RESEARCHARTICLE Innovative Bayesian and Parsimony Phylogeny of Dung Beetles (Coleoptera, Scarabaeidae, Scarabaeinae) Enhanced by Ontology-Based Partitioning of Morphological Characters SergeiTarasov1*,FrançoisGénier2 1 DepartmentofResearchandCollections,NationalCenterforBiosystematics,NaturalHistoryMuseum UniversityofOslo,P.O.Box1172BlindernNO-0318,Oslo,Norway,2 ColeopteraSection,Canadian NationalCollectionofInsects,ArachnidsandNematodes,AgricultureandAgri-FoodCanada,960Carling Avenue,Ottawa,K1A0C6,Ontario,Canada * [email protected] OPENACCESS Abstract Citation:TarasovS,GénierF(2015)Innovative BayesianandParsimonyPhylogenyofDungBeetles Scarabaeinedungbeetlesarethedominantdungfeedinggroupofinsectsandarewidely (Coleoptera,Scarabaeidae,Scarabaeinae)Enhanced byOntology-BasedPartitioningofMorphological usedasmodelorganismsinconservation,ecologyanddevelopmentalbiology.Duetothe Characters.PLoSONE10(3):e0116671. conflictsamong13recentlypublishedphylogeniesdealingwiththehigher-levelrelation- doi:10.1371/journal.pone.0116671 shipsofdungbeetles,thephylogenyofthislineageremainslargelyunresolved.Inthis AcademicEditor:BenJMans,Onderstepoort study,weconductrigorousphylogeneticanalysesofdungbeetles,basedonanunprece- VeterinaryInstitute,SOUTHAFRICA dentedtaxonsample(110taxa)anddetailedinvestigationofmorphology(205characters). Received:May3,2014 Weprovidethedescriptionofmorphologyandthoroughlyillustratetheusedcharacters. Accepted:December11,2014 Alongwithparsimony,traditionallyusedintheanalysisofmorphologicaldata,wealso applytheBayesianmethodwithanovelapproachthatusesanatomyontologyformatrix Published:March17,2015 partitioning.Thisapproachallowsforheterogeneityinevolutionaryratesamongcharacters Copyright:©2015Tarasov,Génier.Thisisanopen fromdifferentanatomicalregions.Anatomyontologygeneratesanumberofparameter-par- accessarticledistributedunderthetermsofthe CreativeCommonsAttributionLicense,whichpermits titionschemeswhichwecompareusingBayesfactor.Wealsotesttheeffectofinclusionof unrestricteduse,distribution,andreproductioninany autapomorphiesinthemorphologicalanalysis,whichhithertohasnotbeenexamined.Gen- medium,providedtheoriginalauthorandsourceare erally,schemeswithmoreparameterswerefavoredintheBayesiancomparisonsuggest- credited. ingthatcharacterslocatedondifferentbodyregionsevolveatdifferentratesandthat DataAvailabilityStatement:Allrelevantdataare partitioningofthedatamatrixusinganatomyontologyisreasonable;however,treesfrom withinthepaperanditsSupportingInformationfiles. AdditionalfilesareavailablefromMorphoBank(http:// theparsimonyandalltheBayesiananalyseswerequiteconsistent.Thehypothesizedphy- www.morphobank.orgproject1157). logenyrevealsmanynovelcladesandprovidesadditionalsupportforsomecladesrecov- Funding:VisitsofSergeiTarasovtotheMNHNin eredinpreviousanalyses.Ourresultsprovideasolidbasisforanewclassificationofdung ParisreceivedsupportfromtheSYNTHESYSgrant beetles,inwhichthetaxonomiclimitsofthetribesDichotomiini,DeltochiliniandCopriniare (http://www.synthesys.info).Thefundershadnorole restrictedandmanynewtribesmustbedescribed.Basedontheconsistencyofthephylog- instudydesign,datacollectionandanalysis,decision enywithbiogeography,wespeculatethatdungbeetlesmayhaveoriginatedintheMesozo- topublish,orpreparationofthemanuscript. iccontrarytothetraditionalviewpointingtoaCenozoicorigin. CompetingInterests:Theauthorshavedeclared thatnocompetinginterestsexist. PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 1/86 Morphology-BasedPhylogenyofScarabaeinae Introduction DungbeetlesofthesubfamilyScarabaeinaeareawell-knowngroupofinsectsthankstotheir