2001
DOI: 10.1029/2001jd900157
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Modeling spatially distributed ecosystem flux of boreal forest using hyperspectral indices from AVIRIS imagery

Abstract: Abstract. Correct estimation of spatially distributed CO2 flux is of utmost importance for regional and global carbon balance studies. Tower-based instruments provide flux data from a small footprint area and may not be suitable for spatial extrapolation over areas not represented by the towers. In this study we developed a method of combining optical indices from remotely sensed hyperspectral images with flux data from towers covering different vegetation types to make spatially continuous maps of gross CO2 f… Show more

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Cited by 186 publications
(157 citation statements)
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References 74 publications
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“…The mathematical modeling of photosynthetic processes and PRI can be potentially used for a crude guess of the photosynthetic parameters under specific conditions. Moreover, the modeling can be an additional tool for the analysis of the connection between reflectance indices and photosynthetic parameters [109,125,126]. Development of these models can be used as a solution to the fundamental and applied problems in the field of remote sensing with PRI.…”
Section: Discussionmentioning
confidence: 99%
“…The mathematical modeling of photosynthetic processes and PRI can be potentially used for a crude guess of the photosynthetic parameters under specific conditions. Moreover, the modeling can be an additional tool for the analysis of the connection between reflectance indices and photosynthetic parameters [109,125,126]. Development of these models can be used as a solution to the fundamental and applied problems in the field of remote sensing with PRI.…”
Section: Discussionmentioning
confidence: 99%
“…Second, airborne or spaceborne sensors can only provide snapshots in time determined by a given aircraft or satellite overpass , however, the temporal and spatial requirements for these observations to be representative of the physiological status of plant canopies are not well understood . Third, the relationship between PRI and is species dependent and also changes with age, canopy structure, disturbances and LAI (Rahman et al, 2001), making a spatial extrapolation of empirical findings difficult.…”
Section: Direct Estimation Of Photosynthetic Efficiencymentioning
confidence: 99%
“…involved, include near surface observations using transect measurements , permanently established tower based observations of forest canopies (Leuning et al, 2006;Hilker et al, 2007), and airborne measurements (Nichol et al, 2000;Chen and Vierling, 2006;Rahman et al, 2001). A first spaceborne assessment of was introduced by Drolet et al (2005), successfully using backscatter reflectance data from MODIS Aqua over the Canadian boreal forest with a spatial resolution of 1 km 2 .…”
Section: Direct Estimation Of Photosynthetic Efficiencymentioning
confidence: 99%
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“…The possibility of predicting average primary productivity by its regression relationship with NDVI has been observed in the Arctic tundra (Boelman et al, 2003) and in steppe ecosystems (Wylie et al, 2003). NDVI tends to be saturated when biomass increases to a high value (Myneni et al, 1995;Hao et al, 2008), this being especially obvious in evergreen forest area (Rahman et al, 2001). Considerable efforts have been made to improve NDVI estimation.…”
Section: Carbon Flux Related Ecosystem Servicesmentioning
confidence: 99%