p CO 2 chemostats Context Model species Model Species Aim of this work Experimental Design Mesocosms Experimental design 1 Artificial mesocosms Experimental design 1 Artificial mesocosms ID: 1026417
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1. Ecophysiological changes of hermatypic scleractinians in high pCO2 chemostats
2. Context
3. Model species
4. Model Species
5. Aim of this work
6. Experimental Design : Mesocosms
7. Experimental design 1: Artificial mesocosms
8. Experimental design 1: Artificial mesocosms
9. Experimental design 1: Artificial mesocosms
10. Experimental design 1: Artificial mesocosms
11. Experimental design : physiological study: Chemostats
12. Chemostat (U.K. patent application number 1112269.4)
13. Chemostat (U.K. patent application number 1112269.4)
14. Experimental design - Timing
15. 3. Results : What is the effect of higher pCO2 ?
16. Calcification – 24h decrease
17. Calcification – 5 months decrease
18. Metabolism: O2 fluxes – 24h decrease
19. Metabolism: O2 fluxes – 5 months decrease
20. Nutrients Assimilation : N (NO3-) – 24h decrease
21. Nutrients Assimilation : P (PO43-) – 24h decrease
22. Nutrients Assimilation : N (NO3-) – 5 months decrease
23. Nutrients Assimilation : P (PO43-) – 5 months decrease
24. Conclusions
25. Conclusions
26. Perspectives
27.
28.