Data from: Metabarcoding dietary analysis of coral dwelling predatory fish demonstrates the minor contribution of coral mutualists to their highly partitioned, generalist diet

Understanding the role of predators in food webs can be challenging in highly diverse predator/prey systems composed of small cryptic species. DNA based dietary analysis can supplement predator removal experiments and provide high resolution for prey identification. Here we use a metabarcoding appro...

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Bibliographic Details
Main Authors: Leray, Matthieu, Meyer, Christopher P., Mills, Suzanne C.
Format: Dataset
Language:English
Published: Dryad 2016
Subjects:
Camallanidae
Vanikoridae
Miraciidae
Coelosphaeridae
Temora discaudata
Eviota
Trematoda
Actaeinae
Autolytinae
Menaethius monoceros
Copepoda
Echinoidea
Caranx melampygus
Chromis vanderbilti
Liocarpilodes integerrimus
Trapezia areolata
Polychaeta
Trapezia rufopunctata
Cirratulidae
Palaemonella tenuipes
Lienardia mighelsi
Thalassoma hardwicke
Gammaropsis
Maxillopoda
Lysiosquillidae
Harpacticus
Cerithium
Enterogona
Gobiidae
Terebellidae
Pomachromis fuscidorsalis
Tanaidacea
Trapezia bidentata
Petrolisthes
Chlorurus sordidus
Syllidae
Maera
Pandalidae
Ampharetidae
Palaemonidae
Thor
Poecilostomatoida
Gigartinales
Apogon nigrofasciatus
Huenia
Hapalocarcinus
Pagurixus
Lithoglyptidae
Palaemonella rotumana
Mysida
Scarus globiceps
Galatheidae
Palmyria
Pilodius
Plumularia
Demospongiae
Agalmatidae
Clionaidae
Decapterus macarellus
Emiliania huxleyi
Phylladiorhynchus
Dolabrifera dolabrifera
Paranamixis fijiensis
Gelidiaceae
Ophiactis
Brachyura
Nemichthys
Anthuridea
Aphelenchoididae
Argonautidae
Clausocalanus arcuicornis
Nephtyidae
Dendropoma
Eviota disrupta
Amblycirrhitus bimacula
Amphilochus
Santiidae
Plectroglyphidodon dickii
Chromis margaritifer
Titanoderma prototypum
Enchelyurus ater
Manaethius monoceros
Xanthias lamarcki
Atergatopsis germaini
Caranx sexfasciatus
Calcinus morgani
Cerithiidae
Dascyllus flavicaudus
Bemlos waipio
Viriola incisa
Gymnothorax buroensis
Chlorodiella laevissima
Corallinaceae
Sagittidae
Candacia ethiopica
Harpacticoida
Phylladiorhynchus integrirostris
Azadinium poporum
Gastropoda
Phenacolepadidae
Homalopoma maculosa
Ctenochaetus striatus
Amphipoda
Clausocalanus minor
Scarus psittacus
Alpheidae
Sipuncula
Caridea
Chromis viridis
Esola
Isopoda
Jonesius triunguiculatus
Calanoida
Ceramiales
Cirripectes variolosus
Petalifera
Didemnidae
Perciformes
Plectroglyphidodon johnstonianus
Ptychoderidae
Chlorodiella crispipleopa
Corycaeus
Siphonostomatoida
Pseudocheilinus hexataenia
Sebastapistes tinkhami
Cuapetes ensifrons
Pocillopora
Stegastes nigricans
Gomphosus varius
Pascula muricata
Acartia negligens
Chaetodon trichrous
Zebrasoma scopas
Dascyllus aruanus
Stomatolina rubra
Vitricithna marmorata
Oithonidae
Perinia tumida
Hydrozoa
Cyclodius ungulatus
Halopteris constricta
Hippolytidae
Pilodius pugil
Arete indicus
Polynesoecetes kekeae
trophic interactions
Raoulserenea ornata
Fennera chacei
Oncaeidae
Trapeziidae
Bunodeopsis medusoides
Lachnopodus subacutus
Cestoda
Halichoeres hortulanus
Stylocheilus striatus
Erythrotrichiaceae
Monetaria annulus
Sargassaceae
Trapezia serenei
Ophiocoma pica
Decapoda
Harpiliopsis beaupresii
Drupa ricinus
3 days
Notopygos
Polynoidae
Galathea mauritiana
Margaretta
Verrucidae
Monetaria caputdraconis
Alpheus dolerus
Haminoea natalensis
Paguridae
Cheilopogon pitcairnensis
Munnidae
Pilodius flavus
Turbellaria
Chlorodiella barbata
Clausocalanus furcatus
Dendropoma gregaria
Malacostraca
Copepods
Online Access:https://dx.doi.org/10.5061/dryad.v0p71
http://datadryad.org/stash/dataset/doi:10.5061/dryad.v0p71
Description
Summary:Understanding the role of predators in food webs can be challenging in highly diverse predator/prey systems composed of small cryptic species. DNA based dietary analysis can supplement predator removal experiments and provide high resolution for prey identification. Here we use a metabarcoding approach to provide initial insights into the diet and functional role of coral-dwelling predatory fish feeding on small invertebrates. Fish were collected in Moorea (French Polynesia) where the BIOCODE project has generated DNA barcodes for numerous coral associated invertebrate species. Pyrosequencing data revealed a total of 292 Operational Taxonomic Units (OTU) in the gut contents of the arc-eye hawkfish (Paracirrhites arcatus), the flame hawkfish (Neocirrhites armatus) and the coral croucher (Caracanthus maculatus). One hundred forty-nine (51%) of them had species-level matches in reference libraries (>98% similarity) while 76 additional OTUs (26%) could be identified to higher taxonomic levels. Decapods that have a mutualistic relationship with Pocillopora and are typically dominant among coral branches, represent a minor contribution of the predators’ diets. Instead, predators mainly consumed transient species including pelagic taxa such as copepods, chaetognaths and siphonophores suggesting non random feeding behavior. We also identified prey species known to have direct negative interactions with stony corals, such as Hapalocarcinus sp, a gall crab considered a coral parasite, as well as species of vermetid snails known for their deleterious effects on coral growth. Pocillopora DNA accounted for 20.8% and 20.1% of total number of sequences in the guts of the flame hawkfish and coral croucher but it was not detected in the guts of the arc-eye hawkfish. Comparison of diets among the three fishes demonstrates remarkable partitioning with nearly 80% of prey items consumed by only one predator. Overall, the taxonomic resolution provided by the metabarcoding approach highlights a highly complex interaction web and demonstrates that levels of trophic partitioning among coral reef fishes have likely been underestimated. Therefore, we strongly encourage further empirical approaches to dietary studies prior to making assumptions of trophic equivalency in food web reconstruction. : 454 reads - fasta formatThis files contains all unique reads that passed the initial denoising step as specified in the manuscript.Poc_associates.shhh.fasta454 name fileit contains the name of all reads of the denoised data file that are identical to the representative reads shown in the fasta file. The first column contains the representative sequence's name. The second column contains the names of its representatives separated by commas.Poc_associates.shhh.names454 group fileIt contains the name of the sample each 454 read belongs to. FL: Neocirrhites armatus; AEH: Paracirrhites arcatus; CC: Caracanthus maculatus.Poc_associates.shhh.groups

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