ORCID Profile
0000-0001-6279-5871
Current Organisation
National Research Council Canada
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Publisher: ZappyLab, Inc.
Date: 04-06-2018
DOI: 10.17504/PROTOCOLS.IO.QP7DVRN
Abstract: Here wedescribe the standardised protocol used by the Canadian Airborne Bio ersity Observatory(CABO)to measure leaf spectral reflectance and transmittance, using an integrating sphere fitted to a portable full-range field spectroradiometer, forthe special case where an in idual leaf is too small and/or too narrowto entirely cover the reflectance or transmission port of the integrating sphere. Briefly, three arrays ofmature, healthy and sunlit leaves from a canopy plant are arranged on a custom s le mount, and are then usedfor measurements of adaxial reflectance and transmittance. Reflectance measurementsare referenced to a calibrated Spectralon® diskand corrected for stray light.Our leaf spectroscopy protocol is an adaptation ofthat of Noda et al. (2013)to the SVC DC-R/T sphere, and also builds from protocols by theCarnegie Airborne Observatoryand the SVC integrating sphere user manual.
Publisher: ZappyLab, Inc.
Date: 20-06-2018
DOI: 10.17504/PROTOCOLS.IO.Q56DY9E
Abstract: Here wedescribe the standardised protocol used by the Canadian Airborne Bio ersity Observatory(CABO)to measure leaf spectral reflectance and transmittance, using an integrating sphere fitted to a portable full-range field spectroradiometer, forthe special case where an in idual leaf is too small and/or too narrowto entirely cover the reflectance or transmission port of the integrating sphere. Briefly, sixarrays ofmature, healthy and sunlit leaves from a canopy plant are arranged on a custom s le mount, and are then usedfor measurements of adaxial reflectance and transmittance. Reflectance measurementsare referenced to a calibrated Spectralon® diskand corrected for stray light.Our leaf spectroscopy protocol is an adaptation ofthat of Noda et al. (2013)to the SVC DC-R/T sphere, and also builds from protocols by theCarnegie Airborne Observatoryand the SVC integrating sphere user manual.
Publisher: ZappyLab, Inc.
Date: 08-05-2018
DOI: 10.17504/PROTOCOLS.IO.PZBDP2N
Abstract: Here wedescribe the standardised protocol used by the Canadian Airborne Bio ersity Observatory(CABO)to measure leaf spectral reflectance and transmittance, using the Spectra Vista Corporation (SVC) DC-R/TIntegrating Spherefitted to a portable full-range SVC HR-1024i field spectroradiometer. This standard version of ourprotocol describesthe commoncase where an in idual leaf is large enough to entirely cover the reflectance or transmission port of the integrating sphere. Briefly, six mature, healthy-looking and sunlit leaves from a canopy plant are selected for measurements of adaxial reflectance and transmittance. Leaf scansare referenced to a calibrated Spectralon® diskand corrected for stray light.Our leaf spectroscopy protocol builds from that of theCarnegie Airborne Observatory.
Publisher: ZappyLab, Inc.
Date: 18-05-2018
DOI: 10.17504/PROTOCOLS.IO.P8PDRVN
Abstract: Here wedescribe the standardised protocol used by the Canadian Airborne Bio ersity Observatory(CABO)to measure leaf spectral reflectance and transmittance, using the Spectra Vista Corporation (SVC) DC-R/TIntegrating Spherefitted to a portable full-range SVC HR-1024i field spectroradiometer. This standard version of ourprotocol describesthe commoncase where an in idual leaf is large enough to entirely cover the reflectance or transmission port of the integrating sphere. Briefly, six mature, healthy-looking and sunlit leaves from a canopy plant are selected for measurements of adaxial reflectance and transmittance. Reflectance measurementsare referenced to a calibrated Spectralon® diskand corrected for stray light.Our leaf spectroscopy protocol builds from that of theCarnegie Airborne Observatory.
Publisher: Elsevier BV
Date: 03-2001
Publisher: IEEE
Date: 07-2006
Publisher: IEEE
Date: 2007
No related grants have been discovered for Raymond Soffer.