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W2135090147 abstract "We explored ability of reflectance vegetation indexes (VIs) related to chlorophyll fluorescence emission (R₆₈₆/R₆₃₀, R₇₄₀/R₈₀₀) and de-epoxidation state of xanthophyll cycle pigments (PRI, calculated as (R₅₃₁- R₅₇₀)/(R₅₃₁-R₅₇₀) to track changes in the CO₂ assimilation rate and Light Use Efficiency (LUE) in montane grassland and Norway spruce forest ecosystems, both at leaf and also canopy level. VIs were measured at two research plots using a ground-based high spatial/spectral resolution imaging spectroscopy technique. No significant relationship between VIs and leaf light-saturated CO₂ assimilation (A(MAX)) was detected in instantaneous measurements of grassland under steady-state irradiance conditions. Once the temporal dimension and daily irradiance variation were included into the experimental setup, statistically significant changes in VIs related to tested physiological parameters were revealed. ΔPRI and Δ(R₆₈₆/R₆₃₀) of grassland plant leaves under dark-to-full sunlight transition in the scale of minutes were significantly related to A(MAX) (R² = 0.51). In the daily course, the variation of VIs measured in one-hour intervals correlated well with the variation of Gross Primary Production (GPP), Net Ecosystem Exchange (NEE), and LUE estimated via the eddy-covariance flux tower. Statistical results were weaker in the case of the grassland ecosystem, with the strongest statistical relation of the index R₆₈₆/R₆₃₀ with NEE and GPP." @default.
W2135090147 created "2016-06-24" @default.
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W2135090147 date "2012-01-01" @default.
W2135090147 modified "2023-10-12" @default.
W2135090147 title "Relation of Chlorophyll Fluorescence Sensitive Reflectance Ratios to Carbon Flux Measurements of Montanne Grassland and Norway Spruce Forest Ecosystems in the Temperate Zone" @default.
W2135090147 cites W116253160 @default.
W2135090147 cites W1498117005 @default.
W2135090147 cites W1515598415 @default.
W2135090147 cites W1579871717 @default.
W2135090147 cites W1627399601 @default.
W2135090147 cites W1659224585 @default.
W2135090147 cites W1964815674 @default.
W2135090147 cites W1968873553 @default.
W2135090147 cites W1969048868 @default.
W2135090147 cites W1971631588 @default.
W2135090147 cites W1975957492 @default.
W2135090147 cites W1978020398 @default.
W2135090147 cites W1985007599 @default.
W2135090147 cites W1985138112 @default.
W2135090147 cites W1985504572 @default.
W2135090147 cites W1989844834 @default.
W2135090147 cites W1991343746 @default.
W2135090147 cites W1992191509 @default.
W2135090147 cites W1992244454 @default.
W2135090147 cites W1993323169 @default.
W2135090147 cites W2000358135 @default.
W2135090147 cites W2002190523 @default.
W2135090147 cites W2002495580 @default.
W2135090147 cites W2007932007 @default.
W2135090147 cites W2012564082 @default.
W2135090147 cites W2013496866 @default.
W2135090147 cites W2018454632 @default.
W2135090147 cites W2023519189 @default.
W2135090147 cites W2027297060 @default.
W2135090147 cites W2027631227 @default.
W2135090147 cites W2028691539 @default.
W2135090147 cites W2030233869 @default.
W2135090147 cites W2030274299 @default.
W2135090147 cites W2032585343 @default.
W2135090147 cites W2040307681 @default.
W2135090147 cites W2041221259 @default.
W2135090147 cites W2050482413 @default.
W2135090147 cites W2057699656 @default.
W2135090147 cites W2065803493 @default.
W2135090147 cites W2073555669 @default.
W2135090147 cites W2075021962 @default.
W2135090147 cites W2075445882 @default.
W2135090147 cites W2080344679 @default.
W2135090147 cites W2083582922 @default.
W2135090147 cites W2092653133 @default.
W2135090147 cites W2092801481 @default.
W2135090147 cites W2097819357 @default.
W2135090147 cites W2097911224 @default.
W2135090147 cites W2103704747 @default.
W2135090147 cites W2106367330 @default.
W2135090147 cites W2109733809 @default.
W2135090147 cites W2112732795 @default.
W2135090147 cites W2117324426 @default.
W2135090147 cites W2121181770 @default.
W2135090147 cites W2126223837 @default.
W2135090147 cites W2129483042 @default.
W2135090147 cites W2129575841 @default.
W2135090147 cites W2129804846 @default.
W2135090147 cites W2132527497 @default.
W2135090147 cites W2136907178 @default.
W2135090147 cites W2139676476 @default.
W2135090147 cites W2140131090 @default.
W2135090147 cites W2140280810 @default.
W2135090147 cites W2143213083 @default.
W2135090147 cites W2144346768 @default.
W2135090147 cites W2148065061 @default.
W2135090147 cites W2148864656 @default.
W2135090147 cites W2150853404 @default.
W2135090147 cites W2151431491 @default.
W2135090147 cites W2154261987 @default.
W2135090147 cites W2156312783 @default.
W2135090147 cites W2157905269 @default.
W2135090147 cites W2158755893 @default.
W2135090147 cites W2161815745 @default.
W2135090147 cites W2163004831 @default.
W2135090147 cites W2165897784 @default.
W2135090147 cites W2326247955 @default.
W2135090147 cites W4249940406 @default.
W2135090147 doi "https://doi.org/10.1100/2012/705872" @default.
W2135090147 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3373153" @default.
W2135090147 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22701368" @default.
W2135090147 hasPublicationYear "2012" @default.
W2135090147 type Work @default.