Assessing ecological and socio-political factors in site selection for ocelot reintroduction

Assessingecologicalandsocio-politicalfactorsinsite

selectionforocelotreintroductioninTexas

LindsayA.Martinez 1 |JasonV.Lombardi 2 |GarrettPowers3 | AmandaD.Anderson3 |TylerCampbell4 |RoelR.Lopez3

1DepartmentofRangeland,Wildlife,and FisheriesManagement,TexasA&M University,CollegeStation,Texas,USA

2CaesarKlebergWildlifeResearch Institute,TexasA&MUniversityKingsville,Kingsville,Texas,USA

3TexasA&MNaturalResourcesInstitute, TexasA&MUniversity,CollegeStation, Texas,USA

4EastFoundation,SanAntonio, Texas,USA

Correspondence

LindsayA.Martinez,Departmentof Rangeland,Wildlife,andFisheries Management,TexasA&MUniversity, 495HorticultureRd,CollegeStation,TX 77843USA.

Email: lindsay.martinez14@gmail.com

Presentaddress

JasonV.Lombardi,WildlifeHealth Laboratory,CaliforniaDepartmentofFish andWildlife,RanchoCordova, California,USA.

Fundinginformation

USFishandWildlifeService;TexasA&M UniversityDepartmentofRangeland, Wildlife,andFisheriesManagement

Abstract

Wildlifereintroductionsiteselectionrequirestheconsiderationofnotonlya species'ecologybutalsosocio-politicalfactorsthatmayimpactconservation efforts.Thesesocio-politicaldimensionsmaybeespeciallyimportantfor endangeredcarnivorereintroductionsonprivatelandsintheUnitedStates, wherelandownersupportforthereintroductionisanecessitygivenlandowner concernsaboutecologicalandlegalimpactsofcarnivorerestoration.We designedanassessmenttoidentifypotentialsitesforreintroductionofthefederallyendangeredocelot(Leoparduspardalispardalis)inTexas,astatewhere over97%oflandsareprivatelyowned.WeincorporatedInternationalUnion forConservationofNaturerecommendationsintoageospatialanalysisevaluatingpotentialreintroductionsitesbasedonsitesize,ecologicalandlifehistoryrequirementsofocelots,potentialnaturalandanthropogenicthreats,and thesocio-politicalcontextofeachsite.Weidentifiedthefivehighest-ranking sitesthathadspecies-specificsuitablelandscapestructureofwoodycover, fine-scalevegetativecover,minimalnaturalandanthropogenicthreats,and thatpresentlandownershippatternsthatarelogisticallyfeasibleforconservationplannerstonavigate.Ourassessmentprovidedinformationforocelot conservationplanningandestablishedaframeworkforincorporatingprivate landdataintolarge-scaleassessmentsofwildlifereintroductionsitesonprivate lands.

KEYWORDS

conservationplanning,mammals,NorthAmerica,privatelands,remotesensing,threatened species

1 | INTRODUCTION

Felidsarecommonsubjectsofconservationreintroductionprogramsduetofelidpopulationdeclinesandsevere rangecontractions,theimportanceofrestoringthe

ecologicalrolesofpredatorspecies,andthehighintrinsic valueandassociatedpublicinterestinconservingfelids (Seddonetal., 2005).Thoughfelidreintroductions arecommon,theyarenotalwayssuccessful,andthepoor performanceofmanywildlifereintroductionefforts Received:30May2023Revised:19February2024Accepted:27February2024

suggestsaneedforimprovedplanning(Fischer& Lindenmayer, 2000;Juleetal., 2008;Thomas etal., 2023).Whilereintroductionsiteselectionclearly mustincludeanevaluationofecologicalandlifehistory requirementsforspeciessurvivalandpopulationestablishment,socio-politicaldimensionsmustalsobeconsideredtofullyevaluatethefeasibilityofareintroduction program(Behretal., 2017;Carveretal., 2021;Ditmer etal., 2022;Grayetal., 2017;IUCN/SSC, 2013;Reading etal., 2002;Watkins, 2020).Thismaybeespecially importantforcarnivorereintroductions;globally,reintroductionplanningeffortsforfelidsorothercarnivores mustaddresspotentialhuman-wildlifeconflictconcerns, suchasthepossibilityofdepredationofwildlifepopulationsonprivatelyownedlivestock(Drouilly& O'Riani, 2021).Whenassessingcarnivorereintroduction sites,accountingforsocio-politicaldimensionssuchas presenceofprotectedareas,spatialpatternsinlandownership,expectedcarnivore-humantolerance,andlivestockstockingratescanprovideaclearerpictureofthe potentialsocio-politicalissuesatdifferentreintroduction sitesandtheecological-socialtradeoffspresentateach site(Connolly&Nelson, 2023;Ditmeretal., 2022; Pratzeretal., 2023).

AcrossNorthAmerica,levelsofprivatelandownershipvary,andprotectedlandscansometimesfailtomeet conservationrequirements(Clancyetal., 2020;Jenkins etal., 2015).IntheUnitedStates,endangeredspecies conservationmayalsobecomplicatedbysomeprivate landowners'concernsthatthepresenceofspeciesprotectedundertheEndangeredSpeciesAct(ESA)ontheir landswillleadtofederalregulationsthatrestrictlanduse andhabitatmodifications(Hansenetal., 2018).Thiscan makeconservationandrestorationofendangeredspecies intheUnitedStatesdifficult.Historically,someprivate landownersintheUnitedStateshavemanagedtheir landstopreventoccupancybyendangeredspeciesor haveconcealedinformationconcerningpresenceof endangeredspeciesontheirproperties(Lueck& Michael, 2003).Assuch,endangeredspeciesreintroductioneffortsintheUnitedStatesthatoccuroutsidepubliclyownedorotherdedicatedprivateconservationlands (e.g.,landtrustsandpreserves)requireestablishingregulatoryassurancedocumentation(e.g.,SafeHaborAgreements)withlandownerstoobtaintheirsupportfor reestablishmentofendangeredspeciesontheirproperties (Bork, 2011).

IntheInternationalUnionforConservationof Nature(IUCN)SpeciesSurvivalCommission(SSC) guidelinesforspeciesreintroductions(IUCN/SSC, 2013), IUCNrecommendsreintroductionsites:(1)arelarge enoughtosupportaviablepopulationofreintroduced species;(2)meetaspecies'ecologicalneedsatallrelevant

scales;(3)havereducedthreatstothespecies(including abatementofthehistoricthreatsthatcausedthedecline ofthespeciesandreducedthreatsfrompresentcatastrophicevents);and(4)aresocio-politicallyfeasiblefor reintroduction(IUCN/SSC, 2013).Inshort,IUCNsuggestsconsideringecology/lifehistory,size,abatementof humanandnaturalthreats,andsocio-politicalfactorsin choosingareintroductionarea.

