2018
DOI: 10.3389/fmars.2018.00097
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Larval Fish Swimming Behavior Alters Dispersal Patterns From Marine Protected Areas in the North-Western Mediterranean Sea

Abstract: Most demersal fishes undergo a dispersal phase as larvae, which strongly influences the connectivity among adult populations and, consequently, their genetic structure and replenishment opportunities. Because this phase is difficult to observe directly, it is frequently simulated through numerical models, most of which consider larvae as passive or only vertically migrating. However, in several locations, including the Mediterranean Sea, many species have been shown to swim fast and orient. Here we use a Lagra… Show more

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Cited by 59 publications
(58 citation statements)
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“…The size range of larvae tested is also shown. Biophysical models addressing the influence of larval behavior on dispersal (i.e., the ability to follow cues thanks to their horizontal and vertical movements) provide additional evidence on the extraordinary capacities of temperate fish larvae to control their dispersion in coastal areas [2,10,11,30]. Such models suggest that temperate fish larvae are active swimmers only requiring to make use of modest swimming speeds (1-10 cm s −1 ) to control their transport and distribution in coastal areas and to avoid offshore advection [2,30].…”
Section: Swimming Performance Of Temperate Fish Larvaementioning
confidence: 99%
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“…The size range of larvae tested is also shown. Biophysical models addressing the influence of larval behavior on dispersal (i.e., the ability to follow cues thanks to their horizontal and vertical movements) provide additional evidence on the extraordinary capacities of temperate fish larvae to control their dispersion in coastal areas [2,10,11,30]. Such models suggest that temperate fish larvae are active swimmers only requiring to make use of modest swimming speeds (1-10 cm s −1 ) to control their transport and distribution in coastal areas and to avoid offshore advection [2,30].…”
Section: Swimming Performance Of Temperate Fish Larvaementioning
confidence: 99%
“…However, when post-flexion larvae are in the range of nursery cues, they orientate their swimming to follow odor, sound, and visual cues (see Figure 2 in [2]). Thus, the development of swimming capabilities and behaviors that interact with physical transport processes influences larval dispersion outcomes [6,[8][9][10][11], settlement location [12], and recruitment success [13].…”
Section: Introductionmentioning
confidence: 99%
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“…2A). The first PC distinguished two genetic clusters ( with planktonic larvae [70][71][72]. Since no study has adopted a similar genomic approach in studying the genetic structure of a marine invertebrate organism in the Brazilian coastline, we could not compare the results of the present study with the findings of other studies on other high dispersal species along the same area.…”
Section: Population Divergence and Gene Flowmentioning
confidence: 65%
“…These observations suggest that larvae may actively avoid fast and turbulent water currents. Active swimming behaviour can alter dispersal patterns for other larval fishes (Faillettaz, Paris, & Irisson, 2018; Johnston, Gaboury, Janusz, & Janusz, 1995). The ability of drifting lake sturgeon larvae to avoid (or be attracted to) flow conditions may be advantageous for predator avoidance and provide opportunities to detect physical conditions associated with higher survival (larger substrates or vegetation).…”
Section: Discussionmentioning
confidence: 99%