Scaling PRI Between Coniferous Canopy Structures

Author

Mottus, Matti ; Rautiainen, Miina

Author_Institution

Dept. of Geosci. & Geogr., Univ. of Helsinki, Helsinki, Finland

Volume

6

Issue

2

fYear

2013

fDate

Apr-13

Firstpage

708

Lastpage

714

Abstract

We measured simultaneously the spectral albedo of ten Scots pine shoots and the needles constituting the shoots. Next, we used the spectral information to calculate the photochemical reflectance index (PRI) which allows to retrieve photosynthetic productivity from imaging spectroscopy data. We showed that PRI can be scaled from needle to shoot level using a strictly positive scaling factor. The scaling factor is a function of photon recollision probability and the harmonic mean of needle spectral albedos at the wavelengths used in the index. The method is applicable to other normalized difference indices, as demonstrated here using normalized difference vegetation index (NDVI). At shoot level, both PRI and NDVI depend on the angle between view and illumination directions. This anisotropy, however, is not a direct function of scattering angle.

Keywords

albedo; photosynthesis; probability; vegetation; vegetation mapping; Scots pine shoots; coniferous canopy structures; illumination direction; imaging spectroscopy data; needle level; needle spectral albedos; normalized difference vegetation index; photochemical reflectance index; photon recollision probability; photosynthetic productivity; positive scaling factor; scattering angle; shoot level; spectral information; view direction; Photochemical reflectance index; Pinus sylvestris; Scots pine; photon recollision probability; shoot scattering; vegetation structure;

fLanguage

English

Journal_Title

Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of

Publisher

ieee

ISSN

1939-1404

Type

jour

DOI

10.1109/JSTARS.2013.2253307

Filename

6494342