Search results for "photoperiodic timer"

showing 3 items of 3 documents

Selection for reproduction under short photoperiods changes diapause-associated traits and induces widespread genomic divergence.

2019

The work has been supported by the Academyof Finland to A.H. (project 267244) and Natural Environment Research Council (NERC) funding (NE/J020818/1 to M.G.R.; NE/L501852/1 to R.A.W.W.). The incidence of reproductive diapause is a critical aspect of life history in overwintering insects from temperate regions. Much has been learned about the timing, physiology and genetics of diapause in a range of insects, but how the multiple changes involved in this and other photoperiodically regulated traits are inter-related is not well understood. We performed quasinatural selection on reproduction under short photoperiods in a northern fly species, Drosophila montana, to trace the effects of photoper…

0106 biological sciencesPhysiology030310 physiologyQH301 BiologyCircadian clockGenome Insect01 natural sciencestalvehtiminenkylmänkestävyyscircadian clockmedia_commonvuorokausirytmi0303 health sciencesluonnonvalintagenome analysesReproductionPhenotypeAdaptation PhysiologicalCircadian RhythmCold TemperatureDrosophila melanogasterPhenotypeFemaleReproductionLocomotionendocrine systemmahlakärpäsetPeriod (gene)media_common.quotation_subjectPhotoperiodZoologyreproductive diapausefotobiologiaAquatic ScienceDiapauseBiology010603 evolutionary biology03 medical and health sciencesQH301Quantitative Trait Heritablephotoperiodic timerAnimalsCircadian rhythmMolecular BiologyGeneEcology Evolution Behavior and SystematicsSelection (genetic algorithm)Critical day lenghtGenetic VariationDAScold tolerancelisääntyminenDiapauseChromosomes Insectcritical day lengthInsect ScienceperimähyönteisetLinear ModelsAnimal Science and ZoologyThe Journal of experimental biology
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Adaptation and ecological speciation in seasonally varying environments at high latitudes: Drosophila virilis group

2022

Living in high latitudes and altitudes sets specific requirements on species’ ability to forecast seasonal changes and to respond to them in an appropriate way. Adaptation into diverse environmental conditions can also lead to ecological speciation through habitat isolation or by inducing changes in traits that influence assortative mating. In this review, we explain how the unique time-measuring systems of Drosophila virilis group species have enabled the species to occupy high latitudes and how the traits involved in species reproduction and survival exhibit strong linkage with latitudinally varying photoperiodic and climatic conditions. We also describe variation in reproductive barriers…

Drosophila virilis groupReproductive IsolationmahlakärpäsetGenetic SpeciationLocal adaptationPhotoperiodreproductive diapauseReviewkylmänkestävyysphotoperiodic timerchromosomal inversionscircadian clockilmastoelinympäristöAnimalsmuuntelu (biologia)lepotilavuorokausirytmisopeutuminenvuodenajatkromosomi-inversiotReproductioncold tolerancelisääntyminenAdaptation Physiologicalgenome sequencingInsect SciencelajiutuminenDrosophilacandidate genesreproductive barrierslocal adaptationFly
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The role of the circadian clock in adaptation in seasonally changing environment in Drosophila montana

2012

liikeaktiivisuusrytmisopeutuminenlisääntymislepokausiseasonalityeclosion rhythmkärpäsetvuodenaikaisrytmivalojaksoinen kellophotoperiodic timercircadian clockgene expressionlocomotor activity rhythmgeeniekspressiosirkadinen kelloclock neuronsvuorokausirytmi
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