exploitationofanimalfeces,abehavioraltraitwithaglobalimpactonEarth’secosystems. Withmorethan6200speciesin267generaandwithanestimated30–50%ofthespeciesstill undescribed(FG,personaldatabase),dungbeetlesexhibitdiversitycomparabletotheAves(ca. 9.800species[1]),aswellasbeingthesecondmostcitedsubfamilyofbeetlesonGoogleScholar (Fig.1).Dungbeetleshavebeenshowntoplayamajorroleinnutrientrecycling,bioturbation, enhancementofplantgrowth,secondaryseeddispersal,parasitesuppressionanddispersal,fly control,trophicregulationandpollination[2].Throughthesevariousmechanisms,theypro- videecosystemservicesvaluedat$380millionannuallyforthecattleindustryintheUSalone [3]. Theirassociationwithephemeralfoodresourcescoupledwithinterestingandcomplex feeding,breedingandnestingbehaviorsmakedungbeetlesamodelforvariousecologicalstud- ies[4].Dungbeetleshavebeenselectedasindicatorsforbiodiversityinventoryandmonitoring duetotheirglobaldistribution,highabundance,easeofcapturecombinedwithtightconnec- tionstospecificsoilandvegetationtypes;theirsensitivitytocommunitydisturbanceallowsas- sessmentofhumanimpactaroundtheglobe[4,5].Dungbeetles,amongstfewother invertebratetaxa,wereselectedfortheIUCNRedListIndexprogram[6,7].Thescarabaeine genusOnthophagus,oneofthemostspecies-richgenerainanimalkingdom,inwhichhorns exhibitfascinatingphenotypicdiversity,hasemergedasamodelsysteminevolutionarydevel- opmentalbiologyandecologicaldevelopment[4,8]. Duetotheextensivebiologicalknowledgeacquiredaboutthemandtheiruniquebiological traits,dungbeetlesstandoutamongstotherinvertebrates,asorganismsidealforunraveling generalpatternsofnature.Dobzhansky’sfamous"Nothinginbiologymakessenseexceptin thelightofevolution"[9]applieswellascomparativedatainbiologycanbeonlyinterpretedif Fig1.Phylogenetictimelineandcitationchart.Onthetop:phylogenetictimelineillustratinghistoryofphylogeneticstudiesindungbeetles.Descriptionof thephylogeneticstudiesisprovidedinTable1.Leftonthebottom:citationchartofColeopterasubfamilies.ThepopularityofeachColeopterasubfamilyis basedonthenumberofcitationsonGoogleScholar.Thediagramshowsthe16mostpopularColeopterasubfamilieswhosenumberofcitationsexceed 1500.ThecitationswereobtainedbyqueryingarecentlyupdatedlistofallColeopterasubfamilies(providedbyAlfredNewton,FieldMuseum,Chicago,IL)in GoogleScholarusingRscript(availableuponrequest).Scarabaeinaeemergesasthesecondtopsubfamily,with4740citations.Numbersabovecolumns indicatethenumberofcitations. doi:10.1371/journal.pone.0116671.g001 PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 2/86 Morphology-BasedPhylogenyofScarabaeinae Table1.ThekeyphylogeneticstudiesinthesubfamilyScarabaeinae. Seealsophylogenetictime-line inFig.1. # Year Authors Description 1 2013 Mlamboetal.[29] MOLECULAR:48species,COI,16S,28Sd3;majorityofAfrican DeltochiliniandDichotomiini,5Madagascanand1Orientaltaxon 2 2011 Baietal.[23] MORPHOLOGY:81species119characters;Chinesetaxa 3 2010 SoleandScholtz MOLECULAR:35species,COI,16S,28Sd2,28d3,CAD;majorityof [28] Africangenera 4 2010 Wirtaetal.[27] MOLECULAR:155species,COI,16S,18S,28S,COI;focusedon MadagascanDeltochilinibutalsoincludesmanyotherScarabaeinae taxa 5 2008 Wirtaetal.[26] MOLECULAR:44species,COI,18S,28S,COI,Cytb,16S;focusedon MadagascantribeHelictopleurinibutalsoincludesothergeneraof Scarabaeinae 6 2007 Monaghanetal. MOLECULAR:224species,COI,16S,28S;globalcoverageof [25] Scarabaeinae 7 2007 Vaz-de-Mello[22] MORPHOLOGY:12species,20characters;someNeotropicalgenera ofDichotomiiniandDeltochilini 8 2007 Vaz-de-Mello[11] MORPHOLOGY:87taxa,297characters;globalcoverageof Scarabaeinae 9 2006 Ocampoand MOLECULAR:45species,18S,28Sd2,28d3,variousScarabaeinae Hawks[24] genera 10 2004 Philipsetal.