Differences in spatial versus temporal reaction norms for spring and autumn phenological events.
Maria Del Mar DelgadoTomas V RoslinGleb TikhonovEvgeniy MeykeCoong LoEliezer GurarieMarina AbadonovaOzodbek AbduraimovOlga AdrianovaTatiana AkimovaMuzhigit AkkievAleksandr AnaninElena AndreevaNatalia AndriychukMaxim AntipinKonstantin ArzamascevSvetlana BabinaMiroslav BabushkinOleg BakinAnna BarabancovaInna BasilskajaNina BelovaNatalia BelyaevaTatjana BespalovaEvgeniya BisikalovaAnatoly BobretsovVladimir BobrovVadim BobrovskyiElena BochkarevaGennady BogdanovVladimir BolshakovSvetlana N BondarchukEvgeniya BukharovaAlena ButuninaYuri BuyvolovAnna BuyvolovaYuri BykovElena ChakhirevaOlga ChashchinaNadezhda CherenkovaSergej ChistjakovSvetlana ChuhontsevaEvgeniy A DavydovViktor DemchenkoElena DiadichevaAleksandr DobrolyubovLudmila DostoyevskayaSvetlana DrovninaZoya DrozdovaAkynaly DubanaevYuriy DubrovskySergey ElsukovLidia EpovaOlga S ErmakovaOlga ErmakovaAleksandra EsengeldenovaOleg EvstigneevIrina FedchenkoVioletta FedotovaTatiana FilatovaSergey GashevAnatoliy GavrilovIrina GaydyshDmitrij GolovcovNadezhda GoncharovaElena GorbunovaTatyana GordeevaVitaly GrishchenkoLudmila GromykoVladimir HohryakovAlexander HritankovElena IgnatenkoSvetlana IgoshevaUliya IvanovaNatalya IvanovaYury KalinkinEvgeniya KaygorodovaFedor KazanskyDarya KiselevaAnastasia KnorreLeonid KolpashikovEvgenii KorobovHelen KorolyovaNatalia KorotkikhGennadiy KosenkovSergey KossenkoElvira KotlugalyamovaEvgeny KozlovskyVladimir KozsheechkinAlla KozurakIrina KozyrAleksandra KrasnopevtsevaSergey KruglikovOlga KuberskayaAleksey KudryavtsevElena KulebyakinaYuliia KulshaMargarita KupriyanovaMurad KurbanbagamaevAnatoliy KutenkovNadezhda KutenkovaNadezhda KuyantsevaAndrey KuznetsovEvgeniy LarinPavel LebedevKirill LitvinovNatalia LuzhkovaAzizbek MahmudovLidiya MakovkinaViktor MamontovSvetlana MayorovaIrina MegalinskajaArtur MeydusAleksandr MininOleg MitrofanovMykhailo MotrukAleksandr MyslenkovNina NasonovaNatalia NemtsevaIrina NesterovaTamara NezdoliyTatyana NirodaTatiana NovikovaDarya PanichevaAlexey PavlovKlara PavlovaPolina VanSergei PodolskiNatalja PolikarpovaTatiana PolyanskayaIgor PospelovElena PospelovaIlya ProkhorovIrina ProkoshevaLyudmila PuchninaIvan PutrashykJulia RaiskayaYuri RozhkovOlga RozhkovaMarina RudenkoIrina RybnikovaSvetlana RykovaMiroslava SahnevichAlexander SamoylovValeri SankoInna SapelnikovaSergei SazonovZoya SelyuninaKsenia ShalaevaMaksim ShashkovAnatoliy ShcherbakovVasyl ShevchykSergej ShubinElena ShujskajaRustam SibgatullinNatalia SikkilaElena SitnikovaAndrei SivkovNataliya SkokSvetlana SkorokhodovaElena SmirnovaGalina SokolovaVladimir SopinYurii SpasovskiSergei StepanovVitalіy StratiyVioletta StrekalovskayaAlexander SukhovGuzalya SuleymanovaLilija SultangareevaViktorija TeleganovaViktor TeplovValentina TeplovaTatiana TertitsaVladislav TimoshkinDmitry TirskiAndrej TolmachevAleksey TomilinLudmila TselishchevaMirabdulla TurgunovYurij TyukhVladimir VanElena ErshkovaAleksander VasinAleksandra VasinaAnatoliy VekliukLidia VetchinnikovaVladislav VinogradovNikolay VolodchenkovInna VoloshinaTura XoliqovEugenia Yablonovska-GrishchenkoVladimir YakovlevMarina YakovlevaOksana YantserYurij YaremaAndrey ZahvatovValery ZakharovNicolay ZelenetskiyAnatolii ZheltukhinTatyana ZubinaJuri KurhinenOtso OvaskainenPublished in: Proceedings of the National Academy of Sciences of the United States of America (2020)
For species to stay temporally tuned to their environment, they use cues such as the accumulation of degree-days. The relationships between the timing of a phenological event in a population and its environmental cue can be described by a population-level reaction norm. Variation in reaction norms along environmental gradients may either intensify the environmental effects on timing (cogradient variation) or attenuate the effects (countergradient variation). To resolve spatial and seasonal variation in species' response, we use a unique dataset of 91 taxa and 178 phenological events observed across a network of 472 monitoring sites, spread across the nations of the former Soviet Union. We show that compared to local rates of advancement of phenological events with the advancement of temperature-related cues (i.e., variation within site over years), spatial variation in reaction norms tend to accentuate responses in spring (cogradient variation) and attenuate them in autumn (countergradient variation). As a result, among-population variation in the timing of events is greater in spring and less in autumn than if all populations followed the same reaction norm regardless of location. Despite such signs of local adaptation, overall phenotypic plasticity was not sufficient for phenological events to keep exact pace with their cues-the earlier the year, the more did the timing of the phenological event lag behind the timing of the cue. Overall, these patterns suggest that differences in the spatial versus temporal reaction norms will affect species' response to climate change in opposite ways in spring and autumn.