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Roser Matamala

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Publications:

  1. Gilmanov,, T. G., T.P. Meyers, B.K. Wylie, D.P. Billesbach, D.R. Cook, R.L. Coulter, W.A. Dugas, J.M. Ham, J.L. Heilman, M.W. Heuer, R.Matamala, C.E. Owensby, J.H. Prueger, A.E. Suyker, M.S. Torn, S.B. Verma. Gross productivity, ecosystem respiration, and light-response parameters of tallgrass ecosystems derived from flux tower data. Submitted June 2008 to GBC.
  2. Xiao, J., Zhuang, Q., Baldocchi, D.D., et al. An Alternative Constraint to the U.S. Carbon Sink Based on MODIS and AmeriFlux Data. Submitted May 2008 to GCB.
  3. Xiao, J., Zhuang, Q., Baldocchi, D.D. et al. Estimation of Net Ecosystem Carbon Exchange for the Conterminous United  States by Combining MODIS and AmeriFlux Data. Agricultural and Forest Meteorology, In Press.
  4. Matamala R., Jastrow D.J., Miller R.M, Garten C. 2008. Temporal Changes in the Distribution of C and N Stocks in a Restored Tallgrass Prairie in the U.S. Midwest. Ecological Applications 18: 1470-1488.
  5. Pritchard SG, Strand AE, McCormack ML, Davis MA, Finzi AC, Jackson RB, Matamala R, Rogers HH, and Oren R. 2008. Fine root dynamics in a loblolly pine forest are influenced by Free-Air-CO2-Enrichment (FACE): a six year minirhizotron study. Global Change Biology. 14: 588-602.
  6. Allison, V.J., Z. Yermakov, R.M. Miller, J.D. Jastrow, and R.Matamala. 2007. Assessing soil microbial community composition across landscapes: Do surface soils reveal patterns? Soil Science Society of America Journal 71:730-734.
  7. Allison, V.J., Z. Yermakov, R.M. Miller, J.D. Jastrow, and R.Matamala. 2007. Using landscape and depth gradients to decouple the impact of correlated environmental variables on soil microbial community composition. Soil Biology and Biochemistry 39:505-516.
  8. Finzi AC, Moore D, DeLucia EH, Lichter J, Kim HS, Matamala R, Jackson RB, McCarthy H, Oren R, Pippen JS, Schlesinger WH, 2006. Progressive Nitrogen Limitation of Ecosystem Processes under Elevated CO2 in a Warm-Temperate Forest. Ecology. Ecology 87 (1): 15-25.
  9. Schlesinger, W.H., E. S. Bernhardt, E.H. DeLucia, D.S. Ellsworth, A.C. Finzi, G.R. Hendrey, K.S. Hofmockel, J. Lichter, R. Matamala, D. Moore, R. Oren, J.S. Pippen, and R.B. Thomas. 2006. The Duke forest FACE experiment: CO2 enrichment of a loblolly pine forest. In ES 187, J. Nosberger, S.P. Long, R.J. Norby, M. Stitt, G.R. Hendrey, and H. Blum (eds.) Managed Ecosystems and CO2: Case Studies, Processes and Perspectives, Springer-Verlag, New York. Pp. 197-212.
  10. Allison, V.J., R.M. Miller, J.D. Jastrow, R. Matamala and D.R. Zak. 2005. Changes in soil microbial community structure in a tallgrass prairie chronosequence. Soil Science Society of America Journal 69:1412-1421.
  11. Jastrow, J.D., R.M. Miller, R. Matamala, R.J. Norby, T.W. Boutton, C.W. Rice, and C.E. Owensby. 2005. Elevated atmospheric CO2 increases soil carbon. Global Change Biology 11:2057-2064.
  12. Matamala R, MA Gonzalez-Meler, JD Jastrow, R Norby, WH Schlesinger, 2004 Response to Comment on: Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential. Science, 304:1745-1745.
  13. Matamala R, MA Gonzalez-Meler, JD Jastrow, R Norby, WH Schlesinger, 2003. Impacts of fine root turnover on forest NPP and soil C sequestration potential. Science, 302: 1385-1387.
  14. Pataki, DE, DS Ellsworth, RD Evans, MA Gonzalez-Meler, J King, SW Leavitt, G Lin, R Matamala, E Pendall, R Siegwolf, C Van Kessel, J Ehleringer. 2003. Tracing changes in ecosystem function under elevated carbon dioxide conditions. BioScience, 53: 805-818.
  15. Allen A.S., Andrews J.A., Finzi A.C., Matamala R., Richter D.R. and Schlesinger W.H. 2000. Effects of Free-Air CO2 Enrichment (FACE) on below-ground processes in a loblolly pine forest. Ecological Applications, 10: 437-448.
  16. Andrews J.A., Matamala R., Westover K.M. and Schlesinger W.H. 2000. Temperature effect on the diversity of soil heterotrophs and the d13C of soil-respired CO2. Soil Biology & Biochemistry, 32: 699-706.
  17. Luo Y. L., J.A. Andrews, L. White, R. Matamala, K.V.R. Schafer, and W. H. Schlesinger 2000. Elevated CO2 differentiates ecosystem carbon processes: A deconvolution analysis of Duke Forest FACE data. Ecological Monographs 71:357-376.
  18. Matamala R. and Schlesinger W.H. 2000. Effects of atmospheric CO2 enrichment on fine root production and activity in an intact temperate forest ecosystem. Global Change Biology, 6: 967-980.
  19. DeLucia, E.H., Hamilton J.G., Shawna L.N., Thomas R.B., Andrews J.A., Finzi A., Lavine M., Matamala R., Mohan J.E., Hendrey G.R. and W.H. Schlesinger 1999. Net primary production of a forest ecosystem with experimental CO2 enrichment. Science, 284: 1177-1179.
  20. Andrews J. A., Matamala R., Harrison K. and Schlesinger W.H. 1999. Separation of root from total soil respiration using 13C labeling during free-air CO2 enrichment (FACE). Soil Science Society of America Journal, 63: 1429-1435.
  21. Matamala R. and Drake B.G. 1998. The influence of atmospheric CO2 enrichment on plant-soil nitrogen interactions in a wetland plant community on the Chesapeake Bay. Plant and Soil, 210: 93‑101.
  22. Gonzalez-Meler MA, Matamala, R., Penuelas J. 1997. Effects of prolonged drought stress and nitrogen deficiency on the respiratory O-2 uptake of bean and pepper leaves. Photosynthetica, 34: 505-512.
  23. Drake B.G., Peresta G., Beugeling E. and Matamala R. 1996. Long‑term elevated CO2 exposure in a Chesapeake Bay wetland: Ecosystem gas exchange, Primary production and tissue nitrogen. Carbon Dioxide and Terrestrial Ecosystems. Ed. Koch G. W. and Mooney H. A. pp. 197‑214.
  24. Drake B.G., Muehe M., Peresta G., González‑Meler M.A., and Matamala R. 1996 Acclimation of photosynthesis, respiration and ecosystem carbon flux of a wetland on Chesapeake Bay, Maryland to elevated atmospheric CO2 concentration. Plant and Soil, 187: 111-118.
  25. Peñuelas J. and R. Matamala 1993. Variations in the mineral-composition of herbarium plant-species collected during the last 3 centuries. Journal of Experimental Botany, 44: 1523-1525.
  26. Peñuelas J. and R. Matamala 1990 Changes in N and S leaf content, stomatal density and specific leaf area of 14 plant species during the last three centuries of CO2 increase. Journal of Experimental Botany, 41: 1119‑1124.
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