[20] MORPHOLOGY:48species,199characters;47generafromvarious biogeographicregions 11 2002 Villalbaetal.[18] MOLECULAR:33species,COI,COII;Iberianspecies 12 1998 Montreuil[17] MORPHOLOGY:29genera,42characters;someDichotomiiniand Deltochilini 13 1983 Zunino[19] MORPHOLOGY:18generafromvariousbiogeographicregions; intuitivecladisticapproach doi:10.1371/journal.pone.0116671.t001 weknowthephylogenyoftheorganismsunderstudy.Dungbeetles’all-aroundpopularityin thelasttwodecadeshasmadethemthesubjectof13keyphylogeneticstudiesaimingtoresolve theirevolutionaryhistoryusingbothmolecularandmorphologicalcharacters(Fig.1,Table1). Despitesuchintensescrutiny,thephylogenyofdungbeetlesremainslargelyunresolved.Cur- rentphylogeniesoftenresolveonlyveryshallowdivergencesbetweencloselyrelatedgenera andlargelydisagreewitheachotherconcerningdeeperrelationships(seenextchapterforde- tails).Asaresult,westilldonothaveafirmbasisforcomparativeevolutionaryandecological researchandagoodnaturalclassificationforthisimportantgroup. Usuallymolecularphylogeniesdealingwithdungbeetlesrelyonalimitednumberofmito- chondrial(bothprotein-codingandrDNA)andnuclearrDNAmarkers.Protein-codingmito- chondrialmarkers,affectedbyfasterevolution,arelesssuitableforuncoveringdeeper divergences,whilerDNAsequencesposealignmentproblemsandchallengemodelingoftheir evolution[10].AlthoughmitochondrialandrDNAgenesaregoodcandidatesforresolving shallowdivergences,theyseemtoincludenoiseandlessinformationforelucidatingrelation- shipsatahigherlevel[10].Morphologicalphylogeniesaresensitivetotaxonsamplingthatcan significantlyaffecttheirresults.Onaverage,morphologicalstudiesindungbeetlesuseupto50 terminals;thereisonlyonestudycomprising80taxaandarepresentativesampleofthegenera [11].Inaddition,morphologicalphylogenies,toacertainextent,lackathoroughinvestigation ofmorphologythatwouldincludetotalexaminationoftheirinternalandexternalstructuresas wellasgenitalia.Suchin-depthinvestigationiscriticalasmorphologicalphylogeniesstrictly PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 3/86 Morphology-BasedPhylogenyofScarabaeinae dependonhomologyassessmentandincorporationofallpossiblephylogeneticinformation preservedinthephenotype. Inthispaper,weaimatareconstructionofdungbeetlephylogenybasedonanunprece- dentedanalysisintermsoftaxonsampleanddepthofmorphologicalinvestigation. Inthecurrenteraofphylogenomics,ourchoiceofamorphologicalapproachisbasedupon twoconsiderationsrenderingmorphologyirreplaceable.First,evenbigmulti-genestudiesmay providebiasedestimatesandperformworsethanmorphology[12].Thus,morphologyisanal- ternativesourceofdataimportantfortheassessmentofphylogeneticaccuracy.Second,mor- phologyisessentialtothedevelopmentofanewrobustnaturalclassificationfordungbeetles, whichrequiresmorphologicalcharactersfordiagnosisandidentificationoftaxa. Thepresentstudyhasseveralkeyadvantagesoverpreviousmorphologicalstudies.Itcovers allbiogeographicandmorphologicaldiversityandincorporatesthemajorityofputativeline- ages,andsupragenericcategoriesconsideredphylogeneticallyquestionable.Weperformedthe mostdetailedinvestigationofendo-andexoskeletonstructuresindungbeetlesusingadissect- ingtechniquedescribedinthematerialsandmethodssection.Wespeciallyfocusonstudying theinternalscleritesofmalegenitalia.Thesestructuresrecentlyhavebeenshowntobephylo- geneticallyinformative[13],althoughremainingpoorlystudiedastheirpreparationandexam- inationisrathercomplex.Weprovidethefirstlargescaleassessmentofhomologyforinternal scleritesandtheirdetailedillustration.Ourthoroughexaminationofmorphologyrevealed