Instrumentation and approach for unattended year round tower based measurements of spectral reflectance
Instrumentation and approach for unattended year round tower based measurements of spectral reflectance
Phyto-pigments play an important role in plant physiological processes and primary production. Because different groups of pigments absorb light in distinctive ways, spectroscopy can be used as a tool for phyto-pigment quantification. While technical restrictions have prevented the use of remote sensing for pigment detection in the past, the advent of fine spectral resolution radiometers has offered opportunities to detect leaf-pigment concentrations at a range of scales from portable spectro-radiometers to airborne instruments. This paper describes the development of a fully automated spectral data collection system composed of a radiometer, a motor driven probe, and a datalogger mounted on a tower to measure year round spectral reflectance under different view and sun angles. The instrument features a motor driven probe pointing at the canopy which is able to sample spectra in a near 360° view around the tower by completing a full rotation every 15min. The view zenith angle is adjustable and currently set to 62°; one scan is completed within 3s and the probe is forwarded about 11.5° every 30s. Simultaneous measurement of solar irradiance and reflectance facilitates sampling under various sky conditions. The height of the tower is 45m, and the sensor is located about 10m above the canopy. Over a 6-month test period, nearly 2 million scans have been collected and compiled at a field site, where ongoing eddy covariance (EC) flux measurements are being undertaken as part of the Fluxnet-Canada research network.
brdf, canopy reflectance, fluxnet, hyperspectral, near surface remote, remote sensing, sensing, specnet, spectro radiometer
72-84
Hilker, Thomas
c7fb75b8-320d-49df-84ba-96c9ee523d40
Coops, Nicholas C.
5511e778-fec2-4f54-8708-de65ba5a0992
Nesic, Zoran
a1581cdb-fcce-497b-ab4d-41d63e70bca2
Wulder, Michael A.
13414360-db3d-4d88-a76d-ccffd69d0084
Black, Andrew T.
f5d633a8-a587-4119-aa20-de42ea524b98
March 2007
Hilker, Thomas
c7fb75b8-320d-49df-84ba-96c9ee523d40
Coops, Nicholas C.
5511e778-fec2-4f54-8708-de65ba5a0992
Nesic, Zoran
a1581cdb-fcce-497b-ab4d-41d63e70bca2
Wulder, Michael A.
13414360-db3d-4d88-a76d-ccffd69d0084
Black, Andrew T.
f5d633a8-a587-4119-aa20-de42ea524b98
Hilker, Thomas, Coops, Nicholas C., Nesic, Zoran, Wulder, Michael A. and Black, Andrew T.
(2007)
Instrumentation and approach for unattended year round tower based measurements of spectral reflectance.
Computers and Electronics in Agriculture, 56 (1), .
(doi:10.1016/j.compag.2007.01.003).
Abstract
Phyto-pigments play an important role in plant physiological processes and primary production. Because different groups of pigments absorb light in distinctive ways, spectroscopy can be used as a tool for phyto-pigment quantification. While technical restrictions have prevented the use of remote sensing for pigment detection in the past, the advent of fine spectral resolution radiometers has offered opportunities to detect leaf-pigment concentrations at a range of scales from portable spectro-radiometers to airborne instruments. This paper describes the development of a fully automated spectral data collection system composed of a radiometer, a motor driven probe, and a datalogger mounted on a tower to measure year round spectral reflectance under different view and sun angles. The instrument features a motor driven probe pointing at the canopy which is able to sample spectra in a near 360° view around the tower by completing a full rotation every 15min. The view zenith angle is adjustable and currently set to 62°; one scan is completed within 3s and the probe is forwarded about 11.5° every 30s. Simultaneous measurement of solar irradiance and reflectance facilitates sampling under various sky conditions. The height of the tower is 45m, and the sensor is located about 10m above the canopy. Over a 6-month test period, nearly 2 million scans have been collected and compiled at a field site, where ongoing eddy covariance (EC) flux measurements are being undertaken as part of the Fluxnet-Canada research network.
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More information
Accepted/In Press date: 10 January 2007
Published date: March 2007
Keywords:
brdf, canopy reflectance, fluxnet, hyperspectral, near surface remote, remote sensing, sensing, specnet, spectro radiometer
Organisations:
Earth Surface Dynamics
Identifiers
Local EPrints ID: 384711
URI: http://eprints.soton.ac.uk/id/eprint/384711
ISSN: 0168-1699
PURE UUID: d302f4b5-e187-4e38-8f6e-f1c25a258190
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Date deposited: 18 Apr 2016 14:30
Last modified: 14 Mar 2024 22:03
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Contributors
Author:
Thomas Hilker
Author:
Nicholas C. Coops
Author:
Zoran Nesic
Author:
Michael A. Wulder
Author:
Andrew T. Black
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