrieval is based on vegetation optical depth data from a tower-based experiment of the SMAPVEX 19–21 campaign for the period from April to October 2019 at Harvard Forest, MA, USA. In addition, comparison and validation with in situ measurements on leaf and xylem water potential as well as on leaf wetness and complex permittivity are foreseen to understand limitations and potentials of the pro…

L bandRadiometerXylemradiometryVegetationL-bandFootprintharvard forestforestvegetation moistureEnvironmental scienceRadiometryVegetation optical depthground-basedwater potentialWater contentLeaf wetnessRemote sensing2021 IEEE International Geoscience and Remote Sensing Symposium IGARSS
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Analyzing the impact of using the SRP (Simplified roughness parameterization) method on soil moisture retrieval over different regions of the globe

2015

International audience; This paper focuses on a new approach to account for soil roughness effects in the retrieval of soil moisture (SM) at L-band in the framework of the SMOS (Soil Moisture and Ocean Salinity) mission: the Simplified Roughness Parameterization (SRP). While the classical retrieval approach considers SM and τ nad (vegetation optical depth) as retrieved parameters, this approach is based on the retrieval of SM and the TR parameter combining τ nad and soil roughness (TR τ nad + Hr /2). Different roughness parameterizations were tested to find the best correlation (R), bias and unbiased RMSE (ubRMSE) when comparing homogeneous retrievals of SM and in situ SM measurements carri…

L bandVegetation optical depth010504 meteorology & atmospheric sciencesMean squared errorvegetation mapping0211 other engineering and technologiesSampling (statistics)[SDU.STU]Sciences of the Universe [physics]/Earth SciencesSoil science02 engineering and technologySurface finish01 natural sciencesL-bandHomogeneousEnvironmental sciencesoil measurementsmicrowave radiometrysoil moistureWater contentSoil roughness[SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processingmathematical model021101 geological & geomatics engineering0105 earth and related environmental sciences
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A simple algorithm for retrieval of the optical thickness at L-band from SMOS data

2012

Vegetation indices are indicators for analyzing the properties of vegetation. The Normalized Difference Vegetation Index (NDVI) from optical remote sensing data is one of the most commonly used vegetation indices, which can exhibit the ecological characteristics of leafy materials, but lacks the ability to directly provide information on the woody materials. In this paper, we developed Microwave Vegetation Indices (MVIs) from the L-band Soil Moisture and Ocean Salinity (SMOS) data, which is an effective means to detect the information of branches and trunks. The theory of MVIs is derived from the tau-omega model. To minimize the influence from the uncertain soil surface radiation, a paramet…

L bandmedicineEnvironmental scienceSoil scienceEnhanced vegetation indexmedicine.symptomVegetation (pathology)Water contentIntegral equationNormalized Difference Vegetation IndexMicrowaveSIMPLE algorithmRemote sensing2012 IEEE International Geoscience and Remote Sensing Symposium
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A method for soil moisture probes calibration and validation of satellite estimates

2017

Graphical abstract

Land surface processes010504 meteorology & atmospheric sciencesOtras Ciencias de la Tierra y relacionadas con el Medio AmbienteClinical Biochemistry0211 other engineering and technologiesContext (language use)Soil science02 engineering and technologySoil water content01 natural sciencesREMOTE SENSINGCiencias de la Tierra y relacionadas con el Medio Ambiente//purl.org/becyt/ford/1 [https]//purl.org/becyt/ford/1.5 [https]Pedotransfer functionCalibrationlcsh:ScienceWater contentComputingMethodologies_COMPUTERGRAPHICS021101 geological & geomatics engineering0105 earth and related environmental sciencesRemote sensingSOIL MOISTURE AND OCEAN SALINITY (SMOS)Oceanografía Hidrología Recursos HídricosSoil classificationMethod ArticleSOIL WATER CONTENTRemote sensingSoil typeMedical Laboratory TechnologySoil Moisture and Ocean Salinity (SMOS)LAND SURFACE PROCESSESSoil waterEnvironmental scienceSatellitelcsh:QCIENCIAS NATURALES Y EXACTASMethodsX
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Automated Soil Moisture Monitoring Wireless Sensor Network for Long-Term Cal/Val Applications

2012

The design and development of a wireless sensor network for soil moisture measurement in an unlevelled 10 km × 10 km area, is described. It was specifically deployed for the characterization of a reference area, in campaigns of calibration and validation of the space mission SMOS (Soil Moisture and Ocean Salinity), but the system is easily extensible to monitor other climatic or environmental variables, as well as to other regions of ecological interest. The network consists of a number of automatic measurement stations, strategically placed following soil homogeneity and land uses criteria. Every station includes acquisition, conditioning and communication systems. The electronics are batt…

Land usebusiness.industrycomputer.internet_protocolComputer scienceAutonomous system (Internet)Communications systemTerm (time)The InternetElectronicsTelecommunicationsbusinessWater contentcomputerWireless sensor networkRemote sensingWireless Sensor Network
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