VARIATIONS IN THE ISOTOPIC COMPOSITION OF PARTICULATE ORGANIC-CARBON IN SURFACE WATERS ALONG AN 88-DEGREES-W TRANSECT FROM 67-DEGREES-S TO 54-DEGREES-S

The concentration and isotopic composition of carbon was measured in suspended particulate organic matter in surface waters of the Southern Pacific Ocean along an 88 degrees W transect from 67-54 degrees S during the Austral summer. Concurrent measurements of total dissolved inorganic carbon (Sigma CO2), pCO(2), particulate organic carbon (POC), salinity, chlorophyll and temperature provide an opportunity to study the covariance of these parameters with changes in the isotopic composition of particulate organic carbon (delta(13)C-POC). The south-north transect did not show any significant changes in POC (10-19 mmol m(-3)) or chlorophyll (0.5-1 mg m(-3)), while delta(13)C-POC variations of approximately 4 parts per thousand were recorded. Although surface water CO2(aq) is substantially out of equilibrium with the local atmosphere, the isotopic changes are negatively correlated with the concentration of dissolved carbon dioxide along the transect, and follow the general trends predicted from previously determined relationships. Estimates of epsilon(p)(epsilon(p)(#)) are less well constrained and show a weaker correlation with [CO2(aq)]. Where epsilon(p)(#) varies independently of [CO2(aq)] small changes in the concentration gradient between extra- and intra-cellular CO2 can be predicted. The difficulty in obtaining independent measures of growth rate and matching these measurements to the timescales over which the delta(13)C of the phytoplankton is integrated is examined.