1 / 36

Dennis Baldocchi Siyan Ma, Naama Raz-Yaseef, Laurie Koteen, Joe Verfaillie, Trenton Franz ESPM

Ecology and Soil Moisture: Using an Oak-Grass Savanna as a Model System for Studying the Effects of Soil Moisture Dynamics on Water and Carbon Exchange. Dennis Baldocchi Siyan Ma, Naama Raz-Yaseef, Laurie Koteen, Joe Verfaillie, Trenton Franz ESPM UC Berkeley COSMOS Workshop

enan
Download Presentation

Dennis Baldocchi Siyan Ma, Naama Raz-Yaseef, Laurie Koteen, Joe Verfaillie, Trenton Franz ESPM

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. Ecology and Soil Moisture:Using an Oak-Grass Savanna as a Model System for Studying the Effects of Soil Moisture Dynamics on Water and Carbon Exchange Dennis Baldocchi Siyan Ma, Naama Raz-Yaseef, Laurie Koteen, Joe Verfaillie, Trenton Franz ESPM UC Berkeley COSMOS Workshop Tucson, AZ, Dec 2012

  2. Oak-Savanna Model System for Studying the Effect of Soil Moisture on Ecosystem Ecology • Structure/Function • Oak and grasses provide contrasting life forms, woody/herbaceous, perennial/annual • The Canopy is open and heterogeneous, giving us a opportunity to test the applicability of ecosystem and biogeophysical models, mostly developed for ideal and closed canopies • Environmental Biology • The Mediterranean climate provides distinct wet/ cool and dry/hot seasons to examine the ecosystem response (photosynthesis, transpiration, respiration, stomatal conductance) to a spectrum of soil moisture and temperature conditions • Global Change • The Mediterranean climate experiences great extremes in inter-annual variability in rainfall; we experience a wider range in ppt over a few years than long-term predicted changes.

  3. Tonzi Ranch Flux Tower

  4. Oak-Grass Savanna: A Two Layer System Winter: Trees deciduous; grass green Summer: Trees green; grass dead Spring: Trees green;grass green

  5. Oak Savanna consists of Heterogeneous and Open Canopy with Low LAI (< 2.0)

  6. Objectives • Examine fluxes of water and carbon with changes in soil moisture • Role of Seasonal Moisture Deficits • Role of Rain Pulses • Explore spatial/temporal variation of soil moisture • Temporal variation with TDR • Depth of soil with GPR • Root distribution with GPR • Soil moisture spatial patterns with EMI

  7. A Decade of Evaporation Measurements

  8. InterAnnual Variation in Water Balance Ppt: 350 to 900 mm ET savannna: 380 to 520 mm ET grass: 280 to 520 mm

  9. In Semi-Arid Regions, ET is Conservative: The Most ET lost, scales with Precipitation during the Drier Years ‘Mediterranean Ecosystems Don’t evaporate more than 500 mm per year’, Serge Rambal

  10. Evaporation from an Oak Savanna > Annual Grassland How and Why?

  11. Soil Moisture Dynamics at Oak Savanna Differ from Near by Annual Grassland Smaller Water Reservoir Contributes to Lack of Trees

  12. Eco-hydrology:ET, Functional Type, Physiological Capacity and Drought

  13. Effects of Functional Types and Rsfc on Normalized Evaporation Rc is a f(LAI, N, soil moisture, Ps Pathway)

  14. ET and Soil Water Deficits: Root-Weighted Soil Moisture Baldocchi et al., 2004 AgForMet

  15. Measuring Spatial/Temporal Variation in Soil Moisture

  16. Hourly Sampling, Few points and Depths, Theta Probe Poor Vertical and Horizontal Sampling

  17. How Deep is the Soil? Trenton Franz, EMI

  18. ESI, Moisture Point Many Locations, Discrete Depths, Bi-Weekly, Manual Sampling

  19. Marry the Two Sensor Types Calibrate Theta-Probe with Moisture Point Better Spatio-Temporal Resolution

  20. Where are the Roots and How Many? Remote Sensing Coarse Roots with GPR Ground Truth with Soil Pits

  21. Vertical Distribution of Roots with Ground Penetrating Radar Raz-Yaseef et al. JGR Biogeosciences, in press

  22. Radial Distribution of Coarse Roots, with Ground Penetrating Radar Raz-Yaseef et al. JGR Biogeosciences, in press

  23. ET and Soil Water Deficits: How do Trees stay Alive with such Low Water Potentials? Root-Weighted Soil Moisture Matches Pre-Dawn Water Potential Baldocchi et al., 2004 AgForMet

  24. But, Oak Trees Seem to Tap Ground Water G. Miller, X Chen, Y. Rubin, D. Baldocchi WRR 2010

  25. Pre-Dawn Water Potential Represents Mix of Dry Soil and Water Table During Summer MidDay Water Potential is Less Negative than Shallow Soil Water Potential, Evidence the Trees are tapping Groundwater Miller et al WRR, 2010

  26. ‘Soil Moisture’ Maps with EMI Trenton Franz, U Arizona

  27. Water Fluxes are Coupled with Carbon Fluxes

  28. Interannual Variation in Net Carbon Exchange: Grassland is Carbon Neutral; Savanna is a C Sink

  29. Carbon Fluxes Scale with Spring Rainfall Ma et al, 2007 AgForMet

  30. Soil Moisture Controls on Respiration Xu + Baldocchi, AgForMet 2004

  31. Sustained and Elevated Respiration after Fall Rain

  32. Impact of Rain Pulse, Timing of Rain and Photodegradation on Ecosystem Respiration Baldocchi et al, JGR, Biogeosciences, 2006

  33. Synthesis and Conclusion

  34. Conclusions • Savanna woodlands need about 80 mm more water to function than nearby grasslands • Trees tap ground-water to sustain themselves during the summer • Year to year variability in Carbon Uptake is due to length of wet season. • Oaks are risk adverse and experience less inter-annual variability in NEE than grasslands • Photosynthesis and Respiration are tightly linked • Oaks need high N levels to attain sufficient rates of carbon assimilation for the short growing season • Oaks are darker, warmer and use more water than grasslands

  35. Biometeorology Team Funding: US DOE/TCP; NASA; WESTGEC; Kearney; Ca Ag Expt Station

More Related