html5-img
1 / 24

Spatial Variation in Corn and Soybean Fields in Central Iowa

Spatial Variation in Corn and Soybean Fields in Central Iowa. Energy Balance and Carbon Dioxide Exchanges. Authors. J.L. Hatfield J.H. Prueger W.P. Kustas. Background. Experiment conducted in central Iowa during 2002 as part of the Soil Moisture experiment (SMEX02)

irisa
Télécharger la présentation

Spatial Variation in Corn and Soybean Fields in Central Iowa

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Spatial Variation in Corn and Soybean Fields in Central Iowa Energy Balance and Carbon Dioxide Exchanges

  2. Authors • J.L. Hatfield • J.H. Prueger • W.P. Kustas

  3. Background • Experiment conducted in central Iowa during 2002 as part of the Soil Moisture experiment (SMEX02) • Opportunity to combine a Soil Moisture Atmospheric Coupling Experiment (SMACEX) to quantify the spatial variation in energy balance and carbon dioxide exchanges across a watershed

  4. Objectives • Quantify the differences among energy balance and CO2 exchanges across multiple sites in a corn-soybean area • Quantify the differences among sites caused by soil and crop growth differences

  5. Site • Walnut Creek Watershed • 5200 ha corn/soybean production area in central Iowa

  6. Soils within Fields • Eight sites were in Clarion soil • Two sites in Nicollet soil • Two sites in Webster soil • Differences among these soils is due to soil water holding capacity in the upper 25-30 cm.

  7. Instrumentation • 12 EC 3-D sonic anemometer (CSAT3) • 10 Open path CO2/H2O IRGA (LI7500) • 2 Open Path H2O (KH20) • Data Collection • 20 Hz, 20 day times series • 30 Minute data, remainder of season

  8. Ancillary Instrumentation • Net radiation (7-Kipp & Zonen, 7-REBS) • Soil heat flux plates with soil T (REBS) • Vitel θv sensors • Temperature and humidity (Vaisala) • Radiometric temperatures (soil & canopy + soil, Apogee)

  9. Cross-Comparison Location

  10. Exploratory Equivalence Analysis(are the EC’s equivalent)

  11. Variation in Precipitation July 04 02 Rainfall (mm)

  12. Variation in Precipitation Total Rainfall (6/1/02-8/19/02) (cm)

  13. Energy Balance Closure

  14. Variation in Net Radiation Little difference among net radiation across the sites

  15. Seasonal Variation in Rn - Corn

  16. Seasonal Variation in Rn - Soybean

  17. Seasonal Variation in G - Corn

  18. Seasonal Variation in G- Soybean

  19. Variation in LE and CO2

  20. Variation in LE - Soybean

  21. Variation in Energy Balance Components Blue- Corn Red- Soybean

  22. Observations • Variation in energy balance components and CO2 among sites was larger than the comparison differences • Differences among sites were caused the crop growth due to soil types and soil water availability • Variation remained consistent throughout the study period

  23. Implications • Multiple sites provide measure of the differences across soils within a watershed settings • Careful selection of sites would be necessary to obtain data typical of regional scale estimates

More Related