Quantitative Species-level Ecology of Reef Fish Larvae Via Metabarcoding

Overview

Journal Nat Ecol Evol

Publisher Springer Nature

Specialty Biology

Date 2017 Dec 20

PMID 29255297

Citations 13

Authors

Naama Kimmerling

Omer Zuqert

Gil Amitai

Tamara Gurevich

Rachel Armoza-Zvuloni

Irina Kolesnikov

Igal Berenshtein

Sarah Melamed

Shlomit Gilad

Sima Benjamin

Asaph Rivlin

Moti Ohavia

Claire B Paris

Roi Holzman

Moshe Kiflawi

Rotem Sorek

Affiliations

Soon will be listed here.

Abstract

The larval pool of coral reef fish has a crucial role in the dynamics of adult fish populations. However, large-scale species-level monitoring of species-rich larval pools has been technically impractical. Here, we use high-throughput metabarcoding to study larval ecology in the Gulf of Aqaba, a region that is inhabited by >500 reef fish species. We analysed 9,933 larvae from 383 samples that were stratified over sites, depth and time. Metagenomic DNA extracted from pooled larvae was matched to a mitochondrial cytochrome c oxidase subunit I barcode database compiled for 77% of known fish species within this region. This yielded species-level reconstruction of the larval community, allowing robust estimation of larval spatio-temporal distributions. We found significant correlations between species abundance in the larval pool and in local adult assemblages, suggesting a major role for larval supply in determining local adult densities. We documented larval flux of species whose adults were never documented in the region, suggesting environmental filtering as the reason for the absence of these species. Larvae of several deep-sea fishes were found in shallow waters, supporting their dispersal over shallow bathymetries, potentially allowing Lessepsian migration into the Mediterranean Sea. Our method is applicable to any larval community and could assist coral reef conservation and fishery management efforts.

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Unraveling the Drifting Larval Fish Community in a Large Spawning Ground in the Middle Pearl River Using DNA Barcoding.

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