Terrestrial laser scanning intensity captures diurnal variation in leaf water potential

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http://hdl.handle.net/10138/324684

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Titel: Terrestrial laser scanning intensity captures diurnal variation in leaf water potential
Författare: Junttila, Samuli; Hölttä, Teemu; Puttonen, Eetu; Katoh, Masato; Vastaranta, Mikko; Kaartinen, Harri; Holopainen, Markus; Hyyppä, Hannu
Utgivare: Elsevier
Datum: 2021
Språk: en
Tillhör serie: Remote Sensing of Environment
ISSN: 0034-4257
1879-0704
Permanenta länken (URI): http://hdl.handle.net/10138/324684
Abstrakt: During the past decades, extreme events have become more prevalent and last longer, and as a result drought-induced plant mortality has increased globally. Timely in-formation on plant water dynamics is essential for under-standing and anticipating drought-induced plant mortality. Leaf water potential (ΨL), which is usually measured de-structively, is the most common metric that has been used for decades for measuring water stress. Remote sensing methods have been developed to obtain information on water dynamics from trees and forested landscapes. However, the spatial and temporal resolutions of the existing methods have limited our understanding of the water dynamics and diurnal variation of ΨL within single trees. Thus, we investi-gated the capability of terrestrial laser scanning (TLS) in-tensity in observing diurnal variation in ΨL during a 50-h monitoring period. We aimed to improve the understanding on how large a part of the diurnal variation in ΨL can be captured using TLS intensity observations. We found that TLS intensity at the 905 nm wavelength measured from a static position was able to explain 77% of the variation in ΨL for three trees of two tree species with a root mean square error of 0.141 MPa. Based on our experiment with three trees, a time series of TLS intensity measurements can be used in detecting changes in ΨL, and thus it is worthwhile to expand the investigations to cover a wider range of tree species and forests and further increase our understanding of plant water dynamics at wider spatial and temporal scales.
Subject: leaf water potential
lidar intensity
terrestrial laser scanning
diurnal variation
leaf water content
drought
tree health
plant water dynamics


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