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References

  • Arya, S. P. (1999), Air Pollution Meteorology and Dispersion, 310 pp., Oxford Univ. Press, New York.
  • Bakwin, P. S., P. P. Tans, D. F. Hurst, and C. Zhao (1998), Measurements of carbon dioxide on very tall towers: Results of the NOAA/CMDL program, Tellus, Ser. B, 50(5), 401415.
  • Baldocchi, D., et al. (2001), FLUXNET: A new tool to study the temporal and spatial variability of ecosystem-scale carbon dioxide, water vapor, and energy flux densities, Bull. Am. Meteorol. Soc., 82(11), 24152434.
  • Berger, B. W., K. J. Davis, C. Yi, P. S. Bakwin, and C. L. Zhao (2001), Long-term carbon dioxide fluxes from a very tall tower in a northern forest: Flux measurement methodology, J. Atmos. Oceanic Technol., 18, 529542.
  • Bousquet, P., P. Monfray, P. Ciais, P. Peylin, and M. Ramonet (1999), Inverse modeling of annual atmospheric CO2 sources and sinks: 1. Method and control inversion, J. Geophys. Res., 104(21), 26,16126,178.
  • Burrows, S. N., S. T. Gower, M. K. Clayton, D. S. Mackay, D. E. Ahl, J. M. Norman, and G. Diak (2002), Application of geostatistics to characterize leaf area index (LAI) from flux tower to landscape scales using a cyclic sampling design, Ecosystems, 5(7), 667679.
  • Cao, M., and F. I. Woodward (1998), Net primary and ecosystem production and carbon stocks of terrestrial ecosystems and their responses to climate change, Global Change Biol., 4(2), 185198.
  • Chen, J. M., J. I. MacPherson, S. G. Leblanc, J. Cihlar, and R. L. Desjardins (1999), Extending aircraft- and tower-based CO2 flux measurements to a boreal region using a Landsat thematic mapper land cover map, J. Geophys. Res., 104(14), 16,85916,877.
  • Ciais, P., R. J. Francey, P. P. Tans, M. Trolier, and J. W. C. White (1995), A large Northern Hemisphere terrestrial CO2 sink indicated by the 13C/12C ratio of atmospheric CO2, Tellus, Ser. B., 269(5227), 10981102.
  • Cook, B. D., et al. (2004), Carbon exchange and venting anomalies in an upland deciduous forest in northern Wisconsin, USA, Agric. For. Meteorol., 126(3–4), 271295.
  • Cramer, W., et al. (2001), Global response of terrestrial ecosystem structure and function to CO2 and climate change: Results from six dynamic global vegetation models, Global Change Biol., 7(4), 357373.
  • Davis, K. J., P. S. Bakwin, C. Yi, B. W. Berger, C. Zhao, R. M. Teclaw, and J. G. Isebrands (2003), The annual cycles of CO2 and H2O exchange over a northern mixed forest as observed from a very tall tower, Global Change Biol., 9(9), 12781293.
  • Desai, A. R., et al. (2006), Influence of vegetation type, stand age and climate on carbon dioxide fluxes across the upper Midwest, USA: Implications for regional scaling of carbon flux, Agric. For. Meteorol., in press.
  • Enting, I. G. (2002), Inverse Problems in Atmospheric Constituent Transport, 392 pp., Cambridge Univ. Press, New York.
  • Enting, I. G., C. M. Trudinger, and R. J. Francey (1995), A synthesis inversion of the concentration and δ13C of atmospheric CO2, Tellus, Ser. B, 47(1–2), 3552.
  • Gurney, K. R., et al. (2002), Towards robust regional estimates of CO2 sources and sinks using atmospheric transport models, Nature, 415(6872), 626630.
  • Horst, T. W. (1979), Lagrangian similarity modeling of vertical diffusion from a ground-level source, J. Appl. Meteorol., 18(6), 733740.
  • Horst, T. W., and J. C. Weil (1992), Footprint estimation for scalar flux measurements in the atmospheric surface layer, Boundary Layer Meteorol., 59(3), 279296.
  • Horst, T. W., and J. C. Weil (1994), How far is far enough? The fetch requirements for micrometeorological measurement of surface fluxes, J. Atmos. Oceanic Technol., 11, 10181025.
  • Horst, T. W., and J. C. Weil (1995), Corrigenda, J. Atmos. Oceanic Technol, 12, 447448.
  • Huntingford, C., P. M. Cox, and T. M. Lenton (2000), Contrasting responses of a simple terrestrial ecosystem model to global change, Ecol. Modell., 134(1), 4158.
  • Intergovernmental Panel on Climate Change (2001), Climate Change 2001: The Scientific Basis—Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change, 881 pp., Cambridge Univ. Press, New York.
  • Lloyd, J., and J. A. Taylor (1994), On the temperature dependence of soil respiration, Funct. Ecol., 8(3), 315323.
