|  | P1.8 | An Evaluation of some Meteororological and Topographical Parameters Factors Influencing Levels of Airborne Lead in Soils Near a Point Source Using Using Artificial Neural Networks (ANNs)
Yannis Dimopoulos, Technological Educational Institute of Kalamata, Kalamata, Greece; and I. X. Tsiros, A. Chronopoulou, and K. Serelis |
| | P1.9 | Albedo of wheat during a growing season: Diurnal symmetry and asymmetry 
R. H. Dexter, Simon Fraser University, Burnaby, BC, Canada; and W. G. Bailey and B. McArthur |
| | P1.10 | A Comparison of Soil Moisture Measurements using Different Commercial Sensors
Mark Heuer, NOAA/ERL/ARL/ATDD, Oak Ridge, TN; and T. Meyers |
| | P1.11 | Using continuous stable isotope measurements to partition net ecosystem CO2 exchange into photosynthesis and respiration of a corn-soybean rotation ecosystem
Jianmin Zhang, University of Minnesota, St. Paul, MN; and T. J. Griffis and J. M. Baker |
| | P1.12 | The Temporal Fluctuations in Soil Respiration when Precipitation is intercepted above the Forest Floor
Koji Tamai, Forestry & Forest Products Research Institute, Japan |
| | P1.13 | Short-term changes in below-ground carbon dioxide concentrations
G. B. Drewitt, University of Guelph, Guelph, ON, Canada; and J. S. Warland |
| | P1.14 | Seasonal change of H2O and CO2 flux linked with withering progress
Satoshi Inoue, National Institute for Agro-Environmental Sciences, Tsukuba, Japan; and S. Kawashima, M. Du, and S. YONEMURA |
| | P1.15 | Pressure pumping effects on soil efflux measurements of CO2
Alan Joseph Ideris, University of California, Davis, CA; and K. T. Paw U |
| | P1.16 | Net ecosystem productivity following fire in the Canadian boreal forest
Alberto L. Orchansky, Edmonton, AB, Canada; and B. D. Amiro |
| | P1.17 | Carbon exchange of a recently harvested boreal Jack Pine stand
Joseph Kidston, University of British Columbia, Vancouver, BC, Canada; and T. A. Black, Z. Nesic, K. Morgenstern, A. G. Barr, and J. H. McCaughey |
| | P1.18 | An intercomparison eddy correlation system for the Fluxnet-Canada Research Network
Kai Morgenstern, University of British Columbia, Vancouver, BC, Canada; and Z. Nesic and T. A. Black |
| | P1.19 | A tall-tower study of CO2, water vapor, and energy exchange from developed land use in the U.S. Upper Midwest
Joe McFadden, University of Minnesota, Saint Paul, MN |
| | P1.20 | Contrasting the interannual variability in net ecosystem exchange of carbon dioxide in a northern peatland with the variability observed in northern forests
E. R. Humphreys, Trent University, Peterborough, ON, Canada; and P. M. Lafleur, S. W. Admiral, and N. T. Roulet |
| | P1.21 | Use of the nocturnal boundary layer budget method in estimating farm-scale greenhouse gas emissions
Laura A. Wittebol, McGill University, Ste-Anne-de-Bellevue, QC, Canada; and I. B. Strachan and E. Pattey |
| | P1.22 | An Examination of Measured CH4 and N2O Emissions from Swine Manure Compared with Estimated Emissions Using Default IPCC Factors
Michèle Marinier, University of Guelph, Guelph, ON, Canada; and K. H. Park, A. G. Thompson, and C. Wagner-Riddle |
| | P1.23 | Application of open-path TDL analysers for determination of methane and ammonia emissions from livestock facilities
Trevor Coates, Agriculture and Agri-Food Canada, Lethbridge, AB, Canada; and S. McGinn and J. Bauer |
| | P1.24 | Numerical estimations of the horizontal advection of scalars inside canopies
Young-San Park, University of California, Davis, CA; and K. T. Paw U |
| | P1.25 | Denoising atmospheric turbulence signal with wavelet-packet transform
Hu Fei, Chinese Academy of Sciences, Beijing, China; and Y. Jing |
| | P1.26 | Scintillometer measurements inside two tree canopies
