The present study represents the first time-series evaluation of air-sea CO2 exchange for a coastal marine system of a subtropical high island of the Pacific. From September 2003 through September 2004, surface water total alkalinity (TA) and dissolved inorganic carbon (DIC) data were collected bimonthly. throughout the Kaneohe Bay estuarine-coral reef system. The partial pressure of carbon dioxide (pCO(2)) and the air-sea CO2 exchange flux were calculated using TA, DIC, atmospheric CO2 at sea level, and five wind speed relationships for gas transfer velocity. pCO(2) values were above the atmospheric level (average: 378 mu atm) throughout Kaneohe Bay (400-500 mu atm) and Kaneohe Stream waters (600-1300 mu atm) during baseline conditions. pCO(2) levels above atmospheric in bay water were driven mainly by calcification while pCO(2) levels above atmospheric in stream water were driven mainly by remineralization of terrestrial organic matter. pCO(2) values above the atmospheric level were observed in surface water that extended almost 4 kin beyond the boundary of the bay indicating that processes inside the bay such as calcification affect the inorganic carbon properties of the surrounding near shore open ocean. Precipitation from storm events in the Kaneohe watershed increases stream and land runoff that brings excess nutrients to bay waters. These excess nutrients stimulate phytoplankton blooms which draw down CO2 in Kaneohe Bay water through photosynthesis. Despite the significant effects of the storms, Kaneohe Bay was a net annual source of CO2 to the atmosphere of -0.046 Gmol C year(-1) (-0.55 kton C year(-1)) with an area-specific flux of -1.45 mol C m(-2) year(-1) (-17.4 g C m(-2) year(-1)). The source of CO2 in Kaneohe Bay could be stronger on a long-term basis since dry years may be stronger net annual sources than wet years such as this study period. As shown by Kaneohe Bay data, the dynamic nature of estuarine systems makes closely spaced time-series data imperative for characterizing accurately the inorganic carbon system and the net annual air-sea exchange flux of CO2. 2007 Elsevier B.V.

• 出版日期2007-7