Dissolved organic carbon in the Gulf of St. Lawrence was measured throughou
t the water column by high-temperature catalytic oxidation during and after
the 1994 spring phytoplankton bloom. DOC ranged from 28 to 111 mu M. Excep
t for the waters near the Magdalen Islands, the DOC in the euphotic zone wa
s higher after the bloom (84.2-99.1 mu M) than during the bloom (81-83 mu M
). Lowest euphotic zone DOC occurred near the Magdalen Islands (49 mu M) wh
ere it was nearly as low as the deep-water DOC (35-50 mu M) in the Anticost
i Channel and Cabot Strait. In the deep water below 150 m the DOC levels in
the inner regions of the Gulf were higher during the bloom than after it.
These results along with the results of phytoplankton, bacteria, and ocean
chemistry analyses were subjected to multiple regression, Spearman Rank, an
d principal component analyses to elucidate the role of DOC in transferring
carbon between planktonic components of the Gulf of St. Lawrence pelagic e
cosystem. The analyses showed a relationship between DOC and phytoplankton
primary production in the euphotic zone during the bloom and a relationship
between DOC and bacterial production in the euphotic zone after the bloom.
A diel study showing DOC production in the morning and DOC degradation in
the evening implicated phytoplankton in generating DOC during the day. (C)
1999 Elsevier Science Ltd. All rights reserved.