Hydrodynamics rather than type of coastline shapes self‐recruitment in anemonefishes

Many marine species have a pelagic larval phase that undergo dispersal among habitats. Studies on marine larval dispersal have revealed a large variation in the spatial scale of dispersal and self‐recruitment. However, few studies have investigated the influence of types of coastline (e.g., bay vs....

Full description

Saved in:
Bibliographic Details
Published in:Limnology and oceanography 2023-07
Main Authors: Sato, Masaaki, Honda, Kentaro, Nakamura, Yohei, Bernardo, Lawrence Patrick C., Bolisay, Klenthon O., Yamamoto, Takahiro, Herrera, Eugene C., Nakajima, Yuichi, Lian, Chunlan, Uy, Wilfredo H., Fortes, Miguel D., Nadaoka, Kazuo, Nakaoka, Masahiro
Format: Article
Language:English
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Many marine species have a pelagic larval phase that undergo dispersal among habitats. Studies on marine larval dispersal have revealed a large variation in the spatial scale of dispersal and self‐recruitment. However, few studies have investigated the influence of types of coastline (e.g., bay vs. open coast) on marine larval dispersal. Bays or lagoons generally enhance the retention of larvae, while larvae are more likely to be flushed by strong currents in open coasts. To examine associations between larval dispersal, coastline type, and hydrodynamics, we compared fin‐scale dispersal patterns, self‐recruitment, and local retention (LR) of two anemonefishes ( Amphiprion frenatus and Amphiprion perideraion ) between a semi‐enclosed bay and an open coast in the Philippines combining genetic parentage analysis and biophysical dispersal modeling. Contrary to our expectations, parentage analysis revealed lower estimates of self‐recruitment in the semi‐closed bay (0%) than in the open coast (14–15%). The result was consistent with dispersal simulations predicting lower LR and self‐recruitment in the semi‐closed bay (0.4% and 19%) compared to the open coast (2.9% and 38%). Dispersal modeling also showed that cross‐shore currents toward offshore were much stronger around the semi‐closed bay and were negatively correlated with LR and self‐recruitment. These results suggest that stronger cross‐shore currents around the semi‐closed bay transport anemonefish larvae to the offshore and mainly contributed to the lower self‐recruitment. Our results highlight importance of hydrodynamics on larval dispersal and difficulty in predicting self‐recruitment from coastline type alone.
ISSN:0024-3590
1939-5590
DOI:10.1002/lno.12399