manynovelcharacters,whichareinformativeforuncoveringphylogeneticrelationshipsin dungbeetles. Complementarytotheparsimonyapproachprevailinginphylogeneticinferenceusingmor- phology,wealsouseaBayesianmethod.PreviousstudiesapplyingBayesianmethodologyto morphologyrevealedthat,althoughresultsoftheBayesianandparsimonyanalysesaresimilar, theBayesianapproachmightinferinterestingpatternsneglectedbyparsimony[14–16].Bayes- ianinferenceisbasedonsubstitutionmodels,accountsforrateheterogeneityandcanincorpo- rateautapomorphiccharacters,ignoredbyparsimony.Bypartitioningthedataset,model- basedmethodsallowdifferentpartitionstoevolveatdifferentevolutionaryrates.Suchanap- proachseemsbiologicallymorerealisticthanparsimony,andthereforecanbeinterestingfor phylogeneticinference.However,thepartitioningofthemorphologicaldatasets,unlikethe molecularones,isnotstraightforward.Here,weuseanatomicontologyi.e.,anatomicalrela- tionshipsamongcharactersforpartitioning.Thisapproachassignscharactersinpartition giventheiranatomicallocationonthebeetlebody,ontheassumptionthatcharactersofthe sameanatomicalregionundergosimilarevolutionarydynamics.Thedatasetcanbepartitioned inmultiplewaysthat,alsoallowstestinghypothesesaboutcharacterevolution.WeuseBayes factortoelucidatethebestpartitioningschemeforphylogeneticinferenceandanswerthefol- lowingbiologicalquestions.Ispartitioningofthemorphologicaldatasetmeaningful?Docharac- tersonthesameanatomicalregionevolveatsimilarrates?And,howcanautapomorphic charactersaffecttreetopology? Howmanypatternsareoutthere:areviewofScarabaeinaephylogenies ThecurrentclassificationsplitsthesubfamilyScarabaeinaeinto12tribesandapproximately 267genera.MorethanhalfofthegeneraareclassifiedinthetribesDeltochilini(formerly Canthonini,103genera)andDichotomiini(43genera).Allphylogeneticstudiessupportthe polyphylyofthesetribes,whichresultsinaconstantshufflingofgeneraamongDeltochilini, Dichotomiiniandtheothertribes.Ofallthetribes,Deltochilini,Dichotomiini,Coprini,and Onthophaginihaveaglobaldistribution.Despitethat,thetribesDeltochilini,Dichotomiinido notshareanygeneraamongtheNewWorld,OldWorldandAustralasianRegions.Thetribes PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 4/86 Morphology-BasedPhylogenyofScarabaeinae Gymnopleurini,ScarabaeiniandOnitiniareendemictotheOldWorld,whileEucraniini,Eur- ysterniniandPhanaeiniareendemictotheNewWorld.Twotribes,OniticelliniandSisyphini, occurinboththeOldandNewWorld,buttheirNewWorldpresencelikelyrepresentsrather recentdispersal.Interestingly,theAustralasianRegion,knownforitshighgenericendemism, lacksanycurrentlyrecognizedendemicdungbeetletribes[4]. Thefirststudyofdungbeetlephylogeny,basedonanintuitivephylogeneticapproachand illustratedbyatreedrawnbyhand,datesbackthreedecades[35].Then,afterafifteenyearshi- atus,Montreuil[17]publishedthefirstmorphologicalphylogenybasedonparsimony,witha datasetcomprising29generamostlyfromthetribesCoprini,DeltochiliniandDichotomiini andusing42characters.Fouryearslater,thefirstmolecularphylogeny[18]usingtwogenere- gions(COIandCOII)andfocusingonIberiandungbeetleswaspublished.Thispublication startedanongoingandstillincreasinginterestinmolecularandmorphologicalinvestigationof dungbeetlesresultinginasteadyflowofpublicationseveryyearortwo.Uptodate,7morphol- ogy-based[11,17,19–23]and6molecular-basedstudies[18,24–29]relevanttohigher-level phylogenyofScarabaeinaehavebeenpublished.Asummaryofthesepublications(Table1and Fig.1)ispresentedasahistoricaltimelinethatcanbefoundathttp://embed.verite.co/timeline/ ?source=0Aqe3bAUelOltdG9ac1VEdmczbXdUSGdwSWU5QVF2T2c.Although,thesephy- logeniespursuedifferentgoalsanddifferintaxonomiccontentandbiogeographiccoverageas wellasthesetofmolecularormorphologicalmarkersused,wecanconductcomparisonsbe- tweenthem,duetothesignificanttaxonoverlap. Thelargeststudiesintermsofbiogeographiccoverageandtaxonsamplearethemorpho- logicalphylogenyofVaz-de-Mello[11](87species,297characters)andthemolecularphyloge- nyofMonaghanetal.