Model Simulations of the Bay of Fundy Gyre: 2. Hindcasts for 2005-2007 Reveal Interannual Variability in Retentiveness

Overview

Journal J Geophys Res

Date 2017 Apr 4

PMID 28366966

Citations 12

Authors

Alfredo L Aretxabaleta

Dennis J McGillicuddy Jr

Keston W Smith

James P Manning

Daniel R Lynch

Affiliations

Soon will be listed here.

Abstract

A persistent gyre at the mouth of the Bay of Fundy results from a combination of tidal rectification and buoyancy forcing (Aretxabaleta et al., J. Geophys. Res., vol. 113, 2008). Here we assess interannual variability in the strength of the gyre using data assimilative model simulations. Realistic hindcast representations of the Gyre are considered over the course of cruise surveys in 2005, 2006 and 2007. Assimilation of shipboard and moored ADCP velocities are used to improve the skill of the simulations, as quantified by comparison with non-assimilated drifter trajectories. Our hindcast suggest a weakening of the Gyre system during May 2005. Retention of simulated passive particles in the Gyre during that period was highly reduced. A recovery of the dense water pool in the deep part of the basin by June 2006 resulted in a return to particle retention characteristics similar to climatology. Retention estimates reached a maximum during May 2007 (sub-surface) and June-July 2007 (near-surface). Interannual variability in the strength of the gyre was primarily modulated by the stratification of the dense water pool inside the Grand Manan Basin. These changes in stratification may be attributed to mixing conditions the preceding fall/winter and/or advectively-driven modification of water mass properties.

Citing Articles

Spatiotemporal genetic structure of regional-scale Alexandrium catenella dinoflagellate blooms explained by extensive dispersal and environmental selection.

Gao Y, Sassenhagen I, Richlen M, Anderson D, Martin J, Erdner D Harmful Algae. 2019; 86:46-54.

PMID: 31358276 PMC: 6668924. DOI: 10.1016/j.hal.2019.03.013.

Drifter Observations of the Gulf of Maine Coastal Current.

Manning J, McGillicuddy D, Pettigrew N, Churchill J, Incze L Cont Shelf Res. 2017; 29(7):835-845.

PMID: 28966432 PMC: 5617362. DOI: 10.1016/j.csr.2008.12.008.

Model Initialization in a Tidally Energetic Regime: a Dynamically Adjusted Objective Analysis.

Aretxabaleta A, Smith K, McGillicuddy Jr D, Ballabrera-Poy J Ocean Model (Oxf). 2017; 36(3-4):219-227.

PMID: 28367104 PMC: 5375121. DOI: 10.1016/j.ocemod.2011.01.001.

Variational Data Assimilative Modeling of the Gulf of Maine Circulation in Spring and Summer 2010.

Li Y, He R, Chen K, McGillicuddy Jr D J Geophys Res Oceans. 2016; 120(5):3522-3541.

PMID: 27239401 PMC: 4883702. DOI: 10.1002/2014JC010492.

Seasonal and Interannual Variability in Gulf of Maine Hydrodynamics: 2002-2011.

Li Y, He R, McGillicuddy Jr D Deep Sea Res 2 Top Stud Oceanogr. 2015; 103:210-222.

PMID: 26045636 PMC: 4451839. DOI: 10.1016/j.dsr2.2013.03.001.

References

Aretxabaleta A, McGilliguddy D, Smith K, Lynch D . Model Simulations of the Bay of Fundy Gyre: 1. Climatological Results. J Geophys Res. 2017; 113(C10). PMC: 5374714. DOI: 10.1029/2007JC004480. View

He R, McGillicuddy D, Keafer B, Anderson D . Gulf of Maine Harmful Algal Bloom in summer 2005 - Part 2: Coupled Bio-physical Numerical Modeling. J Geophys Res. 2017; 113(C7). PMC: 5374722. DOI: 10.1029/2007JC004602. View