  • Luo, Y., D. Hui, W. Cheng, J. S. Coleman, D. W. Johnson, and D. A. Sims (2000), Canopy quantum yield in a mesocosm study, Agric. For. Meteorol., 100(1), 3548.
  • Mackay, D. S., S. N. Burrows, S. Samanta, K. J. Davis, D. E. Ahl, B. E. Ewers, and S. T. Gower (2002), Effects of aggregated classifications of forest composition on estimates of evapotranspiration in a northern Wisconsin forest, Global Change Biol., 8(12), 12531265.
  • Nilsen, E. T., and M. R. Sharifi (1994), Seasonal acclimation of stem photosynthesis in woody legume species from the Mojave and Sonoran deserts of California, Plant Physiol., 105(4), 13851391.
  • Ogunjemiyo, S. O., R. L. Desjardins, D. A. Roberts, S. K. Kaharabata, P. H. Schuepp, and I. J. MacPherson (2003), Methods of estimating CO2, latent heat and sensible heat fluxes from estimates of land cover fractions in the flux footprint, Agric. For. Meteorol., 117(3–4), 125144.
  • Ott, L. (1993), An Introduction to Statistical Methods and Data Analysis, 132 pp., Duxbury, Pacific Grove, Calif.,
  • Pan, Y., et al. (1998), Modeled responses of terrestrial ecosystems to elevated atmospheric CO2: A comparison of simulations by the biogeochemistry models of the Vegetation/Ecosystem Modeling and Analysis Project (VEMAP), Oecologia, 114(3), 389404.
  • Reichstein, M., J. D. Tenhunen, O. Roupsard, J.-M. Ourcival, S. Rambal, S. Dore, and R. Valentini (2002), Ecosystem respiration in two Mediterranean evergreen Holm Oak forests: Drought effects and decomposition dynamics, Funct Ecol., 16(1), 2739.
  • Ricciuto, D. M., M. P. Butler, K. J. Davis, B. D. Cook, P. S. Bakwin, A. E. Andrews, and R. M. Teclaw (2006), A Bayesian synthesis inversion of simple respiration and GEO models with eddy covariance data in a northern Wisconsin forest: Determining the causes of interannual variability, Agric. For. Meteorol., in press.
  • Rodgers, C. D. (2000), Inverse Methods for Atmospheric Sounding: Theory and Practice, 238 pp., World Sci., Hackensack, N. J.,
  • Ruimy, A., P. G. Jarvis, D. D. Baldocchi, and B. Saugier (1995), CO2 fluxes over plant canopies and solar radiation: A review, Adv. Ecol. Res., 26, 168.
  • Schmid, H. P. (2002), Footprint modeling for vegetation atmosphere exchange studies: A review and perspective, Agric. For. Meteorol., 113(1–4), 159183.
  • Schuepp, P. H., M. Y. Leclerc, J. I. Macpherson, and R. L. Desjardins (1990), Footprint prediction of scalar fluxes from analytical solutions of the diffusion equation, Boundary Layer Meteorol., 50(1–4), 355373.
  • Tans, P. P., I. Y. Fung, and T. Takahashi (1990), Observational constraints on the global atmospheric CO2 budget, Tellus, Ser. B, 247(4949), 14311438.
  • van Ulden, A. P. (1978), Simple estimates for vertical diffusion from sources near the ground, Atmos. Environ., 12, 21252129.
  • Wang, W. (2005), Regional estimates of net ecosystem-atmosphere exchange of carbon dioxide over a heterogeneous ecosystem, dissertation thesis, Penn. State Univ., University Park.
  • Wang, W., K. J. Davis, D. M. Ricciuto, and M. P. Butler (2004), Footprint modeling for flux measurements at multiple levels from a very tall tower over a mixed forest, paper presented at 16th Symposium on Boundary Layer and Turbulence, Am. Meteorol. Soc., Portland, Maine. (Available at http://ams.confex.com/ams/pdfpapers/78934.pdf).
  • Wang, W., K. J. Davis, B. D. Cook, P. S. Bakwin, C. Yi, M. P. Butler, and D. M. Riccinto (2005), Surface layer CO2 budget and advective contributions to measurements of net ecosystem-atmosphere exchange of CO2, Agric. For. Meteorol., 135(1–4), 202214.
  • Wisconsin Department of Natural Resources (1998), WISCLAND land cover, WLCGW930, Madison, Wis.,
  • Woodward, F. I., and C. K. Kelly (1995), The influence of CO2 concentration on stomatal density, New Phytol., 131(3), 311327.
  • Woodward, F. I., J. A. Lake, and W. P. Quick (2002), Stomatal development and CO2: Ecological consequences, New Phytol., 153(3), 477484.
  • Yi, C., K. J. Davis, B. W. Berger, and P. S. Bakwin (2001), Long-term observations of the dynamics of the continental planetary boundary layer, J. Atmos. Sci., 58(10), 12881299.