Gm. Berg et al., ORGANIC NITROGEN UPTAKE AND GROWTH BY THE CHRYSOPHYTE AUREOCOCCUS ANOPHAGEFFERENS DURING A BROWN TIDE EVENT, Marine Biology, 129(2), 1997, pp. 377-387
The quantitative importance of light-mediated, dissolved organic nitro
gen (DON) utilization in relation to overall nitrogen-assimilation in
Aureococcus anophagefferens Hargraves et Sieburth was assessed during
a brown tide event in Shinnecock Bay, Long Island, 24 through 26 July
1995. The growth response of A. anophagefferens was maximal in organic
-rich Bay water and decreased proportional to the organic:inorganic nu
trient ratio of the water. Short-term uptake measurements with six nit
rogenous substrates revealed that reduced nitrogen could potentially r
epresent 95% of overall nitrogen uptake of which 70% was due to organi
c nitrogen alone. Potential uptake of urea by the A. anophagefferens-d
ominated bloom was substantially greater than uptake of the other subs
trates tested during the study, contributing the largest percentage of
total nitrogen uptake (58 to 64%; rho'(max(urea)) 4.4 mu g atom N l(-
1) h(-1)), followed by NH4+ (18 to 26%; rho'(max(NH4+))) 2 mu g atom N
l(-1) h(-1)). The combined rates of uptake of algal extract, lysine a
nd glutamic acid contributed between 11 and 16% of total uptake, where
as NO3- contributed 5 to 8%. Based on the kinetic determinations from
this study we suggest an ecological framework for the events leading t
o the dominance and abundance of A. anophagefferens in coastal bays.