Primary production and phytoplankton community structure during a winter shelf-scale phytoplankton bloom off Western Australia

Regions of high primary production along the oligotrophic west coast of Australia between 34 and 22A degrees S in May-June 2007 (midway through the annual phytoplankton bloom) were found around mesoscale features of the Leeuwin Current. At 31A degrees S, an anticyclonic eddy-forming meander of the Leeuwin Current had a mixed layer depth of > 160 m, a depth-integrated chlorophyll a (Chl a)-normalised primary production of 24 mg C mg Chl a (-1) day(-1) compared to the surrounding values of < 18 mg C mg Chl a (-1) day(-1). In the north between 27 and 24A degrees S, there were several stations in > 1,000 m of water with a shallow (< 100 m) and relatively thin layer of high nitrate below the mixed layer but within the euphotic zone. These stations had high primary production at depths of 100 m (up to 7.5 mg C m(-3) day(-1)) with very high rates of production per unit Chl a (up to 150 mg C mg Chl a (-1) day(-1)). At 27-24A degrees S, the majority of the phytoplankton community was the ubiquitous tropical picoplankters, Synechococcus and Prochlorococcus. There was a decline in the dominance of the picoplankters and a shift towards a more diverse community with more diatoms, chlorophytes, prasinophytes and cryptophytes at stations with elevated production. Photosynthetic dinoflagellates were negligible, but heterotrophic dinoflagellate taxa were common. Haptophytes and pelagophytes were also common, but seemed to contribute little to the geographical variation in primary production. The mesoscale features in the Leeuwin Current may have enhanced horizontal exchange and vertical mixing, which introduced nitrate into the euphotic zone, increasing primary production and causing a shift in phytoplankton community composition in association with the annual winter bloom.