[25](224species,3generegions).Someoftheotherphylogeniesfocus mainlyonspecificbiogeographicregions;e.g.,[24]Neotropicaltaxa;[28,29]Deltochiliniand DichotomiinigenerafromAfricaandMadagascar[26,27]. Molecularphylogeniesuseanalmostuniformsetof2–6generegionswhichrepresentmito- chondrialprotein-codinggene(s)andnuclearand/ormitochondrialrDNAgenes.Asingle broad-scalestudyattemptedincorporatingnuclearprotein-codingmarkers[28].Nuclear markerswereshowntobehighlyinformativeforasmaller-scalephylogenydealingwithtaxa ofOnthophagini[30]. Thesubstantialdisagreementbetweenthe13keyphylogeniescomplicatesinductionof sharedpatterns,asalmosteverysinglestudyhasitsuniquetree.Here,wehighlightthemost criticalcasesandsummarizepatternssharedbetweentwoormorephylogeniesorthosewith interestingbiogeographicalcorrelations.Eachanalysisisbriefonpurposeinordertodemon- stratethedramaticincongruenceoftheresults.Scholtzetal.[4]provideanexcellentin-depth reviewofexistingphylogenies. AllphylogeniessupportmonophylyofScarabaeinae.Themajorityofphylogeniesdonot challengethemonophylyof8(Onitini,Sisyphini,Gymnopleurini,Scarabaeini,Eurysternini, Oniticellini,Phanaeini,Eucraniini)outof12scarabaeinetribes,whiletwotribesDichotomiini andDeltochilini,emergeashighlypolyphyletic.Despitethesesimilarities,substantialdiscrep- anciesappearintherelationshipsbetweenmonophyletictribes(Fig.2)andgeneraofthepoly- phyleticDichotomiiniandDeltochilini. Toexemplify,twomolecularphylogenies[24,25]recoverthetribeOniticellininestedwith- inthetribeOnthophagini,anotherphylogenybasedonmorphologyrecoverspolytomycom- prisingOnthophaginiandOniticellini[24],whiletheothermorphologicalphylogeny[11] recoversOniticelliniasabasallineageontheScarabaeinaetree,onlyremotelyrelatedto Onthophagini(Fig.2).Atthesametime,thereisalsoalackofconsensusonthemonophylyof thetribeOnthophaginithatemergespolyphyleticorparaphyleticinbroad-scalemolecular phylogenies[24,25],orcomesupmonophyleticinonemorphologicalphylogeny[13]. PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 5/86 Morphology-BasedPhylogenyofScarabaeinae Fig2.Phylogeneticpatternsrevealedbypreviousphylogenies.Thetreesillustraterelationships,amongtribesOnthophagini,Oniticellini,Onitini, Sisyphini,Eurysternini,Deltochiliniandsomegenera.Interruptedlineindicatesremoterelationshipbetweencladesi.e.,itomitsirrelevanttaxa/clades branchingbetweenthecladesitjoins. doi:10.1371/journal.pone.0116671.g002 ThephylogeneticpositionsofthetribesGymnopleuriniandEurysterninihavebeenincon- stantfluxamongphylogeniesastheysupportdifferentplacementsofthesetwotribesasdem- onstratedinFig.2. ThestudieswithsufficienttaxonsamplingtotestthemonophylyofCoprini,uncoverits polyphyleticnature:twomorphologicalphylogenies[17,20]separateCopriniintotwoline- ages,whileamolecularandanothermorphologicalphylogenyseparateCopriniintothreeline- ages[11,25].Additionally,allfourphylogeniesrevealingpolyphylycontradicteachotherin theaffiliationofseparateCoprinilineages. Twomolecularphylogenies[24,25]supportmonophylyofNeotropicaltribesPhanaeini+ EucraniiniandtheirsisterrelationshiptotheNeotropicalgenusDichotomiusanditscloserela- tives.Conversely,twomorphologicalphylogeniesarenotconsistentwiththispattern,and