Publishedassessmentstoidentifysitesforfelidreintroductionshavefocusedonecologicalfactorssuchas landcovertypeorvegetationcommunity,preybase,size andconnectivityofhabitat,andremotenessfromhuman encroachmentonhabitat.Examplesincludeassessments ofFloridapanther(Pumaconcolorcoryi)reintroduction sitesinFlorida(Thatcheretal., 2006);tigerreintroductionsitesinChina(Hebblewhiteetal., 2012;Qin etal., 2015);Europeanwildcat(Felissilvestris)reintroductionsitesinEurope(Klaretal., 2008);EurasianlynxreintroductionsitesinEurope(Hetheringtonetal., 2008; Schadtetal., 2002);IberianlynxsitesontheIberianPeninsula(Garroteetal., 2020);andreintroductionsites throughoutAsiaforseveralleopardsubspecies(Chiang etal., 2015;Gardener, 2020;Hebblewhiteetal., 2011). However,thesefelidreintroductionsiteassessmentslack considerationofsocio-politicalfactorsintheirdeterminationofsuitablereintroductionsites.

Theocelot(Leoparduspardalis spp.)isamediumsizedfelidconsideredleastconcernrange-widebutclassifiedasfederallyendangeredinseveralrangecountries, includingtheUnitedStates,wherepopulationexpansion viareintroductionisneededforrecovery(USFishand WildlifeService, 2016).IntheUnitedStates,ocelotshistoricallyoccupiedArizona,variousregionsofsouthern, central,andeasternTexas,andthewesternpartsof ArkansasandLouisiana(USFishandWildlife Service, 2016).However,bythemid-20thcentury,habitat loss,pettrading,furtrapping,andpredatorcontrolpracticesnearlyextirpatedocelotsfromtheUnitedStates (USFishandWildlifeService, 2016).Today,the UnitedStateshasonlytwoknownbreedingocelotpopulations,whicharetheorizedtonumberupto100individualspersistingindeepSouthTexasalongtheGulfof Mexico(Figure 1,Lombardietal., 2021).Thelarger oftheremainingpopulationsinTexasistheRanchOcelotPopulation,whichexistsonprivatelyownedworking ranchesinWillacyandKenedyCounties.Thesmaller RefugeOcelotPopulation(16–20ocelots)isfoundinand aroundLagunaAtascosaNationalWildlifeRefugein CameronCounty(Lombardietal., 2022).

ThetwoTexasocelotpopulationsoccurinvegetation communitiescontainingliveoak(Quercusvirginiana), palm(Sabal spp),andmesquite(Propsisglandulosa) woodlandsandforestswithopentodensepatchesof

FIGURE1 Thestudyareaassesses potentialocelotreintroductionsitesin thelower116,480km2 ofTexas, UnitedStates,whichisattheperiphery ofthenorthernhalfoftheocelot's (Leoparduspardalis)geographicrange andcurrentlyhasonlytwoknown populations.

thornshrubandherbaceous(i.e.,cordgrass[Spartina sp.] andinvasiveguineagrass[Megathyrsusmaximus]) understories(Lehnenetal., 2021;Lombardietal., 2021; Sergeyevetal., 2022).Suitablelandscapestructureof woodycoverforocelotsinTexashasbeendescribedas large,adjacentwoodypatchesoccurringinlowdensities onthelandscape(Lombardietal., 2021).Acrosstheir geographicrange,ocelotsinhabitavarietyofmixedand densevegetationcommunitiesandforestedpatches, includingtropicaldeciduousforests(Lombardi,Haines, etal., 2022),pine-oakwoodlands(Gomez-Ramírez etal., 2017),tropicalbroadleafforests(Satteretal., 2019), savannaandgalleyforests(Pavioloetal., 2015)andsemiaridoakandshrubcommunities(Lehnenetal., 2021; Lombardietal., 2021).

Thesmallknownrangeofocelotpopulationsinthe UnitedStates afewcountiesincoastalsouthern Texas makesocelotsvulnerabletopotentialextirpation duetoalocalcatastrophicevent,suchasadiseaseoutbreak,mega-wildfire,orseverefloodingfromamajor hurricanes.Majorhurricanesareaparticularconcernfor Texas'socelots,whichoccurnearlow-elevationareas (<50m)neartheintercoastalLagunaMadreoftheGulf ofMexico.Inthefuture,climatechangemayincrease wildfirerisk(DiVirgilioetal., 2019)andsealevelrise

(Sweetetal., 2022)andleadtoincreasedfrequencyand severityoftropicalcyclonesandassociatedflooding (Knutsonetal., 2020),whichmaythreatenspeciesoccurringalongcoastlines.

Thereintroductionofanadditional,geographicallydistinctocelotpopulationinTexasisneededtoensuresurvivalofocelotsinTexasandintheUnitedStatesinthe caseofacatastrophiceventsuchaswildfire.ItalsoisnecessarytoincreasethenumberofocelotsintheUnited Statestoachieverecoveryfromendangeredspeciesdesignation(USFishandWildlifeService, 2016).Selectionofa siteforreintroductionofanadditionalpopulationofocelotsintohistoricbutunoccupiedhabitatinsouthernTexas providesuniquechallengesforafelidreintroductionplanningeffortbecauseover97%oflandinTexasisunderprivateownership(LeslieJr, 2016;Lombardietal., 2022).As such,privatelandsalmostcertainlymustplayarolein ocelotreintroductioninTexas,andprivatelanddynamics suchasownershipfragmentationandlandownerconcerns aboutlegalimplicationsofendangeredspeciespresence mustbeaccountedforinsiteselection.Thisnecessitates specialconsiderationofsocio-politicalfactorswhendeterminingareintroductionsite,asbothsupportandcoordinationfromprivatelandownersareneededtoimplement anocelotreintroductioninTexas.

Amulti-institutionalcollaborativestudy(https:// RecoverTexasOcelots.org)wasestablishedin2021to partnerstateandfederalwildlifeagencies,academicinstitutions,conservation-minded non-governmentalorganizations,andprivatelandownerstoexaminethefeasibilityof reintroducinganadditionalocelotpopulationtoaportion ofitshistoricbutnowunoccupiedrangeinsouthernTexas withinandproximatetotheecoregionscurrentlyoccupied byocelotsinTexas.Aninitialobjectiveintheeffortwas theuseofIUCNguidelinesforreintroduction(IUCN/ SSC, 2013)inalarge-scalegeospatialassessmenttoidentify possiblereintroductionsitesbasedonspeciesecologyand socio-politicaldimensions.Wedesignedanassessmentto identifysiteswithhighecologicalsuitabilityforocelot occupancyaswellasminimalnaturalandanthropogenic threatstoocelots.Furthermore,recognizingtheneedfor sitestobesocio-politicallyandlogisticallyfeasibleforocelotreintroduction,weconsideredpatternsinlandownershiptoidentifythemostsuitablepotentialreintroduction sites.Collectively,weusedthisinformationtoidentify potentialreintroductionsitesthatwereevaluatedascandidatesforfutureocelotreintroductions.Ourworkwasused toselectasiteforinitialocelotreintroductioneffortsin southernTexas,andithasprovidedamodelfortheincorporationofprivatelandinformationintoassessmentsof potentialwildlifereintroductionsitesthatoccurinregions composedpartlyorevencompletelyofprivatelands.

2 | METHODS

2.1 | Studyarea

Weanalyzedapproximatelythesouthernone-third (lower46counties)ofTexas(approximately116,480km2; Figure 1)asthisareaispresumedtobehistoricocelot habitat(USFishandWildlifeService, 2016).ThesouthernthirdofTexasencompassesavarietyofecoregions. Thenorthernmostportionofthestudyareaisthe EdwardsPlateauregion,whichcontainsashejuniper (Juniperusashei)andliveoakwoodlandsandcanyonlands.Thecenterofthestudyareacontainsthesouthern Texascoastalplainsregion,whichisprimarilyliveoak andmesquitewoodlandswithextensiveTexasTamaulipanthornshrubcommunities.Finally,thesouthernmostpartoftheregion whichincludestherangeof existingocelotpopulations containstheLowerRio GrandeValleyandRioGrandeDeltaofthewesternGulf coastalplain,whichischaracterizedbysubtropicaland tropicalvegetationcommunities,extensiverow-cropagriculture,andahighlyurbanizedbi-nationalmetropolitan area(Griffithetal., 2007;LeslieJr, 2016).

Wetookatwo-stepapproachtoassessocelotreintroductionsitesinthestudyarea,beginningwithan

assessmentofrelevantfactorsatamacro-scalefollowed byanassessmentofhabitatatafinescale.Metricsatboth scaleswerecalculatedusingRstatisticalsoftware(RCore Team, 2020).Theapproachesinourstepwiseprocessare describedbelow.

2.2 | Macro-scaleassessment

2.2.1|Ecological/lifehistoryfactors

Weusedpublishedassessmentstoidentifylandscapescaleecologicalfactorsthatpredictocelothabitatin Texas.Ocelotsuselargepatchesofwoodycoverwith characteristicmeasuresoflowlandscapeshapeindex, aggregationindex,edge,andpatchdensityinadditionto highpercentagesofwoodycoverandlargestpatchindex (seeTable2inLombardietal., 2021).Usingthesemeasures,Lombardietal.(2021)publishedamapofsuitable landscapestructureofwoodycoverforocelotsinthe southernmost19countiesofTexas.Wereplicated themethodsfromLombardietal.(2021)usingtheocelot'soptimalrangeofvaluesforeachlandscapemetricto expandthemapofhighlysuitablelandscapestructureof woodycoverforocelotsacrossourentirestudyarea.We chosetolimitourconsiderationofmacro-scaleecological factorstolandscapecovertype(woody,herbaceous,bare ground,cropland,urban,orwater)andstructure (Lombardietal., 2021).Wedidnotincludeassessments ofpreydistributionsbecauseocelotsaredietarygeneralists(deVillaMezaetal., 2002;Morenoetal., 2006).In SouthTexasspecifically,ocelotshavebeenfoundtoconsumeninespeciesofsmallrodentspluswhite-taileddeer (Odocoileusvirginianus),black-tailedjackrabbit(Lepus californicus),easterncottontail(Sylvilagusfloridanus), andseveralspeciesofbirdsandreptiles(Booth-Binczik etal., 2013).Whileamodelofpreydistributionmaybe necessaryforidentifyinghabitatforadietaryspecialist, webelievedtheocelot'sgeneralistdietdidnotnecessitate suchanevaluation.

2.3 | Naturalandhumanthreatsto ocelots

Wenextremovedareasofsuitablelandscapestructureof woodycoverwhereareintroducedocelotpopulation couldbenegativelyimpactedbynaturalandhuman threats.First,weconsideredmajorhurricaneimpacts (i.e.,stormsurgeflooding)becauseonegoalofthereintroductionistoestablishanocelotpopulationthatwill notbeimpactedbystochastic,andpotentiallycatastrophic,majorhurricanes.WeusedtheNationalOceanicandAtmosphericAdministration'sSea,Lake,and

OverlandSurgesfromHurricanesmodel(SLOSH; Zacharyetal., 2015)toidentifyareasatriskofinundationduringstormsurgesassociatedwithhurricanes.We usedSLOSH'sMaximumoftheMaximumEnvelopeof WaterCategory5output,whichisanensembleproduct ofmaximum “worse-casescenario” stormsurgepredictionsfrommultiplehurricanesimulationsfortheSaffirSimpsoncategory5(Stockdon&Thompson, 2007).We thenremovedsuitablelandscapestructureofwoody coverwheremaximumstormsurgeinundationwaspredictedtobeatleast0.30meters(onefoot)aboveground leveltoaccountforpotentialfloodingofocelothabitat.

Next,weconsideredhumanthreatstoocelots.Given thatroadwaysarethelargestknownsourceofmortality fortheRefugeOcelotPopulationinTexas(Blackburn etal., 2022)andthatocelotresourceuseisgreatestat least1kmfromhigh-trafficroadways(Vealsetal., 2022), weremovedsuitablelandscapestructureofwoodycover within1kmofanyhightrafficroadway,definedasa roadwaywithAnnualAverageDailyTrafficofatleast 1000vehicles/day(TexasDepartmentofTransportation, 2021).Then,weaccountedforpotentialhabitatlossdue tolanddevelopmentbyremovinganysuitablelandscape structureofwoodycoverpredictedtobedevelopedby 2050accordingtotheIntegratedClimateandLand-Use Scenariosdataset(Version2.1.1withSSP2andRCP4.5 Pathways,USEnvironmentalProtectionAgency, 2010).

