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Advancing the use of satellites to constrain atmospheric methane fluxes
S. Pandey
Sub Atmospheric physics and chemistry
Marine and Atmospheric Research
Research output
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Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
1
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Dive into the research topics of 'Advancing the use of satellites to constrain atmospheric methane fluxes'. Together they form a unique fingerprint.
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Keyphrases
Aerosol
16%
Aircraft Measurements
16%
Anthropogenic Greenhouse Gases
16%
Atmospheric Methane
100%
Carbon Isotopes
16%
CH4 Emission
16%
Cirrus
16%
CO2 Model
16%
CO2 Mole Fraction
33%
Flux Estimate
16%
Global Coverage
16%
Greenhouse Effect
16%
Greenhouse Gases Observing SATellite (GOSAT)
16%
Ground Measurements
33%
Ground-based Sensors
16%
Heavy Precipitation
16%
Human-induced
16%
In Situ Measurements
16%
Inverse Model
33%
Inverse Modeling
16%
Inversion Method
33%
Light Scattering
16%
Meteorology
16%
Methane Flux
100%
Model Errors
16%
Mole Fraction
33%
Numerical Experiments
16%
Observing Network
16%
Proxy Method
16%
Quality Measures
16%
Ratio Estimation
16%
Residual Error
16%
Retrieval Error
33%
Satellite Data
16%
Satellite Platform
16%
Satellite Retrieval
100%
Similarity Experiment
16%
Surface Emission
16%
Surface Fluxes
33%
Total Carbon
16%
Tropics
16%
Wetland Emissions
16%
Wetland Extent
16%
Wetlands
16%
Earth and Planetary Sciences
Airborne Survey
10%
Atmospherics
100%
Carbon Isotope Ratio
10%
Emissions
50%
GOSAT
10%
Greenhouse Gas
10%
Ground-Based Measurement
20%
In Situ Measurement
10%
Limiting Factor
10%
Methane
100%
Satellite Data
10%
Surface Flux
20%