# VPSIG9.60 Do not remove or modify this line, otherwise this file will not be recognized as a vortex project file [General Project Information] ProjectTitle="Mountain Tapir PHVA Baseline" # Project Title ProjectPath="Cü\Program Files\Vortex\tapirs" # Project Working Path ProjectNotes="Simulations developed during Mountain Tapir PHVA workshop -- Otun-Quimbaya Sanctuary, Pereira, Colombia 12 - 15 October 2004. Workshop organized by the IUCN/SSC Tapir Specialist Group. For detailed information about the base line model and parameters used, please consult the report." Users={"Phil Miller"} NumScene="1" # Number of Scenarios (Do not modify !!!) SpecialOptions0="0" # Show Symbols option SpecialOptions1="0" # Translocate option SpecialOptions1txt=Empty # Translocate option SpecialOptions2="0" # Exclude last pop option SpecialOptions3="0" # No dispersal into saturated pop option SpecialOptions4="0" # Extinction = Decline option SpecialOptions5="0" # Output all animals option SpecialOptions6="0" # Census file option SpecialOptions6txt=Empty # Census file option SpecialOptions7="0" # Clear Lines option SpecialOptions8="0" # Max K option SpecialOptions8txt=Empty # Max K option SpecialOptionsUndoc=Empty # Undocumented options [Project Report] ReportLocation="Mountain Tapir PHVA Baseline_report.rtf" # File path of the report [ST Data] ST.NumItems="0" # Number of items in the ST Scheme [1 Scenario Notes] ScenarioNotes={"This set of simulations looks at the mountain tapir population within Ecuador's Sangay National Park and surrounding areas.";Empty;"Timeframe gives ample opportunity to observe appropriate natural phenomena, while reducing the extreme variance in outcome expected with longer projections.";Empty;"Single population in this analysis";Empty;Empty;Empty;Empty;Empty;Empty: "Group chose not to include inbreeding depression for this set of analyses in the face of other anthropogenic pressures.";Empty;Empty;"No evidence to dispute this concordance in this species.";Empty;"Catastrophes included were volcanic eruption and forest fire.";Empty;Empty;Empty;Empty;Empty: Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: Empty;"Los datos reproductivos empleados provinieron de lo publicado por Barongi (19..), y de la información suministrada por Michael Dee del Zoológico de Los Ángeles. La edad a la primera cópula es de 2 a 3 años en las hembras (H), y de 3 a 4 años en los machos (M). Sin embargo, como la gestación demora 13 meses, la edad a la primera reproducción es de 3 años en las hembras y de 4 años en los machos.";Empty;"Data on this particular parameter is quite scare, but general observations, etc. indicate that mountain tapirs could perhaps live and reproduce up to 15 years in the wild.";"El tamaño máximo de camada es de 2, por ser el numero máximo de crías que pueden nacer en un parto.";"Según Michael Dee (com. pers), la proporción de sexos es 1ü1 (50% de machos o 50% M).";Empty;Empty;Empty;Empty;Empty: "En cuanto al numero de hembras disponibles para reproducción al año, se tomaron los valores mas comunes en otras especies de mamíferosü 50% 12.5 (PHVA Tapirus bairdii 1994).";Empty;Empty;"El tamaño máximo de camada es de 2, por ser el numero máximo de crías que pueden nacer en un parto. Por lo general nace una sola cría por parto, y rara vez hay partos gemelares, por consiguiente se estableció una probabilidad del 95% para partos de una sola cría, y del 5% para partos gemelares.";Empty;Empty;Empty;Empty;Empty;Empty;Empty: "While there are little detailed data on age/sex-specific mortality rates in mountain tapirs, the work of Craig Downer and others was used to develop the following mortality schedule, including estimates of annual environmentally-based variability in average rates.";Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: "Volcanoes and forest fire could potentially be significant threats to tapir populations. Severities as defined here are relatively low, but frequency is relatively high.";Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: "We assume here that some adult males are restricted from breeding through social exclusion. Specifically, we assume that 75% of adult males are available for breeding.";Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: Empty;"Based on an estimated density of 587 Ha / animal.";Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: "Simple assumption of K = 2N(0)";Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty: Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty;Empty} # Scenario Notes in RTF format [1 Simulation Settings] ScenarioName="Mountain Tapir PHVA BASELINE Sangay" # Scenario