Roland Vogt, University of Basel, Basel, Switzerland; and A. Christen and A. Pitacco |
| | P1.27 | A numerical study of near-field dispersion within and above forest canopies
Steven L. Edburg, Washington State University, Pullman, WA; and D. E. Stock, B. K. Lamb, and H. W. Thistle |
| | P1.28 | Simulation of energy and water budgets in aspen, black spruce and jack pine forests during winter using the Canadian Land Surface Scheme
Paul A. Bartlett, MSC, Toronto, ON, Canada; and M. D. MacKay and D. L. Verseghy |
| | P1.29 | On the spatial scaling of a complex adaptive system
Theresa A. Krebs, University of California, Berkeley, CA; and D. Baldocchi |
| | P1.30 | On the quality assurance of surface energy flux measurements
Matthias Mauder, Agriculture and Agri-Food Canada, Ottawa, ON, Canada; and C. Liebethal, M. Goeckede, and T. Foken |
| | P1.31 | Evaluation of footprint models using surface fluxes over clearly defined heterogeneity
Tiina Markkanen, University of Helsinki, Helsinki, Finland; and M. Göckede, Ü. Rannik, T. Foken, and T. Vesala |
| | P1.32 | Estimating the turbulent eddy difussion and aerodynamic resistance for heat under unstable conditions using air temperature measurements as input
F. Castellví, University of Lleida, Lleida, Spain; and R. L. Snyder, D. D. Baldocchi, and K. T. Paw U |
| | P1.33 | Estimating spatial and temporal variation of evapotranspiration in South Korea
Jin I. Yun, Kyung Hee University, Suwon, Gyeonggi, South Korea; and J. C. Nam, S. Y. Hong, J. Kim, and K. S. Kim |
| | P1.34 | Validation of GOES-based insolation estimates using pyranometer insolation data from the United States Climate Reference Network
Jason A. Otkin, SSEC/CIMSS, Madison, WI; and M. C. Anderson and J. R. Mecikalski |
| | P1.35 | Site-specific frost warning in mountainous regions by estimating geographic potential for cold-air accumulation
Uran Chung, Kyung Hee University, Suwon, Gyeonggi, South Korea; and J. I. Yun |
| | P1.36 | Response of plant growth to surface water balance during a summer dry period in Central Eurasian steppe
Yoshihiro Iijima, Hydrological Cycle Observational Research Program, Yokohama, Kanagawa, Japan; and T. Kawaragi, T. Ito, K. Akshalov, A. Tsunekawa, and M. Shinoda |
| | P1.37 | Assessment of Available Water Capacity for Estimating the Evapotranspiration of Agricultural Areas in Austria
Hartwig Dobesch, Central Institute for Meteorology and Geodynamics, Vienna, Austria; and S. Zach and E. Murer |
| | P1.38 | The impact of extreme temperatures on crop yield: observations and modelling
A. J. Challinor, University of Reading, Reading, Berks., United Kingdom; and T. R. Wheeler, J. M. Slingo, and P. Q. Craufurd |
| | P1.39 | Biogenic emissions in the face of climate change
Shelley Pressley, Washington State University, Pullman, WA; and B. K. Lamb, H. Westberg, J. Chen, A. Guenther, and C. Wiedinmyer |
| | P1.40 | Mediterranean shrublands growth responses to warming and drought conditions
Grazia Pellizzaro, Institute of Biometeorology, Sassari, Italy; and C. Cesaraccio, C. Sirca, and G. De Dato |
| | P1.41 | Italian agricultural production and the heat wave during the summer 2003
Luigi Perini Sr., Ministry of Agriculture, Rome, Italy; and M. C. Beltrano |
| | P1.42 | Impacts of precipitation and crop–tillage decisions on soil moisture regimes during the 2002 drought on the southern Canadian Prairies
W. G. Bailey, Simon Fraser University, Burnaby, BC, Canada; and L. J. B. McArthur and R. H. Dexter |
| | P1.43 | The climate and the long-term water balance of Fluxnet Canada’s coastal Douglas-fir forest
David L. Spittlehouse, British Columbia Ministry of Forests, Victoria, BC, Canada |