about
Radiative transfer code SHARM-3D for radiance simulations over a non-Lambertian nonhomogeneous surface: intercomparison studyVegetation dynamics and rainfall sensitivity of the Amazon.Reply to Gonsamo et al.: Effect of the Eastern Atlantic-West Russia pattern on Amazon vegetation has not been demonstrated.Regional atmospheric CO2 inversion reveals seasonal and geographic differences in Amazon net biome exchange.Monthly analysis of PM ratio characteristics and its relation to AOD.Estimation of daily PM10 concentrations in Italy (2006-2012) using finely resolved satellite data, land use variables and meteorology.Land and cryosphere products from Suomi NPP VIIRS: Overview and statusUsing High-Resolution Satellite Aerosol Optical Depth To Estimate Daily PM2.5 Geographical Distribution in Mexico City.Hyperspectral remote sensing of foliar nitrogen content.Spatiotemporal prediction of fine particulate matter using high-resolution satellite images in the Southeastern US 2003-2011.Climate drivers of the Amazon forest greeningSatellite observed widespread decline in Mongolian grasslands largely due to overgrazing.Developing particle emission inventories using remote sensing (PEIRS).Global Estimates of Fine Particulate Matter using a Combined Geophysical-Statistical Method with Information from Satellites, Models, and Monitors.Spatial scales of pollution from variable resolution satellite imaging.Estimating daily PM2.5 and PM10 across the complex geo-climate region of Israel using MAIAC satellite-based AOD data.Improving satellite-driven PM2.5 models with Moderate Resolution Imaging Spectroradiometer fire counts in the southeastern U.S.10-year spatial and temporal trends of PM2.5 concentrations in the southeastern US estimated using high-resolution satellite data.A New Hybrid Spatio-Temporal Model For Estimating Daily Multi-Year PM2.5 Concentrations Across Northeastern USA Using High Resolution Aerosol Optical Depth Data.The Potential Impact of Satellite-Retrieved Cloud Parameters on Ground-Level PM2.5 Mass and Composition.Reply to Ollinger et al.: Remote sensing of leaf nitrogen and emergent ecosystem properties.Reply to Townsend et al.: Decoupling contributions from canopy structure and leaf optics is critical for remote sensing leaf biochemistry.Radiative transfer codes for atmospheric correction and aerosol retrieval: intercomparison study.MAIAC-based long-term spatiotemporal trends of PM2.5 in Beijing, China.Assessing PM2.5 Exposures with High Spatiotemporal Resolution across the Continental United States.Progress in Remote Sensing of Photosynthetic Activity over the Amazon Basin.Radiative transfer code SHARM for atmospheric and terrestrial applications.Parameterized code SHARM-3D for radiative transfer over inhomogeneous surfaces.Green's function method in the radiative transfer problem. II. Spatially heterogeneous anisotropic surface.Evaluation of the Multi-Angle Implementation of Atmospheric Correction (MAIAC) Aerosol Algorithm through Intercomparison with VIIRS Aerosol Products and AERONET.Scaling estimates of vegetation structure in Amazonian tropical forests using multi-angle MODIS observations.Prototyping of LAI and