Iterations on LPJ surface fluxes Bremen April 6-7, 2009

1. Iterations on LPJ surface fluxesBremen April 6-7, 2009 Isoprene Emissions H2 uptake N2O fluxes SPITFIRE v2 Pru Foster Colin Prentice Lei Lei Dong Rita Wania Renato Spahni Catherine Morphopoulos

2. Xu, X. et al 2008 Global Change Biology 14, 1651 “Convergence in the relationship of CO2 and N20 exchanges between soil and atmosphere within terrestrial ecosystems” Flux(N2O) = a + b Flux(CO2) N2O surface fluxes (Rita)

3. Statistical parameters for linear relationship between N2O and CO2 N2O flux = slope * CO2 flux + interception

4. Rice and crop masks Ramankutty et al LPJ fluxes multiplied by (1-fractional coverage)

5. Nitrogen Fluxes from LPJ

6. Nitrogen Fluxes from Xu et al

7. Isoprene emission formulation GPP / 12 7 • I = e -------- x LAI • emission factor at STP PFT relative values taken from Guenther 2006, with reduction to broadleaves (Millet et al 2008 JGR) global value tunable (currently 1) x deviations from STP = ci,370 / ci exp ( 0.1 ( Tleaf - 30oC) ) GPP - gross primary productivity / 12 to convert gC / m2 /sec to moles CO2 /m2 / sec / 7 to convert moles CO2 to moles of isoprene Based on Arneth et al 2007 & Niinemets 1999

8. T leaf Rnet, sw - l E 4 s Tday3 + r cp / rbh Tleaf = Tday + ------------------------------ Rnet, sw = net shortwave downward radiation = daily SW / day length * (1 - albedo) l E = latent heat energy loss through evapotranspiration r cp = volumetric heat capacity of air (1200 J / m3 / oC) rbh = boundary layer resistance to heat (s / m) = 5 s/m conifers; 40 s/m grasslands ; (Kelliher 1993 Oecologia) Goudriaan & van Laar 1994

9. Global emissions LPJ 2002 Isoprene GOME 2002 HCHO

10. Breakdown of components in isoprene emission estimate

11. Breakdown of contributing elements to LPJ isoprene estimate

12. Interannual isoprene emissions

13. Hydrogen and Methane uptake model Surface flux = (Dsoil k )1/2 C0 Dsoil - diffusion coefficient in soil (cm2 / sec) k - oxidation rate, i.e. uptake, constant (s-1) C0 - H2 or CH4 concentration at the surface (cm-3) Masks - managed lands, wetlands, snow, NPP

14. Diffusion coefficient

15. Uptake rate within the soil

16. Comparison of H2 fluxes from Amund

17. New masks Snow mask Was: 0 if snow depth > 50 cm Now: following Price and Amund Sovde 1 1/2 1/4 0 20 40 60 cm Low organic matter mask if NPP < 10 gC / m2 uptake --> 0.

18. New LPJ H2 fluxes New uptake rate versus other global

19. Global uptake estimates LPJ uptake rates Smith-Downey’s thesis

20. Latitudinal distribution of uptake

21. Latitude bands versus Xiao’s satellite based inversions

22. Burnt Fraction (ii) Spitfire GFED 1997 1998

23. Month with peak burnt fraction Spitfire GFED Dec Nov Oct Sep Aug Jul Jun May Apr Mar Feb Jan 1997 1998

24. Global Annual Burnt fraction

25. SPITFIRE v2 improves estimates of the carbon cycle

26. Transect at 25 East

27. Averaged over 0 - 40E

28. Future work • Historical detection and attribution runs As per McGuire et al 2001 using Ramankutty et al crop masks and estimating CO2, methane, fires, … • Future runs with 30 GCMs from either GSI or SRES futures to look at impacts on • H2, isoprene, methane, fires … • water resources • biodiversity • avoided deforestation