Search results for "land surface"

showing 10 items of 76 documents

Forecasting Wheat Yield Using Remote Sensing: The ARYA Forecasting System

2021

In this study we present a model to forecast wheat yield based on the evolution of the Difference Vegetation Index (DVI) and the Growing Degree Days (GDD), presented in Franch et al. (2015), but adapted to Franch et al. (2019) model. Additionally, we explore how the Land Surface Temperature (LST) can be included into the model and if this parameter adds any value to the model when combined with the optical information. This study is applied to MODIS data at 1km resolution to monitor the national and state level yield of winter wheat in the United States and Ukraine from 2001 to 2019.

Land surface temperatureMeteorologyRemote sensing (archaeology)Yield (finance)Winter wheatEnvironmental scienceAtmospheric modelGrowing degree-dayVegetation Index2021 IEEE International Geoscience and Remote Sensing Symposium IGARSS
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Impact of spatial resolution and satellite overpass time on evaluation of the surface urban heat island effects

2012

Abstract Surface Urban Heat Island (SUHI) effect is defined as the increased surface temperature in urban areas in contrast to surrounding cooler temperatures in rural areas. In this paper, we study the characteristics that a spaceborne sensor must satisfy in terms of spatial resolution and overpass time to properly monitor the SUHI effect. For this, Land Surface Temperature (LST) maps, generated at different spatial resolution using the Airborne Hyperspectral Scanner (AHS) imagery, and in situ data of air temperature and LST obtained from the framework of the Dual-use European Security IR Experiment 2008 have been considered for the city of Madrid (Spain). The results showed that (1) spati…

Land surface temperatureMeteorologySoil ScienceHyperspectral imagingGeologyAir temperatureSunriseEnvironmental scienceSatelliteComputers in Earth SciencesUrban heat islandSurface urban heat islandImage resolutionRemote sensingRemote Sensing of Environment
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Monitoring global vegetation with the Yearly Land Cover Dynamics (YLCD) method

2011

Global vegetation has been traditionally monitored mainly through the use of the Normalized Difference Vegetation Index (NDVI). Land surface temperature (LST) provides additional information, and is generally less affected by atmospheric conditions when water vapor is taken into account. The Yearly Land Cover Dynamics (YLCD) method can then be used to retrieve 3 parameters which allow for a good differentiation between biomes at the global and local levels. Using NASA's Long Term Data Record (LTDR), the YLCD method has been applied to IDR (iterative Interpolation for Data Reconstruction) reconstructed LTDR data, in order to account for atmospheric contamination of part of the dataset for a …

Land surface temperaturePixelBiomeEnvironmental scienceLand coverVegetationNormalized Difference Vegetation IndexWater vaporRemote sensingInterpolation2011 6th International Workshop on the Analysis of Multi-temporal Remote Sensing Images (Multi-Temp)
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Using NASA'S Long Term Data Record version 3 for the monitoring of land surface vegetation

2011

Numerous datasets have been made available for the observation of our planet from space. The aim of this work is the observation of changes in vegetation, through the use of a recent remote sensing dataset, NASA's Long Term Data Record (LTDR). Several authors have pointed out that vegetation monitoring benefits of the simultaneous use of Normalized Difference Vegetation Index (NDVI) and land surface temperature (LST). Therefore, this work presents the procedure developed to monitor vegetation with the LTDR dataset, using both NDVI and LST parameters. This procedure includes data preprocessing (estimation of NDVI and LST, orbital drift correction, atmospherically contaminated data reconstruc…

Land surface temperatureRemote sensing (archaeology)Data reconstructionLong term dataEnvironmental scienceVegetationData pre-processingTime seriesNormalized Difference Vegetation IndexRemote sensing2011 6th International Workshop on the Analysis of Multi-temporal Remote Sensing Images (Multi-Temp)
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Urban morphology detection and it's linking with land surface temperature: A case study for Tehran Metropolis, Iran

2021

Abstract Expansion of urban areas and alteration of natural land cover exacerbate the local climate change. To find out the effect of land cover changes on the local climate, in this study, the Local Climate Zone (LCZ) concept was utilized to detect urban morphology in Tehran Metropolis. LCZ and Land Surface Temperature (LST) can be identified and classified based on available remote sensing products. Firstly, LCZ maps of Tehran metropolis were extracted using Landsat imagery, and secondly, relationships between LCZ and LST were explored for three years (1990, 2004, and 2018). We found that Tehran urban structure has 13 LCZs based on imagery from Landsat 5 and 14 LCZs based on images for La…

Land surface temperatureRenewable Energy Sustainability and the EnvironmentGeography Planning and DevelopmentUrban morphologyClimate changeTransportationLand coverArticleUrban structureRemote sensing (archaeology)Local climate zoneEnvironmental sciencePhysical geographyThermal remote sensingCivil and Structural EngineeringSustainable Cities and Society
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The Evaluation Of The Influence Of Land Surface Temperature In Energy Balance Estimated By S-Sebi Model

