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Looking at Biosphere-Atmosphere Interactions Differently: Roles of Switches, Lags and Pulses on Carbon, Water and Energy Fluxes with Data from a Global.

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Presentation on theme: "Looking at Biosphere-Atmosphere Interactions Differently: Roles of Switches, Lags and Pulses on Carbon, Water and Energy Fluxes with Data from a Global."— Presentation transcript:

1 Looking at Biosphere-Atmosphere Interactions Differently: Roles of Switches, Lags and Pulses on Carbon, Water and Energy Fluxes with Data from a Global Network-Fluxnet Dennis Baldocchi ESPM/Ecosystem Sciences Div. University of California, Berkeley Toronto Seminar March 21, 2006

2 Why Pulses, Switches and Lags are Important? They are Features of Complex Dynamical Systems Biosphere is a Complex Dynamical System –Constituent Processes are Non-linear and Experience Non- Gaussian Forcing –Possess Scale-Emergent Properties –Experiences Variability Across a Spectrum of Time and Space Scales –Solutions are sensitive to initial conditions –Solutions are path dependent –Chaos or Self-Organization can Arise

3 C Dynamics of Pools and Fluxes: Leads, Lags and Oscillations

4 Examples: Non-Linear Biophysical Processes Leaf Temperature Transpiration Photosynthesis Respiration

5 Scale Emergent Processes: Integrating Photosynthesis from Leaf to Canopy Scale

6 C Fluxes occur across a Spectrum of Time Scales, with Different Forcings at Each Scale

7 Switches, Pulses and Lags are Evident in Annual Time Series of Trace Gas Exchange

8 Complicating Dynamical Factors: Annual Time Course Pulses Switches Lags

9 Pulses: Volcanoes, Clouds and Aerosols –Photosynthesis Rain –Microbial Respiration –Evaporation Litterfall or Treefall –Respiration Fires –Carbon oxidation

10 Switches Time Phenological –LAI –Canopy Conductance –Albedo and Radiation Balance –PBL Growth –Photosynthesis Duration and Carbon Balance –Flowering and Respiration Climatic/Geophysical –Snow –Flood –Frost –Drought –Rain –day/night –Land Slide Space Land Use –Age –Roughness –Disturbance –Functional Type –evergreen vs deciduous –Tree vs grass

11 Lags Transpiration: – Xylem transport and Bole Capacitance Microbial respiration –phloem transport of photosynthate to roots feeds associated microbes –‘acclimation’ as labile pools are depleted and populations grow and change Photosynthetic Capacity: –Leaf chemistry depends on decomposition of previous year’s litter pool Soil respiration –soil temperature amplitude varies and phase angle shifts with depth Growth and Carbon Uptake – f(previous year’s growth)

12 Data Sources AmeriFlux –Oak Savanna, Ione, Ca –Annual Grassland, Ione, CA –Deciduous Forest, Oak Ridge, TN FLUXNET –Grass and Crops –Conifer Forests –Evergreen and Deciduous Broadleaved Forests

13 Oak-Grass Savanna: A Two Layer System and Model System for Studying Global Change

14 FLUXNET: From Sea to Shining Sea 300+ Sites, circa 2006

15 Eddy Covariance

16 Outline Pulses –Volcanoes, Aerosols + Photosynthesis –Rain + Respiration –Senescence + Respiration Switches –Phenology Growing Season Length Albedo PBL Development Reproduction + Respiration –Direct/Diffuse Light Use Efficiency Lags –Soil T and Respiration –VPD, Ps and Respiration –Interannual variability Interfaces –Grassland/Savanna

17 PULSES

18 Volcanoes, Aerosols + Canopy Photosynthesis

19 How does an array of biotic and abiotic factors interact to cause interannual variations in the breathing of the terrestrial biosphere?

20 Pinatubo Altered Radiation Direct-Diffuse Radiation Partitioning more than Global Radiation Measurements at Mauna Loa, Ellsworth Dutton  direct -130 W m -2  diffuse +100 W m -2

21 Anomaly Global CO 2 Trends after Pinatubo: Reduction (--) in CO 2 Growth Rate Data: Keeling and Whorf More Photosynthesis? Or Less Respiration?

