Upscaling of solar induced chlorophyll fluorescence from leaf to canopy using the dart model and a realistic 3D forest scene
Year of publication
2017
Authors
Liu, Weiwei; Atherton, Jonathan Mark; Mõttus, Matti; MacArthur, Alasdair; Teemu, Hakala; Maseyk, Kadmiel; Robinson, Iain; Honkavaara, Eija; Porcar Castell, Juan Alberto
Abstract
<p>Solar induced chlorophyll a fluorescence (SIF) has been shown to be an excellent proxy of photosynthesis at multiple scales. However, the mechanical linkages between fluorescence and photosynthesis at the leaf level cannot be directly applied at canopy or field scales, as the larger scale SIF emission depends on canopy structure. This is especially true for the forest canopies characterized by high horizontal and vertical heterogeneity. While most of the current studies on SIF radiative transfer in plant canopies are based on the assumption of a homogeneous canopy, recently codes have been developed capable of simulation of fluorescence signal in explicit 3-D forest canopies. Here we present a canopy SIF upscaling method consisting of the integration of the 3-D radiative transfer model DART and a 3-D object model BLENDER. Our aim was to better understand the effect of boreal forest canopy structure on SIF for a spatially explicit forest canopy.</p>
Show moreOrganizations and authors
Publication type
Publication format
Article
Parent publication type
Conference
Article type
Other article
Audience
ScientificPeer-reviewed
Peer-ReviewedMINEDU's publication type classification code
B3 Article in conference proceedings (non-peer-reviewed)Publication channel information
Journal/Series
International archives of the photogrammetry, remote sensing and spatial information sciences
Parent publication name
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences,
Publisher
Volume
XLII-3/W3
Pages
1-5
ISSN
Publication forum
Open access
Open access in the publisher’s service
Yes
Open access of publication channel
Fully open publication channel
Self-archived
Yes
License of the self-archived publication
CC BY
Other information
Fields of science
Materials engineering; Forestry
Keywords
[object Object],[object Object],[object Object],[object Object],[object Object]
Internationality of the publisher
International
Language
English
International co-publication
Yes
Co-publication with a company
No
DOI
10.5194/isprs-archives-XLII-3-W3-107-2017
The publication is included in the Ministry of Education and Culture’s Publication data collection
Yes