Filling in of Fraunhofer lines by plant fluorescence: simulations for a nadir-viewing satellite-borne instrument

Sioris, C.E.; Bazalgette Courrèges-Lacoste, G.A.F.; Stoll, M.P.

Filling in of Fraunhofer lines by plant fluorescence: simulations for a nadir-viewing satellite-borne instrument

article

2003

Sioris, C.E.

Bazalgette Courrèges-Lacoste, G.A.F.

Stoll, M.P.

Solar-excited plant fluorescence in the red/near-infrared is known to fill Fraunhofer lines at ground level. In this paper, it is shown that red/near-infrared fluorescence by vegetation can fill Fraunhofer lines much more effectively than rotational Raman scattering (RRS) by air (Ring effect) for nadir viewing from satellite altitudes. Thus, similarly to RRS, plant fluorescence can be remotely sensed from an orbiting spectrometer, and may impact the retrieval of atmospheric trace gases such as water vapor by high-resolution spectroscopy over vegetated land.

Topics

Inelastic Radiative transfer fluorescence radiative transfer remote sensing satellite sensor

TNO Identifier

236970

Repository link

https://resolver.tno.nl/uuid:e6cf3eb6-e3cd-4e66-84ea-611c344252f5

ISSN

01480227

Source

Journal of Geophysical Research D: Atmospheres, 108(4), pp. 3-1.

Pages

3-1

Files

Download sioris-2003-filling.pdf

Filling in of Fraunhofer lines by plant fluorescence: simulations for a nadir-viewing satellite-borne instrument

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