ChenCoopsFuEtAl2011

Reference

Chen, B., Coops, N.C., Fu, D., Margolis, H.A., Amiro, B.D., Barr, A.G., Black, T.A., Arain, M.A., Bourque, C.P.A., Flanagan, L.B., Lafleur, P.M., McCaughey, J.H., Wofsy, S.C. (2011) Assessing eddy-covariance flux tower location bias across the Fluxnet-Canada Research Network based on remote sensing and footprint modelling. Agricultural and Forest Meteorology, 151(1):87-100. (Scopus )

Abstract

We describe an approach for evaluating the representativeness of eddy covariance flux measurements and assessing sensor location bias (SLB) based on footprint modelling and remote sensing. This approach was applied to the 12 main sites of the Fluxnet-Canada Research Network (FCRN)/Canadian Carbon Program (CCP) located along an east-west continental-scale transect, covering grassland, forest, and wetland biomes. For each site, monthly and annual footprint climatologies (i.e. monthly or annual cumulative footprints) were calculated using the Simple Analytical Footprint model on Eulerian coordinates (SAFE). The resulting footprint climatologies were then overlaid on to images of the Normalized Difference Vegetation Index (NDVI) and Enhanced Vegetation Index (EVI) derived from LANDSAT Thematic Mapper (TM) imagery, which were used as surrogates of land surface fluxes to estimate SLB. Results indicate that (i) the sizes of annual footprint climatology increased exponentially with increasing cumulative footprint percentages and, for a given percentage of footprint climatology, the footprint areas were significantly different among the sites. Typically, the 90% annual footprint climatology areas varied from 1.1km2 to 5.0km2; (ii) using either NDVI or EVI as the flux surrogate, the SLB was less than 5% for most sites with respect to the reference area of interest (Ar) at 90% annual footprint climatology (scenario A) and a circular area with radius of 1km centred at the individual tower (scenario B), with several exceptions; (iii) the SLB decreased with increasing size of footprint climatology for all sites for both scenarios A and B; (iv) out of 12, eight flux towers represented most of the ecosystem surrounding the towers for an area of 0.3km2 up to 10km2 with a satisfactorily low bias of <5%, whereas four towers represented areas ranging from only 0.75 to 4km2; and (v) the seasonal differences in monthly SLB using NDVI as a flux surrogate were about 1-4% for most sites for both scenarios A and B. © 2010 Elsevier B.V.

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@ARTICLE { ChenCoopsFuEtAl2011,
    AUTHOR = { Chen, B. and Coops, N.C. and Fu, D. and Margolis, H.A. and Amiro, B.D. and Barr, A.G. and Black, T.A. and Arain, M.A. and Bourque, C.P.A. and Flanagan, L.B. and Lafleur, P.M. and McCaughey, J.H. and Wofsy, S.C. },
    TITLE = { Assessing eddy-covariance flux tower location bias across the Fluxnet-Canada Research Network based on remote sensing and footprint modelling },
    JOURNAL = { Agricultural and Forest Meteorology },
    YEAR = { 2011 },
    VOLUME = { 151 },
    PAGES = { 87-100 },
    NUMBER = { 1 },
    ABSTRACT = { We describe an approach for evaluating the representativeness of eddy covariance flux measurements and assessing sensor location bias (SLB) based on footprint modelling and remote sensing. This approach was applied to the 12 main sites of the Fluxnet-Canada Research Network (FCRN)/Canadian Carbon Program (CCP) located along an east-west continental-scale transect, covering grassland, forest, and wetland biomes. For each site, monthly and annual footprint climatologies (i.e. monthly or annual cumulative footprints) were calculated using the Simple Analytical Footprint model on Eulerian coordinates (SAFE). The resulting footprint climatologies were then overlaid on to images of the Normalized Difference Vegetation Index (NDVI) and Enhanced Vegetation Index (EVI) derived from LANDSAT Thematic Mapper (TM) imagery, which were used as surrogates of land surface fluxes to estimate SLB. Results indicate that (i) the sizes of annual footprint climatology increased exponentially with increasing cumulative footprint percentages and, for a given percentage of footprint climatology, the footprint areas were significantly different among the sites. Typically, the 90% annual footprint climatology areas varied from 1.1km2 to 5.0km2; (ii) using either NDVI or EVI as the flux surrogate, the SLB was less than 5% for most sites with respect to the reference area of interest (Ar) at 90% annual footprint climatology (scenario A) and a circular area with radius of 1km centred at the individual tower (scenario B), with several exceptions; (iii) the SLB decreased with increasing size of footprint climatology for all sites for both scenarios A and B; (iv) out of 12, eight flux towers represented most of the ecosystem surrounding the towers for an area of 0.3km2 up to 10km2 with a satisfactorily low bias of <5%, whereas four towers represented areas ranging from only 0.75 to 4km2; and (v) the seasonal differences in monthly SLB using NDVI as a flux surrogate were about 1-4% for most sites for both scenarios A and B. © 2010 Elsevier B.V. },
    COMMENT = { Export Date: 27 April 2011 Source: Scopus CODEN: AFMEE doi: 10.1016/j.agrformet.2010.09.005 },
    ISSN = { 01681923 (ISSN) },
    KEYWORDS = { Carbon flux, Eddy covariance, EVI, Fluxnet, Footprint climatology, NDVI, Net ecosystem exchange, SAFE footprint model, Sensor location bias, biome, carbon flux, climatology, ecological footprint, eddy covariance, flux measurement, grassland, land surface, Landsat, NDVI, net ecosystem exchange, remote sensing, research program, satellite imagery, sensor, thematic mapping, transect, Canada },
    OWNER = { Luc },
    TIMESTAMP = { 2011.04.27 },
    URL = { http://www.scopus.com/inward/record.url?eid=2-s2.0-78649321441&partnerID=40&md5=0b7e8cab2dccfd4527d956d48b3957bb },
}

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