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Xiao, JF, Zhuang, QL, Law, BE, Chen, JQ, Baldocchi, DD, Cook, DR, Oren, R, Richardson, AD, Wharton, S, Ma, SY, Martin, TA, Verma, SB, Suyker, AE, Scott, RL, Monson, RK, Litvak, M, Hollinger, DY, Sun, G, Davis, KJ, Bolstad, PV, Burns, SP, Curtis, PS, Drake, BG, Falk, M, Fischer, ML, Foster, DR, Gu, LH, Hadley, JL, Katul, GG, Roser, Y, McNulty, S, Meyers, TP, Munger, JW, Noormets, A, Oechel, WC, Paw, KT, Schmid, HP, Starr, G, Torn, MS, Wofsy, SC (2010). A continuous measure of gross primary production for the conterminous United States derived from MODIS and AmeriFlux data. REMOTE SENSING OF ENVIRONMENT, 114(3), 576-591.

Abstract
The quantification of carbon fluxes between the terrestrial biosphere and the atmosphere is of scientific importance and also relevant to climate-policy making. Eddy covariance flux towers provide continuous measurements of ecosystem-level exchange of carbon dioxide spanning diurnal, synoptic, seasonal, and interannual time scales. However, these measurements only represent the fluxes at the scale of the tower footprint. Here we used remotely sensed data from the Moderate Resolution Imaging Spectroradiometer (MODIS) to upscale gross primary productivity (GPP) data from eddy covariance flux towers to the continental scale. We first combined GPP and MODIS data for 42 AmeriFlux towers encompassing a wide range of ecosystem and climate types to develop a predictive GPP model using a regression tree approach. The predictive model was trained using observed GPP over the period 2000-2004, and was validated using observed GPP over the period 2005-2006 and leave-one-out cross-validation. Our model predicted GPP fairly well at the site level. We then used the model to estimate GPP for each I km x I km cell across the U.S. for each 8-day interval over the period from February 2000 to December 2006 using MODIS data. Our GPP estimates provide a spatially and temporally continuous measure of gross primary production for the U.S. that is a highly constrained by eddy covariance flux data. Our study demonstrated that our empirical approach is effective for upscaling eddy flux GPP data to the continental scale and producing continuous GPP estimates across multiple biomes. With these estimates, we then examined the patterns, magnitude, and interannual variability of GPP. We estimated a gross carbon uptake between 6.91 and 7.33 Pg C yr(-1) for the conterminous U.S. Drought, fires, and hurricanes reduced annual GPP at regional scales and could have a significant impact on the U.S. net ecosystem carbon exchange. The sources of the interannual variability of U.S. GPP were dominated by these extreme climate events and disturbances. (C) 2009 Elsevier Inc. All rights reserved.

DOI:
10.1016/j.rse.2009.10.013

ISSN:
0034-4257

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NASA Official: Shannell Frazier

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