A 1-D Simulation Analysis of the Development and Maintenance of the 2001 Red Tide of the Ichthyotoxic Dinoflagellate Karenia Brevis on the West Florida Shelf

Authors

Jason M. Lenes, University of South FloridaFollow
Brian P. Darrow, University of South Florida
John J. Walsh, University of South FloridaFollow
J. K. Jolliff, Stennis Space Center
F. R. Chen, University of South Florida
Robert H. Weisberg, University of South FloridaFollow
Lianyuan Zheng, University of South Florida

Document Type

Article

Publication Date

6-2012

Keywords

ecological modeling, harmful algae, karenia brevis, red tide, west florida shelf

Digital Object Identifier (DOI)

https://doi.org/10.1016/j.csr.2012.04.007

Abstract

A one-dimensional (1-D) ecological model, HABSIM, examined the initiation and maintenance of the 2001 red tide on the West Florida shelf (WFS). Phytoplankton competition among toxic dinoflagellates (Karenia brevis), nitrogen fixing cyanophytes (Trichodesmium erythraeum), large siliceous phytoplankton (diatoms), and small non-siliceous phytoplankton (microflagellates) explored the sequence of events required to support the observed red tide from August to December 2001. The ecological model contained 24 state variables within five submodels: circulation, atmospheric (iron deposition), bio-optics, pelagic (phytoplankton, nutrients, bacteria, zooplankton, and fish), and benthic (nutrient regeneration). The 2001 model results reaffirmed that diazotrophs are the basis for initiation of red tides of . K. brevis on the WFS. A combination of selective grazing pressure, iron fertilization, low molar nitrogen to phosphorus ratios, and eventual silica limitation of fast-growing diatoms set the stage for dominance of nitrogen fixers "New" nitrogen was made available for subsequent blooms of . K. brevis through the release of ammonium and urea during nitrogen fixation, as well as during cell lysis, by the . Trichodesmium population. Once . K. brevis biomass reached ichthyotoxic levels, rapid decay of subsequent fish kills supplied additional organic nutrients for utilization by these opportunistic toxic algae. Both nutrient vectors represented organic non-siliceous sources of nitrogen and phosphorus, further exacerbating silica limitation of the diatom population. The model reproduced this spring transition from a simple estuarine-driven, diatom-based food chain to a complex summer-fall system of . Trichodesmium and toxic dinoflagellates. While the model was able to replicate the initiation and maintenance of the 2001 red tide, bloom termination was not captured by this 1-D form on the WFS. Here, horizontal advection and perhaps cell lysis loss terms might play a significant role, to be addressed in future three-dimensional simulations.

Was this content written or created while at USF?

Yes

Citation / Publisher Attribution

Continental Shelf Research, v. 41, p. 92-110

Scholar Commons Citation

Lenes, Jason M.; Darrow, Brian P.; Walsh, John J.; Jolliff, J. K.; Chen, F. R.; Weisberg, Robert H.; and Zheng, Lianyuan, "A 1-D Simulation Analysis of the Development and Maintenance of the 2001 Red Tide of the Ichthyotoxic Dinoflagellate Karenia Brevis on the West Florida Shelf" (2012). Marine Science Faculty Publications. 308.
https://digitalcommons.usf.edu/msc_facpub/308