MODELLING THE FEEDBACKS BETWEEN PHYTOPLANKTON AND GLOBAL OCEAN PHYSICS

1. MODELLING THE FEEDBACKS BETWEEN PHYTOPLANKTON AND GLOBAL OCEAN PHYSICS Manfredi Manizza1,2, C. Le Quéré 1, A. J. Watson2, E. Buitenhuis1 1Max-Planck-Institut für Biogeochemie, Jena, Germany. 2University of East Anglia, Norwich, United Kingdom.

2. Sun Io Ocean Surface Absorption&Warming I(z) Phytoplankton Shading & Cooling PHYTOPLANKTON-LIGHT-HEAT INTERACTION

3. Io I(z) FROM TROPICAL TO GLOBAL • Tropical Studies: Nakamoto et al. (2000, 2001); Murtugudde et al. (2002) • OGCM + Satellite derived Chlorophyll • “Off-line” forcing  NO FEEDBACKS !! 1) An OGCM (OPA) on global configuration: Ocean Surface • 0.5 ° - 1.5 °x 2.0 ° (Lat x Lon) • 1.5 order TKE Model. • Gent-McWilliams eddy-mixing. 2) An ocean biogeochemistry model (Dynamic Green Ocean Model) : • Diatoms and Coccolithophores and Nanophytoplankton. • Micro and Mesozooplankton. • Co-limitation of light,P, Si and Fe. 3) A Sea-Ice model (LIM)

4. I(z)= Io* (R*e(-z/1) + (1-R)*e(-z/ 2) ) I(z) = I0 *( R*e(-z/1) + (1-R)*(e-(kr*z)+e-(kg*z)) _____________ 2 K() = kw() + χ()* [Chl]tote() INCLUDING THE BIOLOGY Paulson & Simpson Model (JPO,1977) INFRARED RED BLUE/GREEN Morel Model (JGR,1988) K()=LIGHT EXTINCTION COEFFICIENT [Chl]tot = [Chl]diatom + [Chl]cocco + [Chl]nano

5. THE MODELLED “BIO-FORCING” 2.5 0 Monthly Average (mg m-3) SURFACE [Chl] Monthly Maximum

6. -6 -0.5 ΔPENETRATION DEPTH (Zpen) Io Zpen (m) Zpen = (ez∫ I (z) dz)/Io Zpen Visible Light = 23 m Average

7. TROPICS

8. 2 -1 0.4 -1.4 ΔSEA SURFACE TEMPERATURE °C Average ΔTEMPERATURE °C

9. 200 -20 0.3 m/s - - - ΔMLD & Δu(surf) (m) Average

10. TROPICS TO SUB-TROPICS

11. -30 80 TROPICS/SUBTROPICS INTERACTION ΔTOTALPRIMARYPRODUCTIONgC m-2 yr-1 MONTHLY AVERAGE Subtropics Subtropics Equator +Δu +ΔTPP DEPTH -ΔMLD +ΔPO4

12. HIGH LATITUDES

13. ΔSEA SURFACE TEMPERATURE 2 -1 °C Monthly Maximum

14. 80 -80 EFFECTS ON SEA-ICE (AVERAGE) %(ΔIce fraction) Sun Sea-ice Ocean Phytoplankton Δ %ICEN = -0.17 * [Chl]surf Δ %ICES = -1.3 * [Chl]surf

15. GLOBAL

16. -30 + 30 +0.35 -0.35 ECOSYSTEM RESPONSE ΔNanophyto (%) ΔTotal Chl (mg m-3) ΔCoccolithophores (%) ΔDiatoms (%) AVERAGE

17. IMPACT ON OCEAN CARBON CYCLE

18. CONCLUSIONS • Phytoplankton presence affects light and heat • penetration in the ocean. • Different and Regional Modifications: SST, MLD, CURRENTS, SEA-ICE. • OCEAN PHYSICS  ECOSYSTEM & OCEAN BIOGEOCHEMISTRY OCEAN CARBON CYCLE. • Global OBGCM  Tropics and Interaction Tropics/Subtropics & High Latitudes.

19. Si PO4 NO3 NH4 Fe coccolith. Nano phytoplankton DMS producers N2 fixers diatoms CaCO3 DOM Dynamic Green Ocean Model (Buitenhuis et al.,in prep.)