Search results for "environmental stochasticity"