Domestic
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Cyladini
Cyladini is a tribe of weevils in the family Brentidae, subfamily Apioninae. The tribe includes economically significant pests of sweet potato, particularly the sweetpotato weevil (Cylas formicarius), which causes substantial damage to storage roots in tropical and subtropical production regions. Members of this tribe are characterized by their association with Convolvulaceae host plants and their status as specialized root-feeding pests.
pestagriculturesweet-potatoConvolvulaceaeintegrated-pest-managementCylas-formicariustropical-agriculturesubtropical-agricultureroot-feeding-weevilstorage-root-damageeconomic-pestbiological-controlcrop-protectionsoutheastern-United-Statesglobal-food-securitylow-input-farmingdrought-tolerant-cropnematode-interactionsBeauveria-bassianaentomopathogenic-nematodesresistant-varietiescrop-rotationcover-cropsIPMBrentidaeApioninaeColeopteraInsectaHexapodaArthropodaAnimaliaClaire-SchloemerAuburn-UniversityUniversity-of-Wisconsin-MadisonJournal-of-Integrated-Pest-ManagementScott-GrahamKathy-LawrenceCovingtonBonitaBeauregardOrleansguava-root-knot-nematoderoot-knot-nematodewirewormcucumber-beetleflea-beetlePurpureocillium-lilacinumbiopesticidegreen-bridge-effectmustardglucosinolatepeanutbahiagrasssandy-soildrought-adaptationbiofuelanimal-feednutritional-valuefood-securitysustainable-agricultureenvironmental-impactmicrobial-controlfungal-pathogenentomopathogenic-fungusbiological-nematicidenematode-egg-parasitismpest-managementagricultural-entomologycrop-lossyield-reductionroot-qualitymarketabilityintegrated-managementcultural-controlselective-chemical-useproductivitynatural-processesversatilityglobal-cultivationtropical-regionssubtropical-regionssoutheastern-U.S.domestic-productionrevenueacreageharvestfarminggrowerbreedingresearchcultivar-developmentevolving-threatspest-pressuresoil-healthfield-preparationwinter-habitatinsect-habitatparasitisminfestationdamagelosschallengedefensearsenalbattlewarresilienceadaptationinnovationstrategysustainabilitylivelihoodnourishmentfood-productionagricultural-researchentomologyplant-protectioncrop-sciencehorticultureroot-croptuberstorage-organfeeding-injurygallingcracked-rootsstunted-growthwater-uptakenutrient-uptakepathogen-interactionexacerbated-damagevariety-selectionhardy-varietyrobust-performancehigh-yieldnematode-resistancepest-resistancevulnerabilityspreading-pestpopulation-reductionsoil-improvementspring-plantingtoxic-compoundnatural-propertymicrobial-productformulationapplicationevaluationmaximizationpotentialurgencygrowing-threatcomprehensive-strategybalanceenablementessential-cropsecuritydefiancedifficult-conditionsmenacing-pestsformidable-threatsproduction-continuationface-to-facethreatdiseaseresilient-cropgrowing-conditionsmenacestorysurfacebeneathrelentlessadversaryfavorconditionpowerfulfoetinyparasiteattackformationdiminishabilityresultunattractiveworsematterinteractionsignificantdevastatingruininflictfurthercompromisegrapplethankfullyfarmerbeginselecthardywithstandtraditionalgaintractionvulnerablehighlightneedcontinuebreedeffortdevelopcapableopposeevolveaftersturdyculturalmanagementrotationcovercroppinglinetakeyearoffgrowrotatenon-hostproveeffectivereducepopulationbreathelifeimprovehealthsuppressprepareexamplecontaincompoundcallbreakdownreleasesubstancewaryproviderepresentmethodharnesshelpwinsporefungusinfectkilltypetapdifferentmicroscopicanimalparasitizeplususecombatattentioneggaidfightminimizeimpactdespiteadvancequestionremainrequiremaximizeparticularlyurgentposekeyenhanceapproachintegratepracticecontrolselectivechemicalenablenaturalprocessnutritionalvalueessentialcropglobalfoodregionsupportmillionaddresspressureinnovativesustainableensurelivemanyformidableproductionalthoughcomefaceresilientabledefydifficultreadmorejournalintegratedClaireSchloemerPh.D.studentconductearnmasterdegreeemailsharelinkfriendopennewwindowprintFacebookLinkedInBlueskyMastodonXRedditThreadsrelateddiscoverfromtodaysubscribegetlatestpostsendyourCylasformicariussweetpotatosweetpotatoweevilphotocourtesyshowherecucumberbeetleroot-knotnematodeharmU.S.guidedetailvarietyoptionbeloveddelicioustastebenefitbrightcolorrankseventhmostimportantworldtropicalsubtropicalareaaroundservefeedsourcegoodpicklow-inputstylewelladaptedsandysoildroughtUnitedStates2022over130,000acregeneratenearly600southeasternleaddomesticAuburnUniversityweatherarticlepublishMarchcolleagueScottGrahamKathyLawrencevariousamongplant-parasiticspecificallyrootsystemcausegallplantwaternutrientstuntedgrowthyieldcrackmakeinteractpathogenexacerbateinsectknowstorage7annualsouthernfleaqualityleaveeconomicownresistancebettermeanwhilenewerhighrobustperformancehoweverresistguavaspeciesspreadnextseasonwinterfieldspringtoxicgreenbridgeeffecthabitatfeedersymptominfectionbiologicalpropertymicrobeBeauveriabassianaagentformulateenvironmentallyfriendlyproducteasyapplysimilarlybeneficialentomopathogenicnematicidePurpureocilliumlilacinumsolutionenvironmentalresistantnematode-resistantcultivarcomprehensivecultivationWisconsin-MadisoncschloemerwisceduDorypteryx domestica
cave barklouse
Dorypteryx domestica is a small psocid, commonly known as the cave barklouse, in the family Psyllipsocidae. Originally described as Dolopteryx domestica from Zimbabwe in 1958, it was later transferred to Dorypteryx by Lienhard in 1977. The species has a remarkably broad geographic distribution spanning Africa, Europe, Northern Asia, and North America, and has been recorded from domestic as well as cave habitats.
Psyllipsocidae
Cave Barklice
Psyllipsocidae is a family of small psocid insects commonly known as cave barklice, comprising approximately 7 genera and more than 70 described species. The family belongs to the suborder Trogiomorpha within the order Psocodea. Members of this family have been recorded across multiple biogeographic realms including West Palaearctic, Afrotropical, Australian, Nearctic, Neotropical, and Oriental regions. Some genera, such as Dorypteryx, exhibit notably wide geographic distributions. Several extinct genera are known from Cretaceous amber deposits.