|  | P2.1 | Turbulent transport above a mixed Northern forest
Weiguo Wang, Penn State Univ., University Park, PA and Univ. of Minnesota, St. Paul, MN; and B. D. Cook, B. W. Berger, K. J. Davis, R. J. Kubesh, C. Yi, P. S. Bakwin, J. G. Isebrands, and R. M. Teclaw |
| | P2.2 | The influence of simple chemistry on scalar variance and vertical-flux budgets above and within a forest canopy
Edward G. Patton, Penn State Univ., University Park, PA; and K. J. Davis, M. C. Barth, and P. P. Sullivan |
| | P2.3 | Observed turbulent characteristics over a forest canopy using mini-SODAR
Thara V. Prabha, University of Georgia, Griffin, GA; and M. Y. Leclerc, M. Sanford, and E. Mursch-Radlgruber |
| | P2.4 | Monoterpene fluxes estimated using canopy models for a Pacific northwest old growth forest
Shelley Pressley, Washington State University, Pullman, WA; and B. K. Lamb, H. Westberg, D. Pyles, K. T. Paw U, and A. Guenther |
| | P2.5 | estimating soil heat flux density
Richard L. Snyder, University of California, Davis, CA; and K. T. Paw U and H. Wabeh |
| | P2.6 | Influences of stomatal response on the partitioning of the energy within the rice canopy
Hiroki Oue, Ehime University, Matsuyama, Japan |
| | P2.7 | Comparison of tracer emission rates calculated from three different techniques
Thomas K. Flesch, University of Alberta, Edmonton, AB, Canada; and J. H. Prueger and J. L. Hatfield |
| | P2.8 | Comparison of 3-D sonic anemometers
D.L. Spittlehouse, BC Ministry of Forests, Victoria, BC, Canada; and T. A. Black, B. Chen, E. R. Humphreys, and Z. Nesic |
| | P2.9 | A flux-variance based method to estimate vegetation-atmosphere exchanges under stable and unstable atmospheric conditions
Teodoro Georgiadis, CNR, Bologna, Italy; and F. Rossi and R. Sozzi |
| | P2.10 | Transport, air-surface exchange and landscape accumulation of airborne mercury deposited onto South Florida Everglades: A simulation study
I. X. Tsiros, U.S. EPA, Athens, GA and Univ. of Athens, Athens, Greece; and R. Ambrose |
| | P2.11 | Study on the characteristics of rice paddy water temperature and its relation to dew formation on leaves
Tsuneo Kuwagata, Tohoku National Agricultural Experiment Station, Morioka, Iwate, Japan; and T. Hamasaki and T. Watanabe |
| | P2.12 | Measuring Isotopic Carbon Dioxide Fluxes Using In Situ Tunable Diode Laser Absorption Spectroscopy
Steven D. Sargent, Campbell Scientific, Inc., Logan, UT; and B. D. Tanner |
| | P2.13 | Predicting Incoming Radiation from Long-Term Temperature and Sunshine Records in Britain
Sophie E. Hale, Forestry Commission Research Agency, Roslin, Midlothian, United Kingdom; and P. E. Levy |
| | P2.14 | Ecosystem evaporation, transpiration and sub-canopy vapor fluxes at the Morgan Monroe State Forest, Indiana
C. Susan B. Grimmond, Indiana University, Bloomington, IN; and P. J. Hanson, H. P. Schmid, S. D. Wullschleger, F. D. Cropley, H. -. B. Su, B. Offerle, and S. L. Scott |
| | P2.15 | A Preliminary intercomparison of micrometeorological and ecological estimates of carbon sequestration in a Mid-latitude Deciduous Forest for 1998 and 1999
J. L. Ehman, Indiana University, Bloomington, IN; and H. P. Schmid, C. S. B. Grimmond, J. C. Randolph, C. A. Wayson, P. J. Hanson, F. D. Cropley, H. -. B. Su, S. L. Scott, and B. Offerle |
| | P2.16 | The Effect of Elevated CO2 on Carbon and Water Vapor flux in Southern California Chaparral
Yufu Cheng, San Diego State Univ., San Diego, CA; and W. C. Oechel, S. J. Hastings, J. Major, P. Bryant, and J. Verfaillie |
| | P2.17 | Comparing CO2 and H2O Vapor Exchange at Two Alaskan Arctic Tundra Ecosystems Using Tower-Based Eddy Covariance
Hyojung Kwon, San Diego State Univ., San Diego, CA; and W. C. Oechel, R. C. Zulueta, and G. L. Vourlitis |
| | P2.18 | Preliminary landscape scale measurements of carbon and energy exchange in a Sarcocaulescent Desert Ecosystem
Rommel C. Zulueta, San Diego State Univ., San Diego, CA; and S. J. Hastings and W. C. Oechel |