placeEucraniiniassistertoCircellium+Scarabaeini[20]orrecoveracladecomposedofOni- tini+OnthophaginiwithinthecladePhanaeini+Eucraniini[11]. ManyphylogeniesareconsistentinthepositionofthegeneraSarophorus,Frankenbergerius, Coptorhina,Dicranocara,Odontolomaandallieswhichemergeasbasalornearlybasallineages [11,25,28,29];howeverrelationshipsbetweenthesegeneradifferamongthosestudies. Twomorphological[11,20]andmolecularphylogenies[25]confirmthesisterrelationship betweenCircellium(orCircellium+Ateuchus)andthetribeScarabaeini.However,twoother molecularphylogeniesplaceCircelliumaseithersisterofPedaria[28]orbelongingtoaclade consistingofthegeneraJanssensantus+Tanzanolus[29]. ThemolecularphylogenyofMonaghanetal.[25]recoversaninterestingcladecomprising almostallAustralasianendemicgenerawithNewZealand,NewCaledonia,andoneAfrican genusPedarianestedwithin.OnlytwoAustralasiangenera,BoletoscapterandMonoplistes,not fallingintheAustralasianclade,breakthemonophylyofAustralasianendemicgenerainthat PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 6/86 Morphology-BasedPhylogenyofScarabaeinae phylogeny.ThatstudyalsorecoversmonophylyforNewCaledoniangenera.Suchconsistency relatedtogeographymakesthisphylogeneticpatternquitemeaningfulbiogeographically,al- thoughnotsupportedbyanyotherphylogeneticstudy. TheevolutionaryscenarioforthemajorityofMadagascantaxaisalsocontradictory.Ac- cordingto[27],DeltochiliniincludesthreeseparatelineagesonMadagascar:Arachnodes+ Epilissus,Epactoides,andNanos+Apotolamprus.TheEpactoideslineageissistertotheOrien- talgenusOchicanthon,withwhomtheyformacladesistertotheAustralasiangenusMono- plistes;thisAustralasian—Oriental—Madagascanclade,inturn,issistertoanother MadagascanlineagecomprisingNanos+Apotolamprus.However,thelatterbiggercladeis weaklysupportedinthatanalysis(posteriorprobability0.54).Thesistergrouptothelineage Arachnodes+Epilissuswasnotinferredinthatstudyasthislineageendsinapolytomywith manyothertaxausedinthestudy.SimultaneousanalysisofMadagascanandAfrotropicaltaxa [29]corroboratesthedivisionofMadagascanscarabaeines[27]intothreelineages,and,addi- tionally,placestheEastern-ArcmountaingenusMadaphacosomawithintheEpactoides+ Ochicanthonlineage.However,thelargestmolecularphylogeny[25]mergesallthreeMadagas- canlineagesalongwithOchicanthonandMonoplistesinoneclade,andatthesametimeplaces EpilissussplendidusFairmaire,1889andArachnodessp.assistertotheNeotropicalgenus Trichilium. MaterialsandMethods Outlineofthemethodologicalprocedure Toconstructacharactermatrixforthephylogeneticanalyses,weperformeddetailedexamina- tionofendo-andexoskeletonmorphology(205characters)fortheselecteddungbeetletaxa (110species).Tomakeourstatementsofmorphologicalcharactersclearandusableinfurther researchwedocumentthembyprovidingillustrationsofalmostallcharactersused(seecharac- terreportandillustrations). Toinferphylogeneticrelationshipsweransixparsimonyanalyses(parsimonyanalysessec- tion).Inadditiontothem,weran184Bayesiananalysesusingdifferentschemesofcharacter matrixpartitioningtoinferphylogenetictreesandbestpartitioningscheme(Bayesiananalyses section).Thepartitioningofthematrixisbasedonourinnovativeapproachthatusesanatomy ontologytoguidethepartitioning(anatomyontologyconstructionsection). Illustrationsandabbreviations PhotosweretakenwithCanonEOS500DdigitalcameraattachedtoaLeicaMZ16microscope. Aedeagi,endophallicscleritesandsomeskeletalstructureswerephotographedinanalcohol- basedhandsanitizercomprisingadensegelthatwasusedtofixthepositionofstructuresfor photography.ThecolorschemesoftheendophallicscleritesweredrawninAdobeIllustrator. Thetechnicalnotesontheillustrationsareprovidedincharacterreportsection.Abbreviations usedinthetextandfiguresaredetailedinTable2. Taxonselection Theentiredatamatrixcomprises110taxa,4ofwhichcomprisetheoutgroup.Outgrouptaxa