M
Mark N. Merzlyak
Researcher at Moscow State University
Publications - 76
Citations - 14110
Mark N. Merzlyak is an academic researcher from Moscow State University. The author has contributed to research in topics: Chlorophyll & Ripening. The author has an hindex of 40, co-authored 76 publications receiving 11692 citations. Previous affiliations of Mark N. Merzlyak include Ben-Gurion University of the Negev.
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Use of a green channel in remote sensing of global vegetation from EOS- MODIS
TL;DR: In this article, a green vegetation index, tailored on the concept of ARVI (Kaufman and Tanre, 1992), is developed and is expected to be as resistant to atmospheric effects as ARVI but more sensitive to a wide range of Chl-a concentrations.
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Relationships between leaf chlorophyll content and spectral reflectance and algorithms for non-destructive chlorophyll assessment in higher plant leaves
TL;DR: Spectral reflectance of maple, chestnut, wild vine and beech leaves in a wide range of pigment content and composition was investigated and it was shown that reciprocal reflectance (R lambda)-1 in the spectral range lambda related closely to the total chlorophyll content in leaves of all species.
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Spectral reflectance changes associated with autumn senescence of Aesculus hippocastanum L. and Acer platanoides L. leaves. Spectral features and relation to chlorophyll estimation
TL;DR: The signature analysis ofreflectance spectra indicated that in the green to yellow leaves of both species the maximal standard deviation of reflectance coincided with the red absorption maximum of Chl a .
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Non‐destructive optical detection of pigment changes during leaf senescence and fruit ripening
TL;DR: The plant senescing reflectance index in the form (R 678 - R 500 )/R 750 was found to be sensitive to the Car/Chl ratio, and was used as a quantitative measure of leaf senescence and fruit ripening.
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Optical properties and nondestructive estimation of anthocyanin content in plant leaves.
TL;DR: Absorption and reflectance spectra of maple, cotoneaster, dogwood, and pelargonium leaves with a wide range of pigment content and composition were studied in visible and near-infrared spectra to reveal specific anthocyanin (Anth) spectral features in leaves.