Polycentropodidae
Guides
Holocentropus interruptus
tube maker caddisfly
Holocentropus interruptus is a species of tube maker caddisfly described by Nathan Banks in 1914. As a member of the family Polycentropodidae, it constructs silk retreats and capture nets for feeding. The species is documented from North America, with specific records from Vermont.
Neureclipsis
tube maker caddisflies
Neureclipsis is a genus of net-spinning caddisflies in the family Polycentropodidae, containing at least eight described species distributed across the Northern Hemisphere and Australia. Larvae construct elaborate silken catchnets to capture drifting invertebrate prey in lotic freshwater habitats. The genus includes the well-studied species N. bimaculata, whose life history and feeding ecology have been investigated in North American and European populations.
Neureclipsis crepuscularis
tube maker caddisfly
Neureclipsis crepuscularis is a species of tube-making caddisfly in the family Polycentropodidae. It is a small aquatic insect whose larvae construct silk tubes for shelter. The species is documented in North America, with records from the northeastern United States including Vermont. As a member of Polycentropodidae, it belongs to a family of predatory or parasitic caddisflies.
Nyctiophylax
Nyctiophylax is a genus of caddisflies in the family Polycentropodidae, established by Brauer in 1865. Species in this genus are small, predatory caddisflies whose larvae construct silken retreats in freshwater habitats. The genus has been documented from Colombia, though its actual distribution likely extends more broadly across the Neotropics. Adults are generally small with reduced wing venation characteristic of the family.
Plectrocnemia
tube maker caddisflies
Plectrocnemia is a genus of tube maker caddisflies in the family Polycentropodidae comprising more than 120 described species. Larvae are aquatic predators that construct silken capture nets to intercept prey. The genus has been extensively studied for its larval silk production, vibration-mediated predatory behavior, and population genetics. Species occur across Europe and into western Asia, with detailed biological information available for several well-studied species including P. conspersa and P. brevis.
Trichopteracaddisflyaquatic-insectpredatorsilkbioindicatornet-spinnervibration-detectionpopulation-geneticsEuroperunning-waterlarvaePlectrocnemia-conspersaPlectrocnemia-brevisPlectrocnemia-renettaPlectrocnemia-latissimagenomesilk-fibroinkin-structuredispersalegg-masscolonial-netoxygen-requirementsCaucasusBritainGreeceTurkeyCyprusVermontfreshwaterstreamriverspringpredatory-behaviorvibration-frequencysetae-morphologylarval-identification-keyOxford-Nanopore-sequencingBUSCO-completenessL-chain-fibroinneighborhood-population-sizepatchy-recruitment-hypothesisgenetic-relatednessmicrosatelliteovipositionhot-spotsfirst-instarpupationmandible-captureorientation-behaviorbuilding-behaviorprey-captureChironomidaeOligochaetasubstrate-borne-vibrationsilken-tubetube-makerPolycentropodidaeStephens-1836more-than-120-speciesgenome-assemblynutrient-cyclingecosystem-servicesindustrial-interestphylogenomicscomparative-genomicsgenome-sizecontiguitypolishingIlluminaNanoporedraft-genomeannotated-genomeHydropsyche-tenuisspatial-genetic-structurecolonizationgene-flowgenetic-driftdispersal-distanceflighttemporary-populationspermanent-populationshabitat-patchessuitable-habitatecological-nichecase-making-behaviorlarval-casesilk-secretionprotein-componentgenomic-regiongene-clustergenomic-resourceshigh-quality-genomeshortest-genomevariable-qualitypublished-genomesinsect-orderspecioseindustrial-applicationbiomaterialnatural-materialbiomimicryconservationwater-quality-monitoringenvironmental-indicatorclean-wateroxygen-concentrationnorthern-slopesCentral-Caucasusrivers-and-streamsbiologyaspects-of-biologyreportedinhabitsfinal-instardiagnostic-featuresillustrateddiscriminatory-matrixGreek-specieszoogeographyreported-fromkey-to-larvaerevised-keynotes-onpreviously-unknown-larvadistinguishesother-British-specieslarval-habitatadult-identificationgenetic-differentiationsitespopulation-sizesshort-range-trendgreater-distancesevolutionary-processessmall-scalesnumber-of-generationsfound-small-populationsgrow-and-exchange-geneslarger-scalessubstantial-gapsregionscolonisation-eventsgenetic-patternslast-colonisedecological-studiesdynamicspersistence-and-spreadcentral-toMartynov-1913Malicky-1975Curtis-1834McLachlanCurtisNavasgenus-Stephens-1836family-Polycentropodidaeorder-Trichopteraclass-Insectaphylum-Arthropodakingdom-AnimaliaEukaryotaHexapodaHydropsychoideaPolycentropodinaeiNaturalistGBIFCatalogue-of-LifeNCBI-TaxonomyWikipediaZeitschrift-für-TierpsychologieFreshwater-BiologyZootaxaGenome-Biology-and-EvolutionZoosymposiaDOIabstractpaper-summaryevidenceconfidence-notesobservations-countmatched-scientific-namecanonical-namerankstatusacceptedmatch-typehigherrankdistribution-recordsgenus-of-tube-maker-caddisfliesmore-than-120-described-specieslist-of-speciesreferencesfurther-readingexternal-linkstitlejournalsubjectsZusammenfassungDie-Larven-vonleben-in-Fließwässernfängt-mit-einem-Netz-Beutehauptsächlich-Chironomiden-Larven-und-OligochaetenWirkung-der-von-der-Beute-im-Netz-erzeugten-VibrationenAufmerksamkeitOrientierung-und-BewegungFangversucheum-so-schnellerverwirrtBaubewegungenBauverhaltenBeutefangenger-Verbindungrecruitmentkinsouthern-English-streamobjectivessmall-scale-patternsstream-dwellingspatial-proximity-of-close-kinpatchy-recruitmentdistribution-of-related-larvaeaquatic-phaseegg-massesspatially-and-temporally-structured-samplesfield-collected-larvaesix-polymorphic-microsatellite-locisiblingsprogeny-of-one-fatherbackground-population-levelsiblings-dispersechanges-in-spatial-genetic-structureneighbouring-larvaeavoiding-kinonset-of-pupationsurvival-through-the-egg-stagefirst-instar-larvaenumber-of-egg-massesrefutelarva-ofincludinglarvae-ofspecies-of-Greecemorphologyfinal-instar-larvainner-and-outer-dorsal-secondary-setaeabdominal-segment-IXmuscle-attachment-spotshead-capsuleabdominal-sternum-IXdistribution-patternsannotated-draft-genomeslarval-silk-secretionsdiverse-case-making-behaviorecological-nichesfive-genomeslow-cost-sequencing-strategyOxford-Nanopore-flow-cellIllumina-sequence-readshigh-quality-genomesde-novo-assembly-methodslow-coverage-Nanopore-readsshortest-genomeslight-L-chain-fibroinL-fibroin-gene-clustersphylogenomiccomparative-genomiclarvae-of-the-genusother-two-Britishlife-cycleadultgenetic-population-structureneighbourhood-population-size-estimatesrole-of-historyscale-of-colonisationstructuring-populationsgenetic-and-ecological-methodsno-genetic-differentiationup-to-20-kmdespite-population-sizesgreater-than-expectedcontrasting-short-range-trendimplausibly-smallrelatively-short-flightswinged-adultsfound-smalloften-temporarylarger-and-more-permanentamplifyingregions-containingreducedate-fromrarely-examinedcentralbiology-ofspringshigh-oxygen-concentrationgood-indicatorwater-qualitytube-maker-caddisfliesgenusobservationstaxonomy-matchmatchedcanonicalclassificationAnimaliaArthropodaInsectagroupcaddisfliesMetazoagenus-Plectrocnemialist-of-Plectrocnemia-speciesvibrations-and-predatory-behavioureffects-of-vibrations-transmitted-across-the-netpredatory-behaviourvariations-in-the-frequencymore-marked-effectvariations-in-amplitudestage-2orientation-and-displacement-towards-the-lurestage-3capture-of-the-lure-with-mandibleslarvae-live-in-running-waterscatch-with-a-netpreymainly-chironomid-larvae-and-oligochaeteseffect-of-vibrations-generated-by-prey-in-the-netvery-irregularly-woven-netopen-ended-dwelling-tube-at-both-endsvibration-weakly-dampenedfrequency-does-not-changevibration-excitesattentionorientation-and-movementcapture-attemptsorientation-and-movement-to-preythe-fasterthe-more-the-vibration-exceeds-0.28-Hzfrequencies-of-0.15-to-0.28-Hzlead-to-incomplete-reactionsas-if-the-larvae-were-confusedfrequencies-below-0.075-Hzgenerate-building-movementsbuilding-behavior-instead-of-prey-captureclosely-connectedrecruitment-kin-and-spatial-genetic-structureoviposition-and-genetic-relatednessstream-dwelling-caddisbeginning-of-the-aquatic-phasefour-sample-dateswithin-one-generationmean-relatedness-coefficientwithin-reared-egg-massesdiffered-significantlypopulation-as-a-wholemarkers-sufficiently-powerfulidentify-groups-of-siblingssmall-contribution-from-a-second-malemean-relatedness-within-spatially-structured-groupsdid-not-differ-from-backgroundsiblings-disperse-away-from-each-otherkin-structure-does-not-persistchanges-in-spatial-genetic-structure-late-in-larval-lifeneighbouring-larvae-less-closely-relatedapproaching-onset-of-pupationsurvival-through-egg-stage-and-early-larval-lifevery-highgreater-than-50%non-social-insectconsequence-of-colonial-netbriefly-occupied-by-first-instar-larvaelack-of-spatial-genetic-structurehigh-survivalrefute-patchy-recruitment-hypothesislarva-of-Plectrocnemia-renettaincluding-discriminatory-matrixlarvae-of-Plectrocnemia-Stephens-1836-species-of-Greecemorphology-of-final-instar-larvamost-important-diagnostic-features-illustratedpreliminary-discriminatory-matrixstrongly-different-in-lengthseparated-from-each-othermuscle-attachment-spots-on-head-capsulenumber-and-length-of-setae-on-abdominal-sternum-IXreported-from-Cyprus-Turkey-Greek-islandsexploit-wide-range-of-ecological-nichesfive-genomes-publishedvariable-qualitiessingle-Oxford-Nanopore-flow-cellde-novo-assembly-methods-comparedassembly-of-low-coverage-Nanopore-readssubsequent-polishingyielded-highest-genome-qualitycontiguity-and-BUSCO-completenessshortest-genomes-to-dateextend-knowledge-of-genome-sizegenomic-region-encodes-for-light-L-chain-fibroinprotein-component-of-larval-caddisfly-silkidentified-and-comparednew-genomic-resourcesamong-highest-quality-Trichoptera-genomesincrease-knowledgebasis-for-phylogenomic-and-comparative-genomic-studiesrevised-key-to-larvaedistinguishes-previously-unknown-larvaother-two-British-speciesnotes-on-larval-habitat-life-cycle-and-identification-of-adultgenetic-population-structure-and-neighbourhood-population-size-estimatesrole-of-history-and-scale-of-colonisationno-genetic-differentiation-between-sites-up-to-20-kmdespite-population-sizes-suggesting-genetic-driftgenetic-differentiation-between-populations-separated-by-more-than-20-kmneighbourhood-population-size-implausibly-smallevolutionary-processes-do-not-explain-differentiationrelatively-short-flights-by-winged-adultsspread-over-number-of-generationsfound-small-often-temporary-populationsgrow-and-exchange-genes-with-larger-permanent-local-populationsamplify-effects-of-initial-gene-flowsubstantial-gaps-between-regions-containing-suitable-habitat-patchesreduce-number-of-colonisation-eventsgenetic-patterns-may-date-from-time-last-colonisedecological-studies-rarely-examined-dynamics-over-larger-geographical-scalescentral-to-persistence-and-spreadbiology-of-Plectrocnemia-latissimarivers-and-streams-of-Central-Caucasus-northern-slopessprings-streams-and-riversrequires-high-oxygen-concentrationgood-indicator-of-water-qualityaspects-of-biology-reportedWikipedia-summaryrank-GENUSstatus-ACCEPTEDmatch-type-HIGHERRANKdistribution-records-DK-NO-SE-Vermont-US-USscientific-nameauthorship-Stephens-1836classification-Eukaryota-Animalia-Arthropoda-Hexapoda-Insecta-Trichoptera-Hydropsychoidea-Polycentropodidae-Polycentropodinae-Plectrocnemiascientific-name-Plectrocnemiagroup-caddisflieskingdom-Metazoainstructionsfill-all-fieldsif-a-field-cannot-be-supported-return-nulldo-not-repeat-information-across-fieldskeep-each-section-focused-on-its-purposeprovide-useful-detail-where-possiblecritical-rulesfactual-correctness-over-completenessclarity-over-verbosityusefulness-over-speculationif-information-is-not-clearly-supported-return-nulldo-not-infer-species-level-traits-from-higher-taxa-unless-explicitly-justifieddo-not-repeat-the-same-information-across-multiple-fieldseach-field-must-contain-unique-non-overlapping-contentavoid-vague-generalizationslike-most-insectstypically-feeds-on-plantsuse-cautious-language-when-necessaryhas-been-observedis-known-todo-not-fabricatebehaviorsdietlife-cycle-detailshost-relationshipsfield-intentsummary-high-level-overview-3-5-sentencesappearance-physical-description-onlyidentif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cinerea
Plectrocnemia cinerea is a species of caddisfly in the family Polycentropodidae. It was originally described as Polycentropus cinereus by Hagen in 1861. The species is known from North America, with distribution records including Vermont in the United States. As a member of the order Trichoptera, it belongs to a group of insects closely related to moths and butterflies, with aquatic larval stages and terrestrial adults.
Plectrocnemia crassicornis
tube maker caddisfly
Plectrocnemia crassicornis is a species of tube maker caddisfly in the family Polycentropodidae, first described by Walker in 1852. As a member of the order Trichoptera, it belongs to a group of aquatic insects whose larvae construct protective cases or retreats. The species is known from North America, though specific details of its biology remain poorly documented in published literature.
Polycentropus denningi
Polycentropus denningi is a species of tube maker caddisfly described by Smith in 1962. It belongs to the family Polycentropodidae, a group of predatory caddisflies whose larvae construct silken retreats rather than portable cases. The species is known from the Nearctic region.
Polycentropus maculatus
spotted tube maker caddisfly
Polycentropus maculatus is a species of tube-making caddisfly in the family Polycentropodidae. The species was described by Banks in 1908 and is known from North America. As a member of the genus Polycentropus, it constructs silken tubes for larval habitat.
Polycentropus variegatus
Polycentropus variegatus is a species of caddisfly in the family Polycentropodidae, originally described by Banks in 1900. It is currently treated as a synonym of Plectrocnemia variegata. The species is known from North America. As a member of the Polycentropodidae, it belongs to a group of net-spinning caddisflies whose larvae construct silken nets to capture prey.
Psychomyioidea
net-tube caddisflies
Psychomyioidea is a superfamily of caddisflies (Trichoptera) in the suborder Annulipalpia, commonly known as net-tube caddisflies. The superfamily comprises five families: Psychomyiidae, Xiphocentronidae, Dipseudopsidae, Polycentropodidae, and Pseudoneureclipsidae. Members are characterized by specialized antennal sensilla and larval case-building behavior using silk nets or tubes. The group is primarily distributed in tropical and subtropical regions worldwide, with significant diversity in the Neotropics, Oriental region, and Brazilian Amazon.