Retention and export of planktonic fish eggs in the northeastern Gulf of Mexico

Abstract: To help determine whether planktonic eggs of fishes on the West Florida Shelf (WFS) are retained locally or exported elsewhere, we collected fish eggs by plankton net from 17 locations (stations) and identified them using DNA barcoding. We then entered the station coordinates into the West Florida Coastal Ocean Model (WFCOM) and simulated the trajectories of the passively drifting eggs over 2 weeks at three depths (surface, midwater, and near bottom). The results indicated there were two groups of trajectories… Show more

“…The nonlinear differential equation $$\sfrac{\mathrm{d}\overrightarrow{\mathrm{x}}}{\text{dt}}=\overrightarrow{\mathrm{v}}\,\left(\overrightarrow{\mathrm{x}}(\mathrm{t}),\mathrm{t}\right)$$, where $$\overrightarrow{\mathrm{x}}$$ and $$\overrightarrow{\mathrm{v}}\,\left(\overrightarrow{\mathrm{x}},\mathrm{t}\right)$$ are the particle position and its vector velocity at time t , is solved using an explicit fourth order Runge–Kutta multi‐step method (Chen et al., 2013). The FVCOM‐based particle‐tracking model has been successfully applied in fisheries and coastal environmental sciences (Liu et al., 2023; Nguyen et al., 2024; Premathilake & Khangaonkar, 2019; Rowe et al., 2022; Tian et al., 2009; Xia et al., 2011).…”

“…, where x → and v → ( x → ,t) are the particle position and its vector velocity at time t, is solved using an explicit fourth order Runge-Kutta multi-step method (Chen et al, 2013). The FVCOM-based particletracking model has been successfully applied in fisheries and coastal environmental sciences (Liu et al, 2023;Nguyen et al, 2024;Premathilake & Khangaonkar, 2019;Rowe et al, 2022;Tian et al, 2009;Xia et al, 2011).…”

Modeling Blue Crab (Callinectes sapidus) Larval Transport and Recruitment Dynamics in a Shallow Lagoon‐Inlet‐Coastal Ocean System

“…The nonlinear differential equation $$\sfrac{\mathrm{d}\overrightarrow{\mathrm{x}}}{\text{dt}}=\overrightarrow{\mathrm{v}}\,\left(\overrightarrow{\mathrm{x}}(\mathrm{t}),\mathrm{t}\right)$$, where $$\overrightarrow{\mathrm{x}}$$ and $$\overrightarrow{\mathrm{v}}\,\left(\overrightarrow{\mathrm{x}},\mathrm{t}\right)$$ are the particle position and its vector velocity at time t , is solved using an explicit fourth order Runge–Kutta multi‐step method (Chen et al., 2013). The FVCOM‐based particle‐tracking model has been successfully applied in fisheries and coastal environmental sciences (Liu et al., 2023; Nguyen et al., 2024; Premathilake & Khangaonkar, 2019; Rowe et al., 2022; Tian et al., 2009; Xia et al., 2011).…”

“…, where x → and v → ( x → ,t) are the particle position and its vector velocity at time t, is solved using an explicit fourth order Runge-Kutta multi-step method (Chen et al, 2013). The FVCOM-based particletracking model has been successfully applied in fisheries and coastal environmental sciences (Liu et al, 2023;Nguyen et al, 2024;Premathilake & Khangaonkar, 2019;Rowe et al, 2022;Tian et al, 2009;Xia et al, 2011).…”

Modeling Blue Crab (Callinectes sapidus) Larval Transport and Recruitment Dynamics in a Shallow Lagoon‐Inlet‐Coastal Ocean System