Data from: Digging for DNA at depth: rapid universal metabarcoding surveys (RUMS) as a tool to detect coral reef biodiversity across a depth gradient

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关键词：

Environmental DNA;Demospongiae;Anthozoa;Environmental DNA;Next-generation sequencing;18S ribosomal DNA;Invertebrate;Demospongiae;Holocene;Marine

DOI：

doi:10.5061/dryad.37qv5rd

摘要：

ranging from 10 to 40 m (p = 0.001). Significant depth zonation was observed across operational taxonomic units assigned to the class Demospongiae (spon

Data from: A NGS approach to the encrusting Mediterranean sponge Crella elegans (Porifera, Demospongiae, Poecilosclerida): transcriptome sequencing

负责人：

Pérez-Porro, Alicia R.

关键词：

Crella elegans de novo assembly transcriptome characterization Mediterranean sponge life cycle stages

DOI：

doi:10.5061/dryad.50dc6

摘要：

Sponges can be dominant organisms in many marine and freshwater habitats where they play essential ecological roles. They also represent a key gr

Data from: Phylogeny of Tetillidae (Porifera, Demospongiae, Spirophorida) based on three molecular markers

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关键词：

Tetilla;morphology;Cinachyrella;Fangophilina;Spirophorida;Acanthotetilla;cox1;taxonomy;Extant;Paratetilla;Amphitethya;Porifera;Cinachyra;18S rRNA;28S rRNA;phylogenetics;Tetillidae;Craniella

DOI：

doi:10.5061/dryad.10gh5

摘要：

Tetillidae are spherical to elliptical cosmopolitan demosponges. The family comprises eight genera: namely, Acanthotetilla Burton, 1959, Amphitethya

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

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关键词：

Camallanidae;Vanikoridae;Miraciidae;Coelosphaeridae;Temora discaudata;Eviota;Trematoda;Actaeinae;food web;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;COI;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;coral reefs;Atergatopsis germaini;Caranx sexfasciatus;Calcinus morgani;Cerithiidae;Dascyllus flavicaudus;Bemlos waipio;Viriola incisa;mutualism;Metabarcoding;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

DOI：

doi:10.5061/dryad.v0p71

摘要：

Understanding the role of predators in food webs can be challenging in highly diverse predator/prey systems composed of small cryptic sp

Data from: Reassessment of Homology of Morphological Characters in Tetractinellid Sponges Based on Molecular Data

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关键词：

Demospongiae;skeleton;Astrophorida;homology;ribosomal DNA;spicule;Tetractinellida;phylogeny;molecular systematics

DOI：

doi:10.5061/dryad.106

摘要：

mitochondrial DNA. We found that taxonomic congruence following conditional data combination, herein called compatible evidence (CE), resolved more nodes

Data from: Taxonomy, biogeography and DNA barcodes of Geodia species (Porifera, Demospongiae, Tetractinellida) in the Atlantic boreo-arctic region

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关键词：

amphi-Atlantic;Geodia;Geodia macandrewii;Geodia phlegraei;Biogeography;sponge grounds;Deep-sea;Geodia parva;Geodia barretti;Geodia atlantica;Geodiidae;present;Geodia hentscheli

DOI：

doi:10.5061/dryad.td8sb

摘要：

, G.?barretti, G.?phlegraei, G.?macandrewii). No morphological differences were found between specimens from the northeast and northwest Atlantic, except