| 305 - 307 |
Introduction: Chemical oceanography
Luther GW, Boyle EA |
| 308 - 341 |
The marine inorganic carbon cycle
Millero FJ |
| 342 - 381 |
Calcium carbonate formation and dissolution
Morse JW, Arvidson RS, Luttge A |
| 382 - 401 |
Abiotic synthesis of organic compounds in deep-sea hydrothermal environments
McCollom TM, Seewald JS |
| 402 - 418 |
Marine optical biogeochemistry: The chemistry of ocean color
Coble PG |
| 419 - 442 |
Advanced instrumental approaches for characterization of marine dissolved organic matter: Extraction techniques, mass spectrometry, and nuclear magnetic resonance spectroscopy
Mopper K, Stubbins A, Ritchie JD, Bialk HM, Hatcher PG |
| 443 - 466 |
The power of radiocarbon in biogeochemical studies of the marine carbon cycle: Insights from studies of dissolved and particulate organic carbon (DOC and POC)
McNichol AP, Aluwihare LI |
| 467 - 485 |
Preservation of organic matter in marine sediments: Controls, mechanisms, and an imbalance in sediment organic carbon budgets?
Burdige DJ |
| 486 - 513 |
Oceanic methane biogeochemistry
Reeburgh WS |
| 514 - 562 |
Chemistry of iron sulfides
Rickard D, Luther GW |
| 563 - 576 |
The oceanic phosphorus cycle
Paytan A, McLaughlin K |
| 577 - 589 |
New developments in the marine nitrogen cycle
Brandes JA, Devol AH, Deutsch C |
| 590 - 600 |
Applications of microelectrodes to problems in chemical oceanography
Reimers CE |
| 601 - 622 |
In situ measurement of pH and dissolved H-2 in mid-ocean ridge hydrothermal fluids at elevated temperatures and pressures
Ding K, Seyfried WE |
| 623 - 640 |
Chemical sensor networks for the aquatic environment
Johnson KS, Needoba JA, Riser SC, Showers WJ |
| 641 - 662 |
Marine biogeochemical cycling of mercury
Fitzgerald WF, Lamborg CH, Hammerschmidt CR |
| 663 - 674 |
U/Th series radionuclides as coastal groundwater tracers
Swarzenski PW |
