SEA-SURFACE PARTIAL-PRESSURE OF CARBON-DIOXIDE IN THE EASTERN EQUATORIAL PACIFIC (AUGUST 1991 TO OCTOBER 1992) - A MULTIVARIATE-ANALYSIS OF PHYSICAL AND BIOLOGICAL FACTORS

Underway PCO2 measurements were made every three months from a merchant ship in the equatorial Pacific Ocean. The shipping track from Panama to Tahiti crosses the equator near 100 degrees W, collecting PCO2, sea surface temperature (SST), fluorescence of chlorophyll, nitrate concentration and depth of the mixed layer. The survey started in August 1991, with strong upwelling conditions and PCO2 peaking at 484 mu atm right at the equator. Equatorial warming in November 1991 and decreased upwelling occurred with maximum PCO2 at 460 mu atm, at 2 degrees 30'S. With the advent of the 1992 El Nino, and the collapse of equatorial upwelling, PCO2 was drastically reduced in March 1992. The maximum of PCO2 was only 397 mu atm at 0 degrees 40'S, and values greater than 380 mu atm spread southward to 6 degrees S. Nitrate concentration, however, was still high between the equator and 10 degrees S. With return to normal conditions in June 1992, PCO2 rose to 437 mu atm at 2 degrees 30'S, and in October 1992 strong upwelling brought CO2-rich water to the surface, with maximum PCO2 at 0 degrees 12'N, at 480 mu atm. Multivariate analysis of the data between 7 degrees N and 20 degrees S, after normalization, shows that 60% of the total variance could be explained by the first eigenvector, in which PCO2, nitrate and fluorescence were opposed to SST. The empirical orthogonal function (EOF) associated to this eigenvector was maximum at or near the equator and decreased abruptly to the north but gradually to the south. This EOF and the corresponding eigenvector could be interpreted as a synthetic representation of the influence of upwelling and of the main processes that modify PCO2: biological carbon uptake and heating. The variations of the depth of the mixed layer (taken as the depth where temperature was 1 degrees C below SST) were uncorrelated with PCO2. A strong correlation (r = 0.97, n = 5) was found between the temperature of upwelled waters (i.e, the minimum SST observed near the equator) and the average PCO2 between 0 degrees and 5 degrees S.