Estimation of net ecosystem carbon exchange for the conterminous United States by combining MODIS and AmeriFlux data

Authors

Jingfeng Xiao, University of New Hampshire, DurhamFollow
Qianlai Zhuang, Purdue University
Dennis D. Baldocchi, University of CaliforniaFollow
Andrew D. Richardson, University of New Hampshire, DurhamFollow
Jiquan Chen, University of Toledo
Ram Oren, Duke University
Gregory Starr, University of Alabama
Asko Noormets, North Carolina State University
Siyan Ma, University of California
Shashi B. Verma, University of Nebraska-Lincoln
Sonia Wharton, University of California
Steven C. Wofsy, Harvard University
Paul V. Bolstad, University of Minnesota
Sean P. Burns, University of Colorado
David R. Cook, Argonne National Laboratory
Peter S. Curtis, Ohio State University
Bert G. Drake, Smithsonian Environmental Research Center
Matthias Falk, University of California
Marc L. Fischer, Lawrence Berkeley National Laboratory
David R. Foster, Harvard University

Abstract

Eddy covariance flux towers provide continuous measurements of net ecosystem carbon exchange (NEE) for a wide range of climate and biome types. However, these measurements only represent the carbon fluxes at the scale of the tower footprint. To quantify the net exchange of carbon dioxide between the terrestrial biosphere and the atmosphere for regions or continents, flux tower measurements need to be extrapolated to these large areas. Here we used remotely sensed data from the Moderate Resolution Imaging Spectrometer (MODIS) instrument on board the National Aeronautics and Space Administration's (NASA) Terra satellite to scale up AmeriFlux NEE measurements to the continental scale. We first combined MODIS and AmeriFlux data for representative U.S. ecosystems to develop a predictive NEE model using a modified regression tree approach. The predictive model was trained and validated using eddy flux NEE data over the periods 2000–2004 and 2005–2006, respectively. We found that the model predicted NEE well (r = 0.73, p < 0.001). We then applied the model to the continental scale and estimated NEE for each 1 km × 1 km cell across the conterminous U.S. for each 8-day interval in 2005 using spatially explicit MODIS data. The model generally captured the expected spatial and seasonal patterns of NEE as determined from measurements and the literature. Our study demonstrated that our empirical approach is effective for scaling up eddy flux NEE measurements to the continental scale and producing wall-to-wall NEE estimates across multiple biomes. Our estimates may provide an independent dataset from simulations with biogeochemical models and inverse modeling approaches for examining the spatiotemporal patterns of NEE and constraining terrestrial carbon budgets over large areas.

Department

Earth Systems Research Center

Publication Date

10-1-2008

Journal Title

Agricultural and Forest Meteorology

Publisher

Elsevier

Digital Object Identifier (DOI)

https://dx.doi.org/10.1016/j.agrformet.2008.06.015

Document Type

Article

Recommended Citation

Xiao, J.F., Zhuang, Q.L., Baldocchi, D.D., Law, B.E., Richardson, A.D., Chen, J.Q., Oren, R., Starr, G., Noormets, A., Ma, S.Y., Verma, S.B., Wharton, S., Wofsy, S.C., Bolstad, P.V., Burns, S.P., Cook, D.R., Curtis, P.S., Drake, B.G., Falk, M., Fischer, M.L., Foster, D.R., Gu, L.H., Hadley, J.L., Hollinger, D.Y., Katul, G.G., Litvak, M., Martin, T.A., Matamala, R., McNulty, S., Meyers, T.P., Monson, R.K., Munger, J.W., Oechel, W.C., Paw U, K.T., Schmid, H.P., Scott, R.L., Sun, G., Suyker, A.E., Torn, M.S. (2008). Estimation of net ecosystem carbon exchange for the conterminous United States by combining MODIS and AmeriFlux data. Agricultural and Forest Meteorology, 148 (11), 1827-1847.

Rights

Copyright © 2008 Elsevier B.V. All rights reserved.