1. Marine Chemistry and Biological Oceanography 海洋化學與生物海洋

2. Biology starts with chemistry Biological processes – the levels of elements and compounds Abundance of biota and tropic relationship – chemical parameters, salinity, dissolved oxygen and nutrient

4. Global water cycle

6. turnover time The ocean has a turnover time of about 37,000 years with respect to river inflow. This is how long it would take to fill the ocean if it were totally dry. Turnover times are defined as the mass in the reservoir divided by the input or removal rate. By comparison the average residence time of water in the atmosphere with respect to evaporation from the oceans and continents is only about 10 days.

7. Scope of Chemical Oceanography: Fundamental Questions - What are the chemical controls on biological production and food web structure of the ocean? In some ocean areas iron limits phytoplankton growth. Martin (1991) conducted experiments where he added iron to samples and showed that adding iron stimulated growth rate and also stimulated diatom production.

9. - In what ways do biological processes control the distributions of chemicals in the ocean? Photosynthesis and respiration control the distribution of many elements in seawater.

11. Compositions of sea water 0.45  m filter Passed – Can not pass – Humic acid, protein and amino acid, polysaccharide, pigments, inorganic colloids (iron hydroxide)

13. salinity Total amount of salts in water

14. Bioavailability Can be utilized by cells - membrane related to dissolved materials and particulate materials Most particulate materials can not be efficiently utilized by phytoplankton and algae 理由 : large size of particulate materials – can not pass through cell membrane or via the channel

18. Speciation and global hydrological cycle 7 days 3550 days

20. Global hydrological cycle

21. Time-dependent events

22. Dissolved gases Oxygen: dissolved oxygen (DO) Surface, temperature, biological utilization and emission 2.0-10 mg/L intertidal regions Vertical distribution: 50 m no variation Photosynthesis (+O 2 ) Respiration (-O 2 )

23. Primary productivity

24. CO 2 cycle CO 2 (gas) ↔ CO 2 (dissolved) H 2 O + CO 2 ↔ H 2 CO 3 H 2 CO 3 ↔ H + + HCO 3 - HCO 3 - ↔ H + + CO 3 2- Ca 2+ + CO 3 2- ↔ CaCO 3 (solid) 表示法 : alkalinity (A) – the number of moles of hydrogen ion required to convert all anions of weak acids to their unionized form in 1 kg of water

25. pH and CO 2

26. CO 2 cycle

28. C cycle

29. Nutrient Phosphorus (P) Nitrogen (N) Co-variation of N and P Refield atomic ratio: C:N:P=106:16:1 (1934, 1963) N:P ratio > 30:1  P limitation N:P ratio < 10:1  N limitation Silicon

32. Spatial variations

33. Temporal variations

34. Organic carbon Dissolved organic carbon DOC Particular organic carbon POC POC in photic zone is recycled by micro-organisms.