2010
DOI: 10.1029/2010jc006115
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Oyster larval transport in coastal Alabama: Dominance of physical transport over biological behavior in a shallow estuary

Abstract: [1] Among the various factors affecting recruitment of marine invertebrates and fish, larval transport may produce spatial and temporal patterns of abundance that are important determinants of management strategies. Here we conducted a field and modeling study to investigate the larval transport of eastern oyster, Crassostrea virginica, in Mobile Bay and eastern Mississippi Sound, Alabama. A three-dimensional larval transport model accounting for physical transport, biological movement of larvae, and site-and … Show more

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Cited by 46 publications
(72 citation statements)
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“…Simple models show that this behavior can raise the probability of larval settlement in energetic nearshore habitats (Fuchs et al, 2007;Fuchs and Reidenbach, 2013). Depth-seeking behaviors generally tend to limit transport by fast-moving surface currents and to enhance local retention (North et al, 2008;Shanks, 2009;Kim et al, 2010). Turbulence-induced sinking also contributed to onshore larval migration within the surf zone in a recent model that accounted for non-linear transport by surface gravity waves, known as Stokes drift (Fujimura et al, 2014).…”
Section: Introductionmentioning
confidence: 99%
“…Simple models show that this behavior can raise the probability of larval settlement in energetic nearshore habitats (Fuchs et al, 2007;Fuchs and Reidenbach, 2013). Depth-seeking behaviors generally tend to limit transport by fast-moving surface currents and to enhance local retention (North et al, 2008;Shanks, 2009;Kim et al, 2010). Turbulence-induced sinking also contributed to onshore larval migration within the surf zone in a recent model that accounted for non-linear transport by surface gravity waves, known as Stokes drift (Fujimura et al, 2014).…”
Section: Introductionmentioning
confidence: 99%
“…Self-governed vertical position in the water column affects simulated largescale dispersal patterns (e.g. Dekshenieks et al 1996, North et al 2008) except when vertical mixing is strong (Kim et al 2010). Vertical position can be especially important for larvae accumulating in vertically sheared flows or fronts, as such flows may facilitate larval transport to nearshore settlement environments (e.g.…”
Section: Introductionmentioning
confidence: 99%
“…A behavioral response of considerable importance is vertical swimming, which may allow larvae to regulate their water column position by overcoming vertical flow and/or their buoyancy differential from seawater. Self-governed vertical position in the water column affects large-scale dispersal patterns in simulations (e.g., [14, 15]) in coastal conditions where vertical flow velocities are not stronger than larval swimming capabilities [16]. During the planktonic phase, vertical position is relevant as its regulation can permit larvae to accumulate in, or escape from, vertically sheared flows or fronts.…”
Section: Contentsmentioning
confidence: 99%
“…Self-governed vertical position in the water column affects simulated large-scale dispersal patterns (e.g. [14,15]) except when vertical mixing is strong [16]. Vertical position can be especially important for larvae accumulating in vertically sheared flows or fronts, as such flows may facilitate larval transport to nearshore settlement environments (e.g.…”
Section: Introductionmentioning
confidence: 99%