6533b7d1fe1ef96bd125cd0f
RESEARCH PRODUCT
Hybridization selects for prime‐numbered life cycles in Magicicada: An individual‐based simulation model of a structured periodical cicada population
Jaakko ToivonenJaakko ToivonenLutz Fromhagesubject
PRODOXIDAE0106 biological sciencesstructured population modelMITOCHONDRIAL-DNAmedia_common.quotation_subjectPopulationBiology010603 evolutionary biology01 natural sciencesMagicicadaPrime (order theory)Competition (biology)PredationHOMOPTERA-CICADIDAE13-YEAR03 medical and health sciencesIndividual basedpopulaatiotlcsh:QH540-549.5DIVERGENCEjälkeläiseteducationEcology Evolution Behavior and Systematics030304 developmental biologyNature and Landscape Conservationmedia_commonOriginal Researchsuosinta0303 health scienceseducation.field_of_studyEcologykaskaatYUCCA MOTHalkuluvutPrime numberprime numberselinkaarilisääntyminenEVOLUTIONLEPIDOPTERA17-YEAR CICADASEvolutionary biology1181 Ecology evolutionary biologyindividual‐based modellcsh:Ecologyindividual-based modeldescription
Abstract We investigate competition between separate periodical cicada populations each possessing different life‐cycle lengths. We build an individual‐based model to simulate the cicada life cycle and allow random migrations to occur between patches inhabited by the different populations. We show that if hybridization between different cycle lengths produces offspring that have an intermediate life‐cycle length, then predation acts disproportionately to select against the hybrid offspring. This happens because they emerge in low densities without the safety‐in‐numbers provided by either parent population. Thus, prime‐numbered life cycles that can better avoid hybridization are favored. However, we find that this advantage of prime‐numbered cycles occurs only if there is some mechanism that can occasionally synchronize emergence between local populations in sufficiently many patches.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-06-01 | Ecology and Evolution |