Mark A. Moline California Polytechnic State University, San Luis Obsipo, CA 93401

1. Inferring Physical Processes Using Phytoplankton Structure and Bulk Optical Properties in Coastal Waters Mark A. Moline California Polytechnic State University, San Luis Obsipo, CA 93401 Paul W. Bissett Florida Environmental Research Institute, Tampa, FL 33611 Robert Chant, Scott Glenn and Oscar Schofield Institute of Marine and Coastal Sciences, Rutgers University, New Brunswick, NJ 08901

2. Objectives • Dynamics of Pycnocline/Thermocline • Cross-Shelf Biomass • Cross-Shelf Community Structure • Optical Coherence

3. Study Area

4. Profiling Time Series Temperature July 2001

5. Profiling Time Series Fluorometry July 2001

6. Study Area

7. Cross-Shelf Dynamics Range (km) 0 4 8 12 16

8. Cross-Shelf Dynamics

9. Cross-Shelf Dynamics

10. Study Area N1 Line S1 Line

11. 7/12/2001 Brunt Vasalia Frequency (N2) Max N2 Depth Integrated Fluorescence 7/29/2001 Max Density Gradient

12. Max N2 Depth Max Density Gradient 20 Distance Offshore (km) 0 Aug 1 Aug 1 Jul 20 Jul 26 Jul 20 Jul 26 Date Date m 18 0.02 0 0

13. Max Density Gradient Integrated Fluorescence 20 Distance Offshore (km) 0 Aug 1 Aug 1 Jul 20 Jul 26 Jul 20 Jul 26 Date Date 0.02 0.02 0 0

14. day Distance N2Depth Gradient IntFL day 1 Distance -0.00162 1 N2Depth 0.40403 0.429578 1 Gradient -0.3783 0.573486 0.120661 1 IntFL 0.579284 0.221738 0.739024 -0.15691 1 day Distance N2Depth Gradient IntFL day 67.66261 Distance -0.07543 31.96035 N2Depth 10.88214 7.951964 10.72143 Gradient -0.01183 0.012324 0.001502 1.45E-05 IntFL 12236341 3219081 6213992 -1531.66 6.59E+12 Correlation (R) Coherence

15. Fluorescence vs. Density 3000 Relative Fluorescence 0 1020 1025 Density

16. Spatial Time Series

17. Spatial Time Series

18. Fluorescence vs. Density 2000 Aug 1 Aug 2 Aug 3 Aug 6 Relative Fluorescence 0 1020 1025 Density

19. Cross-Shelf Biomass Structure 14 Chlorophyll a mg/L Distance Offshore (km) 12 0 7 Community Structure Derived from Pigments CHEMTAX (Mackey et al. 1996; MEPS) 0 Aug 1 Jul 12 Jul 20 Jul 26 Date

20. Prasinophytes Chlorophytes Cryptophytes Cyanophyta Diatoms Dinoflagellates Haptophytes 35 22 30 18 10 40 55 Cross-Shelf Community Structure 14 n = 255 Distance Offshore (km) 7 % Total Pigment 0 0 Aug 1 Jul 12 Jul 20 Jul 26 Date

21. Prasinophytes Cyanophyta Distance Offshore (km) Dinoflagellates Haptophytes Maxdr Maxdr Date Date

22. Samples taken from pycnocline significantly differed from near surface samples for two groups. • Diatoms % increased with depth • Cyanophyta % decreased with depth (increasing offshore)

23. Cross-Shelf Biomass Structure 14 Chlorophyll a mg/L Distance Offshore (km) 12 0 7 0 Aug 1 Jul 12 Jul 20 Jul 26 Date

24. Absorption 440nm Attenuation 440nm 20 Distance Offshore (km) 0 Aug 1 Aug 1 Jul 20 Jul 26 Jul 20 Jul 26 Date Date 1/m 1.5 1/m 6 0 0

25. Max d r Att 440nm Chl 440nm 20 Distance Offshore (km) 0 Date ug/L 12 0 0.02 1/m 6 0 0

26. Conclusions • Region (2001) Dominated by Downwelling and Upwelling Cycles • Weak Nearshore Gradients (Downwelling) Result in Phytoplankton increase • Phytoplankton Community Structured By Episodic Events: • Deeper N2 Favor Cyanophyta and Haptophytes • Weak Gradients favor Cryptophytes and Prasinophytes • Strong Gradients favor Diatoms and Haptophytes • Space/Time Coherence with Physical Forcing/Optics/Biology

27. Future Work • Expand to Full Grid (1999-2001) • Work with ADCP Currents – Shear • Nutrient Data • Validation of ROMS/ECOSIM

28. Cyanophyta Diatoms

30. National Undersea Research Program Acknowledgements • Crews of the R/V Caleta • Crews of the R/V Walford • Trisha Bergmann • Shelley Blackwell • Mike Crowley • Josh Kohut • Matthew Oliver • Cristina Orrico • Jessica Pearson • Sponsor Support

31. Study Area N1 Line S1 Line

32. Study Area Gradient Brunt Vaisala Frequency (N2)

33. Bathymetry Effect