Finally,weidentifieddistinctpatchesofsuitablelandscapestructureofwoodycoverbasedontheremaining suitablelandscapestructureavailablefollowingtheprevioussteps.Todothis,weusedamovingwindowanalysis todeterminetheproportionofsuitablelandscapestructureofwoodycoverwithinaneighborhood(window)of eachsuitablecell.Weusedawindowsizeof0.86km2, whichrepresentedabalancebetweencomputersystem processingrequirementsandthedailymovementrange ofanocelot,whichhasbeenestimatedat1.5km2 in Texas(Blackburnetal., 2022).Cellsofsuitablelandscape structureofwoodycoverwithaneighborhooddensityof lessthan75%suitablelandscapestructureofwoodycover wereremovedfromfurtherconsiderationwhileremainingcontinuouscellsweredelineatedintodiscrete patches.

2.4 | Rankingpatchesbyincluding socio-politicalfactors

Afteridentifyingcontinuouspatcheswithsuitablelandscapestructureofwoodycoverdistinctfromlikely threatstoocelots,weuniquelyidentifiedandranked patchesbasedonpatchsize(km2),threatstoocelots,and socio-politicalconsiderationsbyusingSpatialAnalyst

toolsinArcGISPro(ESRI, 2020).Toaccountforsociopoliticalfactorsthatmayinfluencethefeasibilityofocelotreintroductiononprivatelands,weincorporatedland ownershipdata(TexasNaturalResourceInformation System, 2021).Weidentifiedindividuallandholdings (parcels)withindiscretepatchesofsuitablelandscape structureofwoodycover,consideringadjacentparcels ownedbythesamelandownerasoneparcel,and extractedthesizeofeachparcel.Wealsodistinguished allareasofprotectedlandunderfederal,state,orlocal ownershiporprivateconservationorganization (e.g.,landtrusts)ownershipthatwerewithin25kmof eachpatch(TexasNaturalResourceInformation System, 2021).Webelievedthat,whenimplementingan ocelotreintroductionandseekinglandscape-scaleconservation,itispreferabletominimizeownershipboundaries andtocoordinatewithasmallnumberoflandowners whoownlargeparcelsversusmanylandownerswho eachownasmallparcel.Furthermore,weassumedthat eachreintroductionpatchneedsalargeownershipparcel toserveasacentrallocationforocelotreintroduction activities.Wedefinedlargeownershipparcelsasland holdingsofatleast25,000acres(approximately101km2), whichwouldbelargeenoughtosupportabout8–10male ocelothomerangeswith2–3femaleocelotsper male(USFishandWildlifeService, 2016.).

Foreachpatch,wecalculatedseveralmetrics:(1)area (km2)ofsuitablelandscapestructureofwoodycover, (2)degreeoflandownershipfragmentationinthepatch (i.e.,areaofpatchdividedbythenumberofuniquelandownersinthepatch),(3)area(km2)ofthepatchfound withinlargeownershipparcelsofatleast25,000acres (approximately101km2),(4)size(km2)ofthelargest ownershipparcelinthepatch,and(5)minimumdistance (m)betweentheboundaryofthelargestparcelinthe patchandthenearesthightrafficroad.Foreachpatch, wecalculatedthenormalizedvalueofeachmetricby subtractingtheminimumvalueofallpatchesfromthat patch'svalueandthendividingbythedifferencebetween themaximumandminimumvaluesofallpatches.Each patch'sfinalscoringwascalculatedasthemeanofallfive normalizedmetricvalues,whichwereallconsidered equallyimportant.Patcheswererankedbasedontheir meannormalizedscore,andthefivehighest-scoring patcheswerefurtherevaluatedbasedonsocio-political considerationsandfine-scaleassessmentofecology.

Afteridentifyingthehighest-scoringpatches,wealso gatheredhigh-levelsocio-politicalinformationaboutthe patchestoprovideinformationaboutprivatelandowner valueswithineachpatchandtoinformfuture landowneroutreachatpatches.Weobtainedgeneral informationaboutprivatelandownerswithinthepatches fromlocalprojectpartnerswhoparticipateinprivate

landconservationandwildliferesearchinSouthTexas andarefamiliarwithlandownersthere.Thesepartners includedtheTexasParksandWildlifeDepartment (TPWD),CaesarKlebergWildlifeResearchInstitute (CKWRI)atTexasA&MUniversity-Kingsville,andthe EastFoundation,aprivatelandownerandmemberofthe SouthTexasPropertyRightsAssociation.Wequeried thesepartnersontheirknowledgeoflandowners'likely attitudestowardcollaboratingwithagenciesanduniversitiesonthereintroductionofafederallyendangeredcarnivorespeciesonandaroundtheirlands.Wedidnot conductaformalsurveyofalllandownersinthepatches orcontactanyspecificlandownersinthehigh-ranking patchestoavoidcreatingpossiblepublicconcernabout ocelotreintroductionduringtheearlyplanningstagesof theprogram.Webelievedthatdirectcontactwithspecific landownersinthepatcheswouldbeanecessaryfollowupactiononourassessmenttoprovidemoredetailed dataonthewillingnessoflandownerstoallowareintroductioneffortontheirlandsandtoparticipateinthe effort.

2.5 | Fine-scaleecologicalassessment

Afteridentifyingthetop-rankingpatches,weagain assessedecologicalfactors,thistimeevaluatingvegetation(includingwoodyandherbaceousvegetation)ata finescalewithinthehighest-rankingpatches.Weused LightDetectionandRanging(LiDAR)metrics (USGeologicalSurvey, 2018a, 2018b, 2018c, 2019)to identifyappropriatefine-scalevegetationcharacteristics forocelots.Weevaluatedtwovariablesderivedfrom AerialLiDARScan(ALS)thatmayinfluenceocelothabitatuseatafinescale:canopyheight(m)andunderstory vegetationdensity(Sergeyevetal., 2022).WeusedtheR packagesLidR(Version1.0.4;Rousseletal., 2020)and raster(version3.4-5;Hijmans&vanEtten, 2012)toprocessALSdataforthesemetricswithin30-mgridcells. Wecalculatedcanopyheightasthe95thpercentileelevationvalueinmetersabovegroundlevelforallpoints locatedwithineach30-mgridcell.Werepresentedvegetationdensityintheunderstoryusingthenormalizedrelativepointdensity(NRD)metric,whichisameasureof LiDARpointdensitywithinaspecificverticalstratum (USDepartmentofAgricultureForestService, 2021).We calculatedNRDwithineach30-mcellbydividingthe totalnumberofLiDARpointsbetween0.5and1mabove groundlevelbythetotalnumberofpointsbelow1m abovegroundlevel.Weselectedthisheightfilterbecause ocelots,whichstandabout0.5minheight,havebeen documentedselectingforvegetativecovernear1min heightwhilerestingandhunting(Sergeyevetal., 2022,

2023).Weappliedalogarithmictransformationtothe NRDvaluestoreduceskewnessindata.