FPAR Retrievals from MODIS Multi-Angle Implementation of Atmospheric Correction (MAIAC) DataAmazon Forests’ Response to Droughts: A Perspective from the MAIAC ProductSunlight mediated seasonality in canopy structure and photosynthetic activity of Amazonian rainforestsAssessing snow extent data sets over North America to inform and improve trace gas retrievals from solar backscatterAgricultural Burning and Air Quality over Northern India: A Synergistic Analysis using NASA’s A-train Satellite Data and Ground MeasurementsCharacterization of forest fire smoke event near Washington, DC in summer 2013 with multi-wavelength lidarObservations of the Interaction and Transport of Fine Mode Aerosols With Cloud and/or Fog in Northeast Asia From Aerosol Robotic Network and Satellite Remote SensingObservations of rapid aerosol optical depth enhancements in the vicinity of polluted cumulus cloudsLocal analysis of MISR surface BRF and albedo over GSFC and mongu AERONET sites
P50
Q28203332-803A0C0E-A4E9-4177-A2A5-501C4085A53DQ30864539-0F4DD175-210A-4488-A8F3-AA2BF9CB1BE0Q30899545-DC6A5737-B27A-4BFD-A2FB-7AEBA3BBEF59Q31086775-4B83E038-6621-4249-8B73-E8E6343B1E6AQ31126381-F2473388-FEAE-40E2-ADA9-080A21E17E2CQ31151229-425F13BC-FA13-42DE-967B-C947F9561C46Q35219558-0B9C4374-9C96-41D7-A980-DBD387314F0CQ35875526-4FF18236-0366-4274-A8B5-712B01E87E22Q36545660-F050FEB0-CA05-4D63-B6EC-09D146E1E1D4Q36599300-596EAB8A-7B2B-412E-A03E-B5A7EA9D135DQ38678812-E173B536-FF02-4A2F-9D68-CC8A08408A95Q39067612-5FEF79DE-4A00-4D6F-A94C-CF193E2B8EFAQ39366538-6F3059F3-8DD8-4E19-89C4-15A9D67D0FC0Q39939617-E1A28FE4-B518-4C23-A47D-2F14F1E88C8AQ40066300-F2747613-1192-4D4D-89E3-11337F5815B5Q42019535-833A841A-696D-4BE2-B543-CF362A2EF5F9Q42169562-4914F29A-2F28-4D18-B918-9364346496CEQ42366117-0B239B6B-D28F-4062-B6EA-F2F8A50A10A3Q42367579-6810E97E-8FB3-429B-AB84-99E8949C3E01Q42695714-87ED3C76-A8B0-4FE3-8590-3EFC66F0C17DQ43103133-56AAAEC4-B8D6-4CD5-8D69-8FA586C7FFB9Q43217585-A206BC46-10F3-4BBC-B0D2-F3DA5295DAF7Q45891843-ED6A822F-618E-4434-B90D-C112A45B6CECQ48553958-67766DED-8E48-47A7-8E88-FC3061B742FFQ49377448-7CC5DCF7-1462-46D9-BDC1-7A07C5AD6A41Q49628213-512D03CA-D2FD-4616-B229-2607C3E63FB1Q51957336-810A8A8E-0822-47CA-AA21-E280D15D8978Q51957904-C7100876-7F43-482C-8C50-3BC126CB9ECCQ52032090-7FF1257B-25E1-4AC4-9EBA-D1F7ED1ED303Q54983018-02CE0E2B-7A82-4C17-BC63-12FBF35A8ED8Q55222091-9D4A2164-33F6-4017-A80C-46DB0030D31EQ57159645-46C6C68F-DA9F-4C3D-B93F-EA939C2081FBQ57159660-98C50E73-0490-4A6D-94A8-FF383E6C10B2Q57159723-90FD893A-4D9C-47BA-95F5-E51B51ED46BEQ57202393-554D1003-A54E-4A78-BD97-CB943DE7FAFBQ57256597-BB484FB8-2292-4CF4-9659-6A6FCF38C85BQ57864891-751E6D56-CC15-446E-90CA-618038E75496Q58002838-278C1AA4-0B84-4E6E-B6EA-E4716126FC96Q58002872-1EACAAFD-FD05-42C4-B35A-37DD6A96ABDEQ58002935-C2D21A8B-74A3-42F9-BBE8-F03E9E41E5F5
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Alexei Lyapustin
@ast
Alexei Lyapustin
@en
Alexei Lyapustin
@es
Alexei Lyapustin
@nl
type
label
Alexei Lyapustin
@ast
Alexei Lyapustin
@en
Alexei Lyapustin
@es
Alexei Lyapustin
@nl
prefLabel
Alexei Lyapustin
@ast
Alexei Lyapustin
@en
Alexei Lyapustin
@es
Alexei Lyapustin
@nl
P106
P21
P31
P496
0000-0003-1105-5739