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Soil Physics 2010

Outline. Announcements More on thermal properties More on evaporation. Soil Physics 2010. Announcements. Review session today, 11:00-1:00, room 1581 Agronomy More sessions will be scheduled for next week 1 more homework will be assigned Quiz? No, not today. Soil Physics 2010.

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Soil Physics 2010

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  1. Outline • Announcements • More on thermal properties • More on evaporation Soil Physics 2010

  2. Announcements • Review session today, 11:00-1:00, room 1581 Agronomy • More sessions will be scheduled for next week • 1 more homework will be assigned • Quiz? No, not today. Soil Physics 2010

  3. Measuring Thermal Properties in the Field Thermal Conductivity k q Volumetric Heat Capacity cr q DT Thermal Diffusivity q Inverse methods using many measurements at multiple depths and times? Soil Physics 2010

  4. Measuring Thermal Diffusivity in the Field • Assumptions: • DT constant • No water movement • No latent heat movement • Sine wave • …not necessarily! Soil Physics 2010

  5. Measuring Thermal Diffusivity in the Field ? The phase change method: The amplitude method: Every sensor is a temperature sensor. But if you’re clever, you can use it to measure something else as well. -- Gaylon Campbell Soil Physics 2010

  6. Estimating other properties in the field • Suppose we measure T and q: • We get DT from amplitude or phase shift • We get q directly • From DT and q we calculate cr • From DT and cr we calculate k • …? Soil Physics 2010

  7. Evaporation Soil Physics 2010

  8. Evaporation Lawrence et al., 2007 Evaporation from the soil can be an important part of the total water budget! Soil Physics 2010

  9. Evaporation Stage I Stage II Stage III e, mm/day time • Evaporation may be limited by: • Energy • Water supply • Vapor transport Soil Physics 2010

  10. Evaporation Stage I Stage II Stage III e, mm/day time Water available; (mostly) energy-limited • Evaporation may be limited by: • Energy in • Water in • Vapor out Energy available; Transport limiting: water up vapor out Soil Physics 2010

  11. Main limitations on actual evaporation from soil Stage I Stage II Stage III e, mm/day time • Stage I: evaporation from the surface • Energy available at surface • Vapor pressure deficit in air near the surface • Transport of vapor away from the surface • Stage II: evaporation from a retreating drying front • Flow of liquid water to the drying front • Stage III: evaporation from a stationary drying front • Diffusion of water vapor from the drying front to air above the soil surface Soil Physics 2010

  12. Evaporation insights and innovations 1: Maria Dragila: Enhanced evaporation from fractures • Daytime: • Hot dry soil surface • Cooler, moister fracture face • Evaporation limited by diffusion • Nighttime: • Cool dry soil surface • Warmer, moister fracture face • Convection in the fracture enhances evaporation Soil Physics 2010

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