belongtothesubfamiliesAphodiinae:tribeAphodiini(AphodiuserraticusandPodotenusfulvi- ventris)andtribeAulonocnemini(Manjarivolosp.andAulonocnemiscrassecostataafricana) (S1Table).AphodiinaeareconventionallyconsideredthesistergrouptoScarabaeinae.This factgainssupportfromvariousmolecularandmorphologicalphylogenies[31–33].Theyshare 44synapomorphiesinmorphology-basedphylogenyofthefamilyScarabaeidae[34].However, PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 7/86 Morphology-BasedPhylogenyofScarabaeinae Table2.Abbreviationsusedinthetext. ? indicatesscleriteswithunclearhomology AcS accessorysclerites AIS additionalinferiorsclerite AMS additionalmedialscleriteoflamellacopulatrix AS additionalsclerite ADP anteriordepressionofpropleura ARP anteriorridgeofpropleuron A axialsclerite BSG basalscleriteofgalea BS basalscleriteofinternalsac BSSg basalscleritespiculumgastrale BSc basalsemicircularsclerite BFP basisternalfurcaofprothorax Blp basolateralparamerite Blp basolateralplate BShA borderdelimitingareaofheadshieldedbypronotum Br bristle Cav cavity CRP clypealrectangularpattern CxDp coxaldepression DASG dorsalarticularscleriteofgalea DPT dorsalprocessoftentorium ExL externallobe Eye eye FLP* fronto-lateralperipheralscleritemarkedwith*isnotconsideredtobehomologousto FLP FLP,FLP1,FLP2 fronto-lateralperipheralsclerite,fronto-lateralperipheralsclerite1(outer),fronto-lateral peripheralsclerite2(inner). Gl glossa GlFl glossalflap Gr groove InLM incisorlobeofmandibles IAS1,IAS2 inferioraccessorysclerite1and2respectively IL inferiorleftlobeoflamellacopulatrix ILb inferiorlobe IP inferiorportion IR inferiorrightlobeoflamellacopulatrix ICP internalcarinaofpronotum InL internallobe InS internalsack LC lamellacopulatrix LlS laterallabialsclerite LP lateralprocess MP medialperipheralsclerite MsArRp mesofurcalarm,rearprocess MtSc metascutellum MtEp metepisternum PIS parameralinferiorside PSS parameralsuperiorside PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 8/86 Morphology-BasedPhylogenyofScarabaeinae PhFS phallobasefrontalside PhRS phallobaserearside PhG pheromonegland pit pit Pit pitofdifferentorigin PRP posteriorridgeofpropleuron Pr projection PsnSt prosternalsternellum Ri ridge X scleriteofunknownhomology SclP sclerotizedplateofparameralinferiorside SclR sclerotizedroof ScP scutellumplate ScAP scutellum,apicalprocess setae setae TS spur-shapedlobeofA+?SAcomplex SA(SA1,SA2, subaxialsclerites(subaxialsclerite1,subaxialsclerite2,subaxialsclerite3). SA3) SL superiorleftlobeoflamellacopulatrix SLb superiorlobe SR superiorrightlobeoflamellacopulatrix SRP superiorrightperipheralsclerite S suture Sw swell TFP trochantofemoralpit Tub tubercle VPCAM ventralprocessofclypealanteriormargin VsSt ventralsurfaceofabdominalsternite WScP weaklysclerotizedpart doi:10.1371/journal.pone.0116671.t002 sinceAphodiinaestilllackanythoroughphylogeneticanalysis,thereisnorobustevidencethat couldsupportmonophylyofthisgroup.Giventhehighmorphologicalheterogeneityoftaxa withinAphodiinaeanditsnon-phylogenybasedsystematics,thereisahighprobabilitythat Aphodiinaemightbeparaphyletic(seealsoPhilips[31]).Therefore,forthepurposeofthecur- rentanalysisweselectedrepresentativesofAphodiinaesensustricto(i.e.,tribeAphodiini)and sensulato(i.e.,tribeAulonocnemini)toaccountforphylogeneticuncertainty.Wespecifically selectedthetribeAulonocnemini,whichisconsideredasubfamilybysomeauthors,sincethe speciesofthistribeshareanumberofcharacteristicscommonforScarabaeinaeandusuallyab- sentinotherAphodiinae.Thesecharacteristicsare:metatibiawithoneapicalspur,anterior portionofhypomerondepressed,protibiatruncatedapically.Thetaxonomicallydifferentout- grouptaxawereincludedfortheirpotentiallyinformativeinputinresolvingbasalrelationships inScarabaeinae. Theingrouptaxaweresampledtocovertaxonomic,biogeographic,andmorphologicaldi- versity.Theybelongtoall12tribesandto101generaofthesubfamilywhichrepresents37%of thetotalgenericdiversity(Scarabaeinaecurrentlytotalsca.258–267generaaccordingtoinfor- mationcompiledfromScholtzetal.