2020

Evapotranspiration (ET) is one of the least understood components of the hydrological cycle. Its application is varied, from agricultural, ecological and hydrological monitoring, to control of the evolution of climate change. The goal of this work was to analyze the influence that uncertainties in the estimate of Land Surface Temperature (LST) can cause on ET estimates by S-SEBI model in Pampa Biome area. The results indicate that the daily evapotranspiration is higher when the pixel LST is lower, which also shows the influence of land use on the variability of ET. They also demonstrated the importance of LST's accuracy in the selection of the driest and wettest pixels in applying S-SEBI mo…

Land useLand surface temperatureBiome0211 other engineering and technologiesEnergy balanceClimate change04 agricultural and veterinary sciences02 engineering and technologyAtmospheric sciencesLatent heatEvapotranspiration040103 agronomy & agriculture0401 agriculture forestry and fisheriesEnvironmental scienceWater cycle021101 geological & geomatics engineering2020 IEEE Latin American GRSS & ISPRS Remote Sensing Conference (LAGIRS)
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Multi-Season Phenology Mapping of Nile Delta Croplands Using Time Series of Sentinel-2 and Landsat 8 Green LAI

2022

Space-based cropland phenology monitoring substantially assists agricultural managing practices and plays an important role in crop yield predictions. Multitemporal satellite observations allow analyzing vegetation seasonal dynamics over large areas by using vegetation indices or by deriving biophysical variables. The Nile Delta represents about half of all agricultural lands of Egypt. In this region, intensifying farming systems are predominant and multi-cropping rotations schemes are increasing, requiring a high temporal and spatial resolution monitoring for capturing successive crop growth cycles. This study presents a workflow for cropland phenology characterization and mapping based on…

Landsat 8Land surface phenologyGreen leaf area indexgreen leaf area index; Sentinel-2; Landsat 8; land surface phenology; Gaussian Process Regression (GPR); time series analysisGaussian Process Regression (GPR)Time series analysisGeneral Earth and Planetary SciencesMatemática AplicadaSentinel-2Remote Sensing
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Regional-scale modeling of reference evapotranspiration: Intercomparison of two simplified temperature- and radiation-based approaches

2015

Two regionalized models for the distributed estimation of daily reference evapotranspiration, the temperature-based Hargreaves (HE) and the radiation-based Makkink (MK) equations, are applied in Southern Italy during the years 2007 and 2008. Spatially distributed meteorological inputs, such as air temperature and incoming solar radiation, were derived from geostatistical interpolation of ground data and from the Land Surface Analysis Satellite Application Facility (LSA-SAF) surface radiation product, respectively. Comparison of the latter with 83,394 daily measurements provided by 128 weather stations shows a not negligible seasonal error in daily solar radiation that is corrected by means …

MeteorologyLand Surface Analysis Satellite Application Facility (LSA-SAF) surface radiation productSouth ItalySettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaHargreaves equationRadiationAgricultural and Biological Sciences (miscellaneous)Makkink coefficient regionalizationEvapotranspirationEnvironmental scienceScale modelMakkink equationWater Science and TechnologyCivil and Structural Engineering
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NOAA-AVHRR Orbital Drift Correction From Solar Zenithal Angle Data

2008

This paper presents a new method for NOAA's (National Ocean and Atmospheric Administration) orbital drift correction. This method is pixel-based, and in opposition with most methods previously developed, does not need explicit knowledge of land cover. This method is applied to AVHRR (Advanced Very High Resolution Radiometer) channel information, and relies only on the additional knowledge of solar zenithal angle (SZA) and acquisition date information. In a first step, anomalies in SZA and channel time series are retrieved, and screened out for anomalous values. Then, the part of the parameter anomaly which is explained by SZA anomaly is removed from the data, to estimate new parameter anoma…

MeteorologyLand surface temperaturePixelAdvanced very-high-resolution radiometerGeneral Earth and Planetary SciencesEnvironmental scienceRadiometryLand coverElectrical and Electronic EngineeringTime seriesNormalized Difference Vegetation IndexRemote sensingCommunication channelIEEE Transactions on Geoscience and Remote Sensing
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Automatic classification-based generation of thermal infrared land surface emissivity maps using AATSR data over Europe

2012

The remote sensing measurement of land surface temperature from satellites provides a monitoring of this magnitude on a continuous and regular basis, which is a critical factor in many research fields such as weather forecasting, detection of forest fires or climate change studies, for instance. The main problem of measuring temperature from space is the need to correct for the effects of the atmosphere and the surface emissivity. In this work an automatic procedure based on the Vegetation Cover Method, combined with the GLOBCOVER land surface type classification, is proposed. The algorithm combines this land cover classification with remote sensing information on the vegetation cover fract…

MeteorologyWeather forecastingSoil ScienceClimate changeMagnitude (mathematics)Land surface emissivityVegetation coverGeologyAATSRAATSRLand covercomputer.software_genreTemperature measurementAtmosphereGlobcoverEmissivityEnvironmental scienceComputers in Earth SciencesLENGUAJES Y SISTEMAS INFORMATICOScomputerLand surface temperatureRemote sensingRemote Sensing of Environment
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