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Modeling the role of macroalgae in a shallow sub-estuary of Narragansett Bay, RI (USA)

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  • Brush, Mark J.
  • Nixon, Scott W.

Abstract

Proliferation of macroalgal mats is a frequent consequence of nutrient-driven eutrophication in shallow, photic coastal marine ecosystems. These macroalgae have the potential to significantly modify water quality, plankton productivity, nutrient cycling, and dissolved oxygen dynamics. We developed a model for Ulva lactuca and Gracilaria tikvahiae in Greenwich Bay, RI (USA), a shallow sub-estuary of Narragansett Bay, as part of a larger estuarine ecosystem model. The model predicts the biomass of both species in units of carbon, nitrogen, and phosphorus as a function of primary production, respiration, grazing, decay, and physical exchange, with particular attention to the effects of biomass layering on light attenuation and suppression of metabolic rates. The model successfully reproduced the magnitude and seasonal cycle of area-weighted and peak biomass in Greenwich Bay along with tissue C:N ratios, and highlighted the importance of grazing and inclusion of self-limitation primarily in the form of self-shading to overcome an order of magnitude difference in rates of production and respiration. Inclusion of luxury nutrient uptake demonstrated the importance of internal nutrient storage in fueling production when nutrients are limiting. Macroalgae were predicted to contribute a small fraction of total system primary production and their removal had little effect on predicted water quality. Despite a lack of data for calibration and a fair amount of sensitivity to individual parameter values, which highlights the need for further autecological studies to constrain formulations, the model successfully predicted macroalgal biomass dynamics and their role in ecosystem functioning. Our formulations should be exportable to other temperate systems where macroalgae occur in abundance.

Suggested Citation

  • Brush, Mark J. & Nixon, Scott W., 2010. "Modeling the role of macroalgae in a shallow sub-estuary of Narragansett Bay, RI (USA)," Ecological Modelling, Elsevier, vol. 221(7), pages 1065-1079.
  • Handle: RePEc:eee:ecomod:v:221:y:2010:i:7:p:1065-1079
    DOI: 10.1016/j.ecolmodel.2009.11.002
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    References listed on IDEAS

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    1. Aveytua-Alcázar, Leslie & Camacho-Ibar, Victor F. & Souza, Alejandro J. & Allen, J.I. & Torres, Ricardo, 2008. "Modelling Zostera marina and Ulva spp. in a coastal lagoon," Ecological Modelling, Elsevier, vol. 218(3), pages 354-366.
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    Cited by:

    1. Canal-Vergés, Paula & Potthoff, Michael & Hansen, Flemming Thorbjørn & Holmboe, Nikolaj & Rasmussen, Erik Kock & Flindt, Mogens R., 2014. "Eelgrass re-establishment in shallow estuaries is affected by drifting macroalgae – Evaluated by agent-based modeling," Ecological Modelling, Elsevier, vol. 272(C), pages 116-128.
    2. Port, Alexander & Bryan, Karin R. & Pilditch, Conrad A. & Hamilton, David P. & Bischof, Kai, 2015. "Algebraic equilibrium solution of tissue nitrogen quota in algae and the discrepancy between calibrated parameters and physiological properties," Ecological Modelling, Elsevier, vol. 312(C), pages 281-291.
    3. Li, Yang & Yuan, Lin & Cao, Hao-Bing & Tang, Chen-Dong & Wang, Xian-Ye & Tian, Bo & Dou, Shen-Tang & Zhang, Li-Quan & Shen, Jian, 2021. "A dynamic biomass model of emergent aquatic vegetation under different water levels and salinity," Ecological Modelling, Elsevier, vol. 440(C).

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