Weidentifiedtheaveragecanopyheightandvegetationdensityatknownocelotlocationsusingdatafrom 12ocelots(4adultmales,8adultfemales)thatweremonitoredontwoprivaterancheswithintheRanchOcelot Populationfrom2017to2022(Lombardietal., 2021; Sergeyevetal., 2022).Monitoredocelotswereequipped withGPScollarsthatrecordedlocationsevery0.5–1h overadurationof4–9months(Lombardietal., 2021; Sergeyevetal., 2022).Wecharacterizedsuitablefinescalecoverforocelotsinthereintroductionpatchesas withinathresholdoftwostandarddeviationsfromthe meansforeachmetricmeasuredintheknownocelot locations(log-transformednormalizedvegetationdensity meanwas 2.23andstandarddeviation1.13;meancanopyheightwas5.83mwithstandarddeviation1.23m). Inthehighest-rankingpatchesofsuitablelandscape cover,weclassifiedpixelswithinthethresholdsforboth metricsassuitablefine-scalevegetativecoverforocelots. Then,weappliedthesamemovingwindowanalysisused earliertoidentifydenseandcontinuouspatchesoffinescalevegetativecoverwithinthehighest-rankingpatches ofsuitablelandscapecover.

Finally,weestimatedthecarryingcapacityforeach patchbasedonitsareaofidentifiedsuitablelandscape structureofwoodycover(maximumestimatedcarrying capacity),andfine-scalevegetativecover(minimumestimatedcarryingcapacity),andrecentpopulation estimatesincomparablehabitatsinNortheasternMexico ( 11.6ocelots/100km2;Lombardietal., 2022)and southernTexas(17.6ocelots/100km2;Lombardi etal., 2022).Thenorthernmostofthehigh-ranking patchesweidentifiedoccurintheTexasHillCountry, whichischaracterizedbyelevation>300manddeciduousandevergreenforests;therefore,wecalculatedcarryingcapacitytherebasedonestimatesfromthe mountainousareasoftheSierraTamaulipasinnortheasternMexico.TheCentralandSouthernpatchesweidentifiedhavesimilarvegetationcommunitiestothose currentlyoccupiedbyocelotsinsouthernTexas,sowe useddensityestimatesfromexistingocelotpopulations insouthernTexas(17.6ocelots/100km2;Lombardi etal., 2022)toestimatecarryingcapacityintheSouthern andCentralpatches.

3 | RESULTS

Wefoundthatthemajorityofourareaofinterestin southernTexashadsuitablelandscapestructureof woodycoverforocelots(Figure 2A)thatwasalsoremote fromanticipatedanthropogenicornaturalthreatsto

suitablelandscapestructureofwoodycoverthatremainedafterareaslikelytoimpactedbyhumanornaturalthreatstoocelots(i.e.,areas within1kmfromhigh-trafficroadwaysorareasoffutureurbandevelopmentorstormsurgefromCategory5majorhurricanes)were removed,(C)thehighest-rankingpatchesofremainingsuitablelandscapestructureofwoodycover(basedonpatcharea[km2],ownership fragmentation,areawithinlargeparcelsexceeding101km2,areaofthelargestsingleparcel,anddistancebetweenthelargestparcelanda high-trafficroadway),(D)andthelocationofhighest-rankingpatcheswithinecoregionsinTexas.

ocelotsthatmustavoidedinareintroduction(Figure 2B). Byrankingdiscretepatchesofsuitablecontiguouslandscapestructureofwoodycoverbasedonsize,degreeof landownershipfragmentation,totalareaoflarge (≥101km2)parcels,sizeofthelargestparcel,andremotenessofthelargestparcelwithineachpatchfromahigh-

trafficroad,wefoundthatfivepatchesemergedfromour criteriaasthehighest-rankingpossiblereintroduction sites(Table 1).Assessmentofcanopyheightandunderstoryvegetationdensityatafinescalewithinthesefive patchesusingLiDARshowedthatsuitablefine-scalevegetativecoverwaspresentinallpatches(Figure 3).The

TABLE1 Normalizedmetricandmeanscores,onascalefrom0to100,forthetopfivehabitatpatchesarereported.Higherscores indicateagreatersuitabilityrelativetoallotherpatches.

Patch

Areaofsuitable landscape structure Areawithinlarge parcels(>25,000 acres)

Sizeof largest parcel Distancefromthelargest parceltothenearest high-trafficroad Land ownership fragmentation Mean score

TABLE2 Areasofsuitablelandscapestructureofwoodycoverandfinescalevegetativecoverandestimatedmaximumandminimum carryingcapacityvalues,respectively,forthefivehighest-rankingpotentialocelot(Leoparduspardalispardalis)reintroductionpatches identifiedacrossthesouthern46countiesofTexas.Carryingcapacitieswerequantifiedbasedonthetotalavailableocelot-specificsuitable landscapestructure(maximum)andfinescalevegetativecover(minimum)basedonstudiesinsimilarhabitatandelevationalzonesin Texas(17.6/100km2 Lombardi,Sergeyev,etal., 2022)andNortheasternMexico(11.6ocelots/100km2;Lombardi,Stasey,etal., 2022).

Patch

Areasuitable fine-scale vegetative cover(km2)

Areafinescale vegetativecoverin largestsingle ownershipparcel inpatch(km2)

Areasuitable landscape structureofwoody cover(km2)

Estimatedocelot densityfrom literature

North11450181154811.6/100km2

North251914158811.6/100km2

fivepatcheshaveawidegeographicextentinTexas,and theyrepresentdiverseecologicalcommunities;delineationbasedonLevelIVEcoregions(USEnvironmental ProtectionAgency, 2013)showsthattheCentralpatches andSouthpatcharelocatedwithintheTexasTamaulipanthornshrubecoregionwhilethetwonorthernpatchesareatanexusbetweenBalconesCanyonlands,EdwardsPlateauWoodland,andSemiarid EdwardsBajadaecoregions(Figure 2D).

Theareaofsuitablelandscapestructureofwoody coverandfine-scalevegetativecovervariedbetweentop patches,asdidexpectedcarryingcapacitiesandland ownershippatterns(Table 2).TheNorthpatches (Figure 3A)wereadjacentpatchesseparatedbyahightrafficstatehighwaywithalarge,combinedareaofsuitablelandscapestructureofwoodycover(2136km2)and fine-scalevegetativecover(1969km2).Estimatedcarryingcapacitiesacrossbothareascombinedrangefrom 228.40to247.77ocelots(Table 2).TheNorthpatcheshad themostpotentialforconnectivitytoprotectedlands. Bothpatcheswerecomposedpartiallyofprotectedlands, andtherewerenetworksofprotectedlandstoboththe

Estimated minimum carrying capacity Estimated maximum carrying capacity

eastandwestofthepatches.Regardingprivatelands, TPWDbiologistsreportedthatmanylargelandownersin theareawereconservation-mindedandmaybeagreeable toanocelotreintroductionprojectonandaroundtheir lands.However,thelargestknownlandholdinginthe area,theBriscoeRanch,currentlyhasapubliccontroversyoverpropertyownership.

Thelargestidentifiedpatcheswerethecentral patches,whichwereadjacentbutseparatedbyahightrafficstatehighway(Figure 3B).Combined,thesetwo adjacentpatcheshadthelargesttractsofsuitablelandscapestructureofwoodycover(2780km2)andfine-scale vegetativecover(1921km2)withestimatedcombined carryingcapacitiesrangingfrom338.10to489.28ocelots (Table 2).ThepatchesareborderedbyanInterstate,state highways,andcountyFarm-to-Marketroads.Whilethere wereseverallarge(>101km2)privateparcelsinand aroundthepatches,therewasonlyoneprotectedareain Centralpatch1andnoneinCentralpatch2.Furthermore,therewerelimitedprotectedlandsinthevicinity oftheCentralpatches.Biologistsfromprojectpartners includingCKWRIandTPWDexpressedconcernabout

FIGURE3 Withinthefivehighest-rankingpotentialocelot(Leoparduspardalispardalis)reintroductionpatchesidentifiedacrossthe southern46countiesofTexas,suitablefine-scalevegetativecover,identifiedusingLiDARanalysisofcanopyheightandshruband herbaceous-levelvegetationdensityat0.5–1minheight,overlaidonsuitablelandscapestructureofwoodycover.

privatelandownertoleranceofocelotreintroductionin thesepatchesbecauseseverallandownersinthepatches havepreviouslyexpresseddisinterestinacknowledging thepresenceofendangeredspeciesontheirproperties. Partnersbelieveditwouldbenecessarytofurtherstudy landownerattitudesinthisareatoassesswhetheritmay bepossibletoobtainlandownersupportforocelotreintroductionthroughouttheCentralpatches.

TheSouthpatchwasthesmallest(Figure 3C)inthe extentofsuitablelandscapestructure(478km2)andfinescalevegetativecover(363km2)andhadthelowestestimatedcarryingcapacity(63.89–84.13ocelots).Itwasalso themostremotefromhigh-trafficroadways,asitisnear multiplecountyFarm-to-MarketroadsbutnoInterstates andonlyonestatehighway.Thepatchincludedonlyone protectedarea,whichisfoundatthesouthernperiphery ofthepatch,andthereisanetworkofprotectedareasto thesouthofthepatch.Thelargestprivateparcelinthe patchisownedbyprojectpartnertheEastFoundation, anAgriculturalResearchOrganizationthathasamission toremainaworkingcattleranchandpromotelandstewardship,inperpetuity.CKWRIandTPWDreportedpositiveworkingrelationshipswithotherprivatelandowners inthepatchandagreedthatthismayaidinearningprivatelandownersupportforocelotreintroduction,though theEastFoundationneededtoconsultwithitsneighboringpropertiesmorecloselytoassesstheirtolerancefor ocelotreintroductionintheSouthpatch.

4 | DISCUSSION

Weusedageospatialapproachtoanalyzethesouthern 46countiesofTexastoidentifythefivehighest-ranking patchesthatmaybefurtherassessedassuitablesitesfor thefuturereintroductionofanadditionalocelotpopulation.Weidentifiedthehighest-rankingpotentialreintroductionpatchesbasedonIUCNrecommendationsfor selectingreintroductionsitesbasedonecology,size, humanandnaturalthreats,andsocio-politicaldimensionsoflandownership(IUCN/SSC, 2013).Theinclusion ofsocio-politicalinformationinourmodel,including spatiallandownershipdatarelevanttothecoordination ofnavigatinglandownershippatterns,andhigh-level knowledgeoflikelyprivatelandownerattitudestoward endangeredspeciesreintroductionatpossiblepatches wasuniqueforafelidreintroductionsiteassessment.The inclusionofsocio-politicalinformationwasmandatory consideringthatTexasismajority(>97%)privately ownedandanyocelotreintroductioninTexaslikelymust occuronprivatelands.Indeed,wefoundthatthemajorityoflandsinandaroundthefivehighest-rankingpotentialocelotreintroductionpatchesinTexaswereprivately

owned,andtherewerelimitedprotectedlandswithin 25kmofthepatches.Thiswasparticularlytrueforthe CentralpatchesandtheSouthpatch.

Ourmethodologycanbeamodelforassessmentsof wildlifereintroductionsitesforspeciesthatdonothave sufficienthabitatwithinprotectedlandsandinstead requireamatrixofprivateandpubliclandsforconservation.ThisisacommonoccurrenceintheUnitedStates, whereconservationeffortsonprivatelandsarecriticalto biodiversityconservationgoalsgiventhatexistingprotectedlandsdonotprovideenoughhabitat(Jenkins etal., 2015).InTexasalone,thereareseveralfederally endangeredwildlifespeciesbeyondocelotswhoserecoveryrequiresreintroductionsthatwilllikelyoccuronprivatelyownedlandsgiventhelandownershipmakeupof Texas.Reintroductionplanningforthesespeciesshould includeanassessmentsimilartoours.Forexample,the jaguarundi(Pumayagouaroundi)isasmallneotropical felidrecentlyextirpatedfromtheUnitedStates (Lombardietal., 2022)thatrequiresreintroduction effortsinsouthernTexas(USFishandWildlife Service, 2013).AlsoinTexas,acaptivebreedingandreintroductionprogramexistsfortheAttwater'sprairie chicken(Tympanuchuscapidoattwateri),afederally endangeredgrouse,andmanagersareseekingadditional releasesitesonprivatelands(USFishandWildlife Service, 2010).

Forcarnivorereintroductionsiteassessmentsinareas withasignificantmakeupofprivatelands,werecommendmappinglandparcelfragmentationwithinpatches ofecologicallysuitablehabitatandobtaininginformation aboutlikelyprivatelandownertolerancesforconservationefforts.Landownershipfragmentationpatternsmust beconsideredbecausecoordinatingwithasmallgroupof largelandownersratherthanmanysmallentitiesislikely toeasetheburdenoforganizingfieldcoordinationand securingsite-widelandownersupportforreintroduction. Obtaininginformationfromlocalorganizationsfamiliar withprivatelandownersaboutlikelylandownertolerancesandvalues,meanwhile,willhelpguidefurtherprioritizationofsitesandoutreachtolandownerstoobtain moresocio-politicalinformation.Backgroundknowledge ofprivatelandownerattitudeswillalsohelppreventcontactwithindividualswhoareunlikelytobesupportiveof aconservationprojectandmaybecomeopponentsofthe effort.Atthehighest-rankingsiteswherelandownersare likelytobetolerantofreintroduction,managersshould approachprivatelandownerstoindividuallyassesstheir willingnesstooffertheirlandsforreintroductionandto provideadditionallogisticalfieldsupport,asnecessary.

Onlytwopublishedassessmentsoffelidreintroductionsiteshaveexplicitlyconsideredlandownershipdata, thoughneitherusedlandownershipasavariableintheir

modelsofhabitat.Thatcheretal.(2006)identified whetherlargetractsofprotectedpubliclands,suchas NationalParks,werepresentinpotentialFloridapanther reintroductionsitesthatwereotherwiseidentifiedby modelsoflandscapecoverandhumandisturbance.More recently,pantherconservationistshaverecognizedthat theconservationvalueofprivatelyownedranchlands shouldnotbediscountedandinfact,privatelandsare likelycriticalforrecoveryoftheFloridapanther (Kreye&Pienaar, 2015).Garroteetal.(2020)createda modelofreintroductionhabitatforIberianlynxbasedon landscapecoverandfoundthatoverhalfoftheidentified lynxhabitatwasonprivatelands.Ratherthanconsideringroutesforconservinglynxonprivatelands,the authorssuggestedthatthemodel'sresults “shouldbe usedasaguideforthecreationofnewprotectedareas.”

IUCNguidelinesforreintroduction(IUCN/ SSC, 2013)suggestthatreintroductionsitesshouldbe legallyprotectedandthus “securefromincompatible land-usechange ideally,inperpetuity.” Thisguideline promotesdiscountingprivatelandsaspotentialwildlife reintroductionsitesratherthanusingprivatelandownershipdatainreintroductionsiteassessmentsandevaluatingthefeasibilityofconductingareintroductionon privatelands.AsinthepantherandIberianlynxstudies, landownershipdataissometimesusedonlytodifferentiatesitesbasedonthepresenceofpubliclands,withthe assumptionthatpubliclandsprovidebetterlong-term protectionforwildlifeandhabitatthanprivatelandsdo (e.g.,Sneed, 2001).Wildlifereintroductionplannersmay focusonpubliclandsanddisregardpotentialhabitaton privatelandsbecauseofassumptionsthathuman-wildlife conflictwillbehighonprivatelandsandthatpossible turnoverinprivatelandownershipandlandowners' changinginterestsinconservationprojectswillhinder long-termcooperation.Ditmeretal.(2022)havecomplicatedthisbypointingoutthatprivatelandsarenot homogenousregardingthepotentialforhuman-wildlife conflict,landownerattitudes,andlanduses,whileCarver etal.(2021)havesuggestedthatprivatelandscaneven serveascoreareasforrewildingefforts.

Anocelotreintroductionatanyofthe highest-rankingpatchesidentifiedinouranalysishasthe potentialtoincreaseocelotnumbersinTexasandpromote ocelots'delistingfromtheendangeredspecieslist.Furthermore,theestimatedminimumcarryingcapacitiesateach ofthehighest-rankingpatchesexceed50individuals,the estimatedminimumeffectivepopulationsizeforavoiding inbreedingdepressioninsmallpopulations(Franklin& Frankham, 1998).Anyoftheidentifiedsitescanalso expandtheocelot'scurrentlyoccupiedrangeinsouthern Texas.Areintroductionatoneofthesesiteswillcreate resistancetothecompletelossofocelotsinTexasinthe

caseofacatastrophe whetheritbeawildfire,diseaseoutbreak,oramajorhurricane thatimpactsthetwosmall existingocelotpopulationsinthestate.Thetrade-offwith choosingareintroductionsitegeographicallydistinctfrom existingpopulationsisthatnaturalconnectivitybetween theexistingpopulationsandthepotentialreintroduction sitesisunlikelytooccurwithoutsignificanthabitatrestorationtocreateconnectivity.Thehighest-rankingreintroductionpatchesweidentifiedareallover100kmfromthe existingocelotpopulations.Giventhatthelongestrecorded ocelotdispersalis50km(Booth-Binczik, 2007),significant habitatconnectivityeffortswouldbenecessarytopromote naturalconnectivitybetweenreintroducedandexisting ocelotpopulationsinTexas.

Areintroductionatanyofthesitesidentifiedinthis analysisisonlyfeasibleiflandownersupportcanbe securedthere.Thoughprotectedlandsmaybeidealsites forwildlifeconservationprojects,theyweremostlyunavailableinthelargereintroductionsitesweidentified. Privatelandownersareneededtomakereintroduction possibleandmustprovideaccesstotheirproperties, directlyreleaseocelotsontheirlands,andmanagelands inawaythatcansustainocelots,forexample.Some landownersmaybewillingtovoluntarilycontributeto ocelotreintroductionefforts,andtheirsupportwill requiredevelopmentoflegalassurancesthatlandowners' voluntaryparticipationinocelotreintroductionwillnot resultinlanduserestrictionsrelatedtoEndangeredSpeciesActregulations.

Althoughitwasthesmallestofthehighest-ranking potentialreintroductionsitesidentifiedinourassessment,ocelotreintroductionplannersbelievedthatthe Southpatchmayprovidethemostviableoptionforan initialocelotreintroductioneffortinTexas.ProjectpartnertheEastFoundation,anAgriculturalResearchOrganization,ownsaranchcoveringover30%(124km2 of fine-scalevegetativecover)ofthepatch,whichoccurs withinasparselypopulatedregionofremoteranchlands. Followingthepresentationofthisstudy,EastFoundation offeredtomeetthecriticaloperationalneedsofareintroductioneffort,suchasconstructingfacilitiesandemployingprogrampersonnel(Readingetal., 2002).Incontrast totheSouthpatch,theNorthpatcheshadmoreprotected landsinandaroundthepatches,buttheonlyprivate landholdingover25,000acres(101km2)intheareais complicatedbyapubliclegalbattleovercontroland ownershipoftheproperty.Meanwhile,theCentral patcheshadalmostnoprotectedlands,andlocalstakeholdersTPWDandCKWRIwereconcernedthatprivate landownersintheareawouldhavelowtolerancesfor endangeredspeciesgivenpastinteractionsbetweenthe landownersandwildliferesearchandconservationorganizationsandagencies.

TheremotenessoftheSouthpatchfrombothurban developmentandhighdensitiesofhigh-trafficroadways (thoughitisstillframedbylow-trafficcountyroadways), coupledwithitsrelativelystrongsocialtoleranceforocelot reintroductioncreatesastrongcaseforselectingthispatch forinitialocelotreintroductioneffortsinTexas.Following theanalysisconductedhere,theEastFoundationheld meetingswithprivatelandownersalsowithintheSouth patchandfoundthattheyweresupportiveofocelotreintroductiononandaroundtheirlandsiftheirregulatory concernsaboutendangeredspeciescouldbeaddressed. EastFoundationandtheUSFishandWildlifeService thendevelopedaproposedSafeHarborAgreementfor ocelotreintroductionontheEastFoundationproperty withintheSouthpatch(88USFederalRegister63598).

TheSafeHarborAgreementwillauthorizetheEastFoundationtoreleaseocelotsontoitslandinexchangeforfederalgovernmentassurancesthattheEastFoundation,and anyofitsprivatelandownerneighborswhoselandsocelotsmaydisperseto,willnotbesubjecttoanynewland userestrictionsnormallyassociatedwithEndangeredSpeciesActregulationsforfederallyprotectedspecies.

Whilethefavorablesocio-politicalsituationatthe Southpatchmaymakeitatpresentthemostrealisticocelotreintroductionsite,anypatchesnotinitiallyselected forocelotreintroductionshouldstillbeconsideredfor futurereintroductions.Continuedresearchbytheocelot reintroductionstudypartnersisnowunderwaytofurther assessthesocio-politicaldimensionsoftheCentraland Northpatchestoinformselectionandprioritizationof futurepossibleocelotreintroductionsites.Socio-political factorssuchasmanagementonprotectedlands,private conservationeasementdesignations,privatelandowner participationinstateoruniversitywildliferesearchorrecreationprograms,andplanneddevelopmentprojectsare beingconsideredtodeterminewhetherprivatelandowner supportforocelotreintroductionmaybedevelopedinthe futureatthesepatchestoexpandthescaleofocelotreintroductioneffortsinTexas.Iflandownersupportforocelot reintroductioncanbesecuredattheseotherpatches,additionalocelotreintroductionsmaybeplannedtheretoprovidefurtherconservationsupporttotheocelot.Further, historichabitatoutsideofourinitialareaofinterest (e.g.,easternTexas)shouldalsobeassessedforpresence ofpotentialocelothabitat,whichwashistorically destroyedduetoclear-cuttingorotherlandmodifications.

Ourwork,alongwiththatofDitmeretal.(2022)and Carveretal.(2021),encouragestheassessmentofprivate lands,notjustpublicprotectedlands,aspotentialwildlife reintroductionsites.Weprovideamethodtointegrate privatelandownershipdataintoreintroductionsite assessmentsfromafeasibility/coordinationperspective byaccountingforlandownershipfragmentationandthe

sizeoflandownershipparcels.Further,ratherthanseeingallprivatelandownersasequalintermsoftheirlikely willingnesstoengageinthereintroductionofanendangeredspecies,wesuggestgatheringinformationfrom locallyrelevantstakeholderstoassessandcompareprivatelandownerattitudesatpotentialreintroductionsites. Weprovidethisassessmentasamodelforotherconservationreintroductionplannerswhowishtoaccountfor thesocio-politicaldimensionsofprivatelandsintheir assessmentsofwildlifereintroductionsites.

AUTHORCONTRIBUTIONS

Martinez,Lombardi,Powers,Anderson,Campbell,and Lopezcontributedtotheconceptualdesignofthehabitat suitabilitymodel.PowersandAndersonconductedmappingandcomputationalwork.MartinezandLombardi ledthewritingofthemanuscript.Allauthorscontributed tothedevelopmentandrevisionofthemanuscriptdrafts, andallgavetheirapprovalforpublication.

ACKNOWLEDGMENTS

TheUSFishandWildlifeServiceandtheTexasA&M UniversityDepartmentofRangeland,Wildlife,andFisheriesManagementsuppliedcooperativefundingforthis study.Ocelottelemetrydatacollectionusedinthisanalysiswasfundedthroughcooperativefundingbyprovided bytheUSFishandWildlifeService(grant #F20AC11365)andEastFoundation.Wethankpastand presentCaesarKlebergWildlifeResearchInstitute andEastFoundationgraduatestudents,researchtechnicians,associates,andwildlifeveterinariansfortheirhelp incollectingocelottelemetrydatausedinthisanalysis. WethankSELehnen,AMFoley,LPetracca,andan anonymousreviewerforprovidingfeedbackonearlier versionsofthismanuscript.Thispublicationisnumber #099oftheEastFoundationand#23-109oftheCaesar KlebergWildlifeResearchInstitute.Theauthorsdeclare noconflictofinterest.

DATAAVAILABILITYSTATEMENT

Duetotheendangeredspeciesstatusofocelots,wecannotsharelocation-specificdataofocelots.Interested partiesmaycontactRoelLopez(roel@tamu.edu)ofthe TexasA&MNaturalResourcesInstitute.Allotherdata setsincludedinouranalyseshavebeencitedandare accessibleonline.

ORCID

LindsayA.Martinez https://orcid.org/0000-0002-42196860

JasonV.Lombardi https://orcid.org/0000-0002-00175674

TylerCampbell https://orcid.org/0000-0002-5962-530X

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Howtocitethisarticle: Martinez,L.A., Lombardi,J.V.,Powers,G.,Anderson,A.D., Campbell,T.,&Lopez,R.R.(2024).Assessing ecologicalandsocio-politicalfactorsinsite selectionforocelotreintroductioninTexas. ConservationScienceandPractice,e13113. https:// doi.org/10.1111/csp2.13113