Along-shore larval dispersal kernels in a numerical ocean model of the central Chilean coast

Aiken, Christopher M.; Navarrete, Sergio A.; Castillo, Manuel; Castilla, Juan Carlos

doi:10.3354/meps339013

Cited by 68 publications

(76 citation statements)

References 25 publications

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“…Aiken et al (2007), mostraron que ejes de dispersión genéricos son variables y asimétricos a lo largo de la costa (33º-34°S), y que la dependencia temporal de los mismos es importante. Sus resultados apoyan el uso de modelos numéricos hidrodinámicos y biológicos acoplados más que estadísticas de flujo anual y modelos simples de difusión-advección para abordar el tema de conectividad.…”

Section: Modelación Biofísica Y Conectividad De Metapoblaciones Costerasunclassified

Variabilidad ambiental y recursos pesqueros en el Pacifico suroriental: estado de la investigacion y desafios para el manejo pesquero

Parada¹,

Yannicelli²,

Hormazábal³

et al. 2013

lajar

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Section: Modelación Biofísica Y Conectividad De Metapoblaciones Costerasunclassified

Variabilidad ambiental y recursos pesqueros en el Pacifico suroriental: estado de la investigacion y desafios para el manejo pesquero

Parada¹,

Yannicelli²,

Hormazábal³

et al. 2013

lajar

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“…In our simple approach, we consider that dispersing larvae are passively transported by currents, i.e., that they are unable to swim, orient themselves or perform vertical migrations, apart from the capability to settle at the bottom of the water body in the location where they reach maturity (e.g., Bode et al, 2006). Although the assumption of passive transport is quite common in the description of larval dispersal (e.g., James et al, 2002;Aiken et al, 2007), it should be noted that active movements can also play a remarkable role in determining the mean distance traveled by larvae (Steneck, 2006;Cowen et al, 2006;Paris et al, 2007;Werner et al, 2007;Cowen and Sponaugle, 2009). …”

Section: The Larval Transport Modelmentioning

confidence: 99%

“…We have verified the robustness of the results with respect to this hypothesis (see Section 5.3 below). The computation of Lagrangian steps is accomplished by integrating the equations of motion for the propagules between 0 and a final time t L , which represents the mean duration of the larval stage (assumed here to be constant; see, e.g., Bode et al, 2006;Aiken et al, 2007). Technically, numerical integration has been carried out by means of a standard explicit Euler method.…”

Section: The Larval Transport Modelmentioning

confidence: 99%

A coupled ecological–hydrodynamic model for the spatial distribution of sessile aquatic species in thermally forced basins

Mari

Biotto

Decoene

et al. 2009

Ecological Modelling

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“…We used these data to estimate a onedimensional dispersal kernel, a simple representation of larval settlement along a linear coastline. The kernel is a probability density function that describes the probability of dispersal from a natal site to any other location along the coast [33,[37][38][39]. The parameters of a dispersal kernel (mean and standard deviation of dispersal distance) could be estimated directly from observing the movement and settlement of propagules in the coastal ocean, either real or simulated via Lagrangian circulation models (e.g.…”

Section: Introductionmentioning

confidence: 99%

Inverse approach to estimating larval dispersal reveals limited population connectivity along 700 km of wave-swept open coast

et al. 2016

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Demographic connectivity is fundamental to the persistence and resilience of metapopulations, but our understanding of the link between reproduction and recruitment is notoriously poor in open-coast marine populations. We provide the first evidence of high local retention and limited connectivity among populations spanning 700 km along an open coast in an upwelling system. Using extensive field measurements of fecundity, population size and settlement in concert with a Bayesian inverse modelling approach, we estimated that, on average, Petrolisthes cinctipes larvae disperse only 6.9 km (+25.0 km s.d.) from natal populations, despite spending approximately six weeks in an open-coast system that was once assumed to be broadly dispersive. This estimate differed substantially from our prior dispersal estimate (153.9 km) based on currents and larval duration and behaviour, revealing the importance of employing demographic data in larval dispersal estimates. Based on this estimate, we predict that demographic connectivity occurs predominantly among neighbouring populations less than 30 km apart. Comprehensive studies of larval production, settlement and connectivity are needed to advance an understanding of the ecology and evolution of life in the sea as well as to conserve ecosystems. Our novel approach provides a tractable framework for addressing these questions for species occurring in discrete coastal populations.

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Along-shore larval dispersal kernels in a numerical ocean model of the central Chilean coast

Cited by 68 publications

References 25 publications

Variabilidad ambiental y recursos pesqueros en el Pacifico suroriental: estado de la investigacion y desafios para el manejo pesquero

Variabilidad ambiental y recursos pesqueros en el Pacifico suroriental: estado de la investigacion y desafios para el manejo pesquero

A coupled ecological–hydrodynamic model for the spatial distribution of sessile aquatic species in thermally forced basins

Inverse approach to estimating larval dispersal reveals limited population connectivity along 700 km of wave-swept open coast

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