name NumIter="500" # Number of iterations/simulations NumYears="100" # Number of years ExtinctDef0="True" # Extinction definition 0 (one of ExtinctDef0 and ExtinctDef1 *must* be FALSE and the other must be TRUE) ExtinctDef1="False" # Extinction definition 1 CriticalSize="30000" # Critical size NumPop="1" # Number of populations [1 Species Description] InbreedDepress="0" # Inbreeding depression? LethalEquiv="3.14" # Lethal equivalents PercentLethal="50" # Percent due to recessive lethals EVConcord="1" # EV concordance? NumCatast="2" # Number of types of catastrophes EV="0.5" # EV Correlation DispYoung="1" # Lower age for dispersal DispOld="5" # Upper age for dispersal DispFemales="1" # Females disperse? DispMales="1" # Males disperse? PercentDispSurvive="50" # % survival of dispersers DensDispersal=Empty # Minimum density for dispersal [1 Population Labels] NumPopStateVars="0" # Num Population State Vars? PopLabels={"Population 1"} # Population Labels OutbreakModelLink="0" # Link to Outbreak? OutbreakFileLink=Empty # Outbreak project file SpatialModelLink="0" # Link to Spatial? SpatialFileLink=Empty # Spatial project file SpatialSteps="0" # Num Spatial steps NumIndivStateVars="0" # Num Individual State Vars? IndivStateVars={Empty;Empty;Empty;Empty} # Individual State Vars NumMetaModelLinks="0" # Num Meta Model Links? OtherMetaModels={Empty;Empty;Empty} # Other Meta Models [1 Dispersal Rates] DispRates={"100";Empty: Empty;"100"} # Dispersal rates [1 Reproductive System] Monogamous="True" # Monogamous? Polygamous="False" # Polygamous? Hermaphroditic="False" # Hermaphroditic? LTMonogamous="False" # Long Term Monogamous? LTPolygamous="False" # Long Term Polygamous? AgeReproF="3" # Age of first reproduction for females AgeReproM="4" # Age of first reproduction for males AgeRepro="15" # Maximum age of reproduction MaxProgeny="2" # Maximum number progeny per year SexRatio="50" # Sex Ratio ReproSys={"False": Empty: Empty: Empty: Empty} # Density dependent reproduction [1 Reproductive Rates] RepRates1={"50": "12.5"} # % Adult Females Breeding / EV in % Breeding UseMean0="False" # Use mean and SD? UseMean1="True" # Use mean and SD? RepRates2={Empty: Empty} # Mean/Standard Deviation RepRates3={"95": "5.00"} # Full specification [1-n Offspring] [1 Mortality] MortFemales={"20": "5": "10": "3": "10": "3": "10": "3"} # Females MortMales={"20": "5": "20": "5": "10": "3": "10": "3": "10": "3"} # Males [1 Catastrophes] CatastropheLabels={"Erupcion";"Incendio"} Catastrophes1={"Global": "10": "Global": "33"} Catastrophes2={"0.95": "0.95": "0.98": "0.98"} [1 Monopolization] DegMonop={"75": Empty: Empty} # % Males in Breeding Pool / % Males Successfully Siring Offspring / % Mean # Offspring/Successful Sire [1 Initial Population Size] StartWith0="True" # Stable age distribution? 0 StartWith1="False" # Stable age distribution? 1 InitPopStable={"385"} # Initial population size InitPopFemale={"30": "25": "23": "19": "18": "15": "13": "11": "10": "9": "7": "7": "6": "5": "4"} # Female ages InitPopMale={"30": "22": "20": "18": "15": "13": "12": "10": "9": "8": "7": "5": "6": "4": "4"} # Male ages [1 Carrying Capacity] CarryingCap1={"770": Empty} # Carrying Capacity (k) / SD in K Due to EV CarryingCap2={"False": "100": "-0.24"} # Trend in K? / Over how many years? / % annual increase decrease? [1 Harvest] Harvest={"False": "1": "100": "1": Empty} # Harvest Population? / First Year of Harvest / Last Year of Harvest / Interval Between Harvests HarvestF={"2": "2": "8"} # Female harvest [Age 1-n harvested] HarvestM={"1": "1": "1": "5"} # Male harvest [Age 1-n harvested] [1 Supplementation] Suppl={"False": Empty: Empty: Empty: Empty} # Supplement Population? / First Year of Supplement / Last Year of Supplement / Interval Between Supplements SupplF={Empty: Empty: Empty} # Female Supplement [Age 1-n Supplemented] SupplM={Empty: Empty: Empty: Empty} # Male Supplement [Age 1-n Supplemented] [1 Genetic Management] ImportStudbookFile="0" # ImportStudbookFile? StudbookFile=Empty # StudbookFile? NumNeutralLoci="1" # NumNeutralLoci? ImportAlleleFreqsFile="0" # ImportAlleleFreqsFile? AlleleFreqsFile=Empty # AlleleFreqsFile? BreedMaintainK="0" # BreedMaintainK? PreventMatingsF="0" # PreventMatingsF? PreventMatingsFValue="0.125" # PreventMatingsFValue? PairMeanKinship="0" # PairMeanKinship? PairMeanKinshipDynamic="False" # PairMeanKinshipDynamic? PairMeanKinshipStatic="False" # PairMeanKinshipStatic? MaxNumMates=Empty # MaxNumMates? PairingLimitation=Empty # PairingLimitation? NumTriesFindMate=Empty # NumTriesFindMate? OutputGenePop="0" # OutputGenePop? OutputAlleleFreqFile="0" # OutputAlleleFreqFile?