22 Global Impact of Mt Pinatubo Eruption Rödenbeck, Houweling, Gloor and Heimann, 2003

23 How Sky Conditions Affect NEE? Baldocchi, 1997, Plant Cell Environ

24 CO 2 Flux and Diffuse Radiation Niyogi et al., GRL 2004; Gu et al, 2002, JGR; Hollinger et al, Xu et al; Flanagan et al

25 How do Changes in Diffuse Radiation affect Canopy Fluxes?: Case: Mt Pinatubo Explosion, ~ 10% of beam -> diffuse Gu et al, 2003, Science direct beam diffuse Solar radiation [W m -2 ] Solar elevation angle [°] Year of Mt. Pinatubo eruption

26 Impact on GPP Gu et al., Science, 2003 Theoretical Impact of 20% reduction in direct radiation is ~ +70 gC m -2 y -1 C uptake

27 Impact of rain pulses on ecosystem respiration:

28 Impact of rain pulse on ecosystem respiration: Fast response Baldocchi et al, JGR, Biogeosciences, in press

29 Rains Pulse do not have Equal Impacts Xu, Baldocchi Agri For Meteorol, 2004

30 Quantifying the impact of rain pulses on respiration: Assessing the Decay Time constant Xu, Baldocchi, Tang, 2004 Global Biogeochem Cycles

31 Respiration Enhancement Depends on Initial Condition Xu, Baldocchi, Tang Global Biogeochem Cycles 2004

32 Significance of rain pulse: Total C respired Xu, Baldocchi, Tang, 2004 Global Biogeochem Cycles

33 Impact of rain pulse on regional atmospheric CO 2

34 Coupled PBL-Sfc Energy CO 2 Model: al a McNaughton-Spriggs

35 Litter Fall Respiration Pulse Leaf Fall Wilson and Baldocchi, JGR, 2002; Granier et al. Functional Ecology, 2001

36 Switches

37 Ecohydrology: ET, Functional Type and Drought

38 Evaporation and Drought Baldocchi et al, 2004 AgForMet

39 Environmental Controls on Respiration Xu + Baldocchi, AgForMet 2004

40 Phenology, Growing Season Length and annual NEE Baldocchi et al, 2001, Bull Am Met Soc

41 Leaf Emergence and Onset of Photosynthesis

42 Predicting Phenology from Soil Temperature Baldocchi et al. Int J Biomet, 2005

43 Photosynthesis Switches Partitioning between dominance by Roots vs Microbes Stimulation of Autotrophic is much delayed after onset of photosynthesis Baldocchi et al, JGR, Biogeosciences, in press

44 Lags-Leads

45 Soil respiration: False Lags

46 Tonzi Open areas Tang, Baldocchi, Xu, GCB, 2005 Respiration and Temperature

47 Lags and Leads in Ps and Resp: Diurnal Tang et al, Global Change Biology 2005.

48 Soil Resp Lags Ps by about 5 to 6 hours

49 Other Ecosystem-Scale Lags: Residual Effects of Drought Data of Alex Knohl, ED Schulze and MPI-Jena

50 Role of Switches, Pulses and Lags on Interannual Variability of NEE? Data of Wofsy, Munger, Goulden et al., Harvard Univ

51 Sources of Interannual Variability

52 Landscape Switches

53 Albedo

54 Net Radiation

55 Conclusions Switches, Lags and Pulses are Components of Many Long Term Flux Records Toy Models Provide Insights on Complicated Dynamics and Help Interpret Field Data More Work is Needed to See if S/L/P induces Chaos and Unanticipated Consequences Papers: Nature.berkeley.edu/biometlab –Id: biomet_pubs –Password: cal_bears

56 Acknowledgements Funding –DOE/TCP, NASA, NIGEC/WESTGEC, Kearney, AES Students, Postdocs, Techs, Landowners Lianhong Gu, Eva Falge, Jianwu Tang, Liukang Xu, Ted Hehn, Tess Krebs, Alex Knohl, Siyan Ma, Matthias Falk Fluxnet Community Ranchers –Russell Tonzi, Fran Vaira

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