Ecological nitrogen-to-phosphorus stoichiometry at station ALOHA

The elemental stoichiometry of dissolved and particulate matter in the sea, especially the nitrogen-to-phosphorus ratio, is an important parameter for studies of the nutrient control of plankton growth and for modeling biogeochemical processes, including carbon sequestration. Nitrogen (N) and phosphorus (P) pools have been measured on approximately monthly intervals for a 9-yr period at a deep-ocean station in the North Paci"c subtropical gyre (Sta. ALOHA; 22345N, 1583W). These data sets reveal complex interactions between N and P pools, and several unexpected secular trends. Models based on steady-state assumptions will not capture these temporal variations, especially the apparently rapid response of the microbial assemblages to stochastic nutrient intrusion events and the time-varying (seasonal, interannual and decadal scale) changes in dissolved matter N: P ratios. Based on an analysis of these data, we hypothesize that the gyre is presently in a period of net "xed N sequestration and P control of plankton rate processes. 2001 Elsevier Science Ltd. All rights reserved. 1