[4]andFGpersonaldatabase).Thesamplingoftaxaacross taxonomiccategorieswasbiasedonpurpose.Accordingtotheavailablephylogeniesthemono- phylyofthemajorityofthetribesisalmostentirelyundoubted,exceptfortwotribes PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 9/86 Morphology-BasedPhylogenyofScarabaeinae Deltochilini(formerlyCanthonini)andDichotomiiniwhicharealwaysshowntobepolyphy- letic(seereviewofphylogeniessection).Together,thesetwotribescomprise146generaand arethemostgenera-richinthesubfamily.Therefore,inthepresentstudy,weselectedafew representativesfromthetribeswithsupportedmonophylyandconcentratedgreatestfocuson thetribesDeltochiliniandDichotomiinicoveringalmostallputativephylogeneticlineages.In thispaperthetribalclassificationforgenerafollowsthemostrecentlistofgeneraprovidedby Scholtzetal.[4]withsometaxonomicmodificationintroducedbyVaz-de-Mello[35]. Materialdeposition ThedepositionofmaterialforeachtaxonusedintheanalysesissummarizedinS1Table.The codonsusedinthetableareasfollows: (cid:129) CASCCaliforniaAcademyofSciences,SanFrancisco(N.Penny,D.Kavanaugh) (cid:129) CMNCCanadianMuseumofNature,Ottawa(F.Génier) (cid:129) CNCICanadianNationalCollectionofInsects,ArachnidsandNematodes,Ottawa(V.Gre- bennikovandB.Gill) (cid:129) cSTSergeiTarasovprivatecollection (cid:129) FMNHFieldMuseumofNaturalHistory,Chicago(M.ThayerandJ.Boone) (cid:129) MNHNMuseumnationald’Histoirenaturelle,Paris,France(O.MontreuilandA. Mantilleri) (cid:129) TMSADitsongNationalMuseumofNaturalHistory(formerlyTransvaalMuseum),Pretoria (R.Müller) (cid:129) UPSAUniversityofPretoria,Insectcollection(C.DeschodtandC.Scholtz) (cid:129) ZMUCNaturalHistoryMuseumofDenmark(A.Solodovnikov) Examinationofspecimensandmorphology Specimenswereeitherdry-pinnedoralcohol-preserved.Atleastonespecimenperspecieswas entirelydissected.ThenumberofmalesandfemalesdissectedperspeciesisgiveninS1Table. Inadditiontothedissectedspecimens,onaverage,weexamined1–3dry-pinnedspecimens perspeciestostudyexternalmorphologyanddissectaedeagi. Thedissectionprocessinvolvedthefollowingphases.Mainbodyparts(usuallyhead,pro- thorax,pterothorax,legs,wings,elytra,abdomen,genitalia)ofalcohol-preservedspecimens wereseparatedusingforceps/scalpelandplacedin10%KOHforseveralhoursorovernight; wingsweredirectlyplacedindistilledwater.Dryspecimensweresoftenedinwarmdistilled waterpriortoseparationoftheirbodyparts.AfterKOHtreatment,thespecimenswererinsed indistilledwater;aedeagusandspiculumgastralewereplacedinglycerinforstudyandperma- nentstorage;internalsacwasseparatedfromtheaedeagus.Theremainingtissueonthebody partswasremovedbywashingunderafinestreamofwater.Darkandstronglypigmented bodyparts,inwhichstructuraldetailsweredifficulttoobserveunderlightmicroscope,were bleachedwith3%hydrogenperoxidecontainingonedropofammoniumhydroxide.Thetime requiredforbleachingrangedfromfewminutestofewhoursdependingonthespecimensize anddesiredresult.Afterbleaching,thebodypartswererinsedindistilledwater,andalong withtheremainingdissectedelementsincludingwings,placedinabsoluteethanolforafew minutes;afterwhichtheywerepreservedinglycerinforstudyandpermanentstorage.We PLOSONE|DOI:10.1371/journal.pone.0116671 March17,2015 10/86
Description: