FN Archimer Export Format PT J TI Larval Fish Swimming Behavior Alters Dispersal Patterns From Marine Protected Areas in the North-Western Mediterranean Sea BT AF FAILLETTAZ, Robin PARIS, Claire B. IRISSON, Jean-Olivier AS 1:1;2:2;3:1; FF 1:;2:;3:; C1 UPMC Univ Paris 06, Sorbonne Univ, LOV, CNRS, Villefranche Sur Mer, France. Univ Miami, Rosenstiel Sch Marine & Atmospher Sci, Ocean Sci, 4600 Rickenbacker Causeway, Miami, FL 33149 USA. C2 UNIV PARIS 06, FRANCE UNIV MIAMI, USA IN DOAJ IF 5.247 TC 44 UR https://archimer.ifremer.fr/doc/00634/74618/74548.pdf LA English DT Article DE ;fish larvae;behavior;swimming;connectivity;dispersal;mediterranean sea;marine protected areas;modeling AB 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 Lagrangian model to study connectivity patterns among three Mediterranean Marine Protected Areas (MPAs) and compare simulations in which virtual larvae are passive to simulations in which oriented swimming is implemented. The parameterization of behavior is based on observations for two groups of species of the family Sparidae: species with small larvae (i.e., 9-11 mm), displaying a maximum swimming speed of 6cm s(-1) and a pelagic larval duration of 13-19 days (e.g., Diplodus annularis L., Oblade melanura L.) and species with large larvae (i.e., 14-16 mm), displaying a maximum swimming speed of 10 cm s(-1) and a PLD of 28-38 days (e.g., Spondyliosoma cantharus L.). Including larval behavior in the model (i) increased the overall proportion of successful settlers, (ii) enhanced self-recruitment within the MPAs, but also (iii) increased the intensity, and (iv) widened the export of eggs and larvae (recruitment subsidy) from the MPAs; overall, it significantly changed connectivity patterns. These results highlight the need to gather the observational data that are required to correctly parameterize connectivity models. PY 2018 PD MAR SO Frontiers In Marine Science SN 2296-7745 PU Frontiers Media Sa VL 5 UT 000456939700001 DI 10.3389/fmars.2018.00097 ID 74618 ER EF