Caddisflies
Guides
Chilostigmini
northern caddisflies
Chilostigmini is a tribe of caddisflies within the family Limnephilidae, first described by Schmid in 1955. The tribe comprises approximately 12 genera and at least 40 described species, with Chilostigma R. McLachlan, 1876 as its type genus. Members are distributed across northern regions and are associated with freshwater habitats. The tribe is classified within the subfamily Limnephilinae.
Hydroptilidae
Microcaddisflies, Purse-case Caddisflies
Hydroptilidae is the largest family of caddisflies (Trichoptera), comprising over 2,600 species in 76 genera and six subfamilies. Adults are minute, rarely exceeding 5 mm in length, making them the smallest caddisflies. They are characterized by simple hypermetamorphosis in larvae: early instars (I–IV) are caseless and free-living, while the final instar (V) constructs a distinctive purse-shaped portable case and develops a greatly enlarged (physogastric) abdomen as the primary feeding and growing stage. The family has a worldwide distribution, with subfamilies showing distinct regional patterns. Adults are strongly attracted to ultraviolet lights and may congregate in large numbers.
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-onlyidentification-how-to-distinguish-it-from-similar-taxahabitat-environment-and-conditionsdistribution-geographic-range-onlyseasonality-timing-of-activitydiet-feeding-habits-null-if-unknownlifeCycle-developmental-stagesbehavior-notable-actions-or-habitsecologicalRole-role-in-ecosystemhumanRelevance-interaction-with-humanssimilarTaxa-must-include-reasonmisconceptions-only-if-meaningfulextraDetails-only-for-important-additional-contextstyle-rulesuse-clear-direct-sentencesavoid-fluff-or-filler-languageavoid-repeating-taxonomy-in-proseavoid-overly-technical-jargon-unless-necessaryprefer-concrete-statements-over-abstract-descriptionsquality-rulescompleteness-high-only-if-most-fields-are-well-supportedcompleteness-medium-if-partial-but-reliablecompleteness-low-if-sparse-datahasInferredContent-true-only-if-generalization-is-usedotherwise-falseoutput-formatmust-strictly-match-provided-JSON-schemado-not-include-any-extra-fieldsdo-not-include-commentary-outside-JSONtaxon-recordusing-provided-schemaoptional-context-may-be-incompletesourcepaper-summary-evidencelimited-information-extracted-from-abstract-onlyfull-text-not-available-for-more-detailed-extractionhabitat-diet-life-cycle-reproduction-behaviors-and-ecosystem-role-not-mentioned-in-abstractdistribution-data-limited-to-abstract-level-informationfull-paper-may-contain-additional-detailsabstract-only-providedfull-text-not-availablehabitat-diet-and-ecological-details-likely-contained-in-main-paper-but-not-accessible-from-abstract-alonedistribution-limited-to-Britain-as-explicitly-statedgeneratestructured-taxon-recordsentomology-guideaccurate-conservative-informative-contentprioritizegoalproducejsonschemacontentsummaryappearanceidentificationhabitatdistributionseasonalitylifeCyclehostAssociationsbehaviorecologicalRolehumanRelevancesimilarTaxamisconceptionsextraDetailstagscompletenesshasInferredContentmetadatasourcessourceQualityextractionMethodextractionDateconfidencenotesreasonnamehighmediumlowtruefalseVibrations-and-Predatory-Behaviour-of-Plectrocnemia-Larvaevibrationsnetfrequencyamplitudeorientationcapturemandiblesrunning-watersdwelling-tubedampenedbuilding-movementsconfusedRecruitment-kin-and-the-spatial-genetic-structure-of-a-caddisfly-Plectrocnemia-conspersamicrosatellite-locisurvivalThe-larva-of-Plectrocnemia-renetta-Malicky-1975larvasetaeabdominal-segmentmuscle-attachmentIkariaSamosAnnotated-Draft-Genomes-of-Two-Caddisfly-SpeciesfibroinOxford-NanoporeBUSCOA-revised-key-to-larvae-of-the-genus-PlectrocnemiaPlectrocnemia-geniculatacolonisationdispersal-flightsstreamsrivers120-described-speciesDenmarkNorwaySwedenUnited-States204DKNOSEUStaxonomymatchkingdomphylumclassorderfamilyspecific-epithetsubspecies-epithetsubphylumsubclasssuborderinfraordertribescientific-name-authorshipsynonymscommon-namescontent-fieldsall-fieldsavailable-knowledgereturn-nullnot-supportedunique-non-overlappingfocuseduseful-detailfactualcorrectcleardirectno-fluffno-fillerno-taxonomy-repetitionno-jargonconcretehigh-completenessmedium-completenesslow-completenessno-inferred-contentstrict-JSONno-extra-fieldsno-commentaryentomologyinsectsaquaticvibrationgeneticspopulationeggpupainstaroxygenAsiaAmericaEnglandflowing-waterChironomidoligochaetecolonialrelatednesssiblingIllumina-sequencingannotatedsilk-proteincase-makingidentification-keymorphologicaldiagnosticsetal-arrangementmuscle-spotabdominal-sternumlarval-stageoviposition-sitehot-spotsurvival-ratehabitat-patchtemporary-populationpermanent-populationwinged-adultkin-avoidancerefutedwater-quality-indicatorhigh-oxygengenus-authoritytype-speciesnot-specifiedsee-alsoabstract-onlylimited-informationextractionhabitat-not-mentioneddiet-not-mentionedlife-cycle-not-mentionedreproduction-not-mentionedbehaviors-not-mentionedecosystem-role-not-mentioneddistribution-limitedabstract-levelmain-paperadditional-detailslikely-containednot-accessibleBritain-explicitly-statedlarval-stages-describeddetailed-extractionpredatorycaptures-preysilken-netssubstrate-borne-vibrationschironomid-larvaeoligochaetesfrequency-effectsamplitude-effectsorientation-stagecapture-stagenet-constructionconfused-responsesincomplete-reactionsshort-rangelong-range20-km500-kmcolonization-eventspersistencespreadorganic-mattermaterial-propertiesqualitygenome-size-variationsilk-encoding-genesprotein-componentsgene-clustersbasis-for-studiesdistinguishes-speciesBritish-speciesmorphological-characteristicstaxonomic-revisionpopulation-structureneighborhood-sizehistoryscalestructuringmethodsdifferentiationdrifttrendprocessesflightsgenerationsfoundgrowexchangeamplifygapssuitabledateexaminedrequiresindicatoraspectsnorthernslopesMartynovGreek-islandsseparated-byarrangementnumberlengthgroup-wherestrongly-differentdiagnostic-features-illustratedpreliminarymatrix-providedmorphology-ofinformation-ongivenmost-importantdiscriminatoryto-the-larvaespecies-ofpreviously-unknowndescribesthis-papereffects-of-vibrationstransmitted-acrossanalysesworkthisanalyses-the-effectsvariations-inhas-a-more-marked-effectespecially-on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Rhyacophiloidea is a superfamily of caddisflies (order Trichoptera) established by Stephens in 1836. The group has been treated variously in classification systems, sometimes encompassing the entire suborder Spicipalpia when that group is ranked as a superfamily within Annulipalpia. The superfamily includes families of free-living caddisfly larvae that do not construct the portable cases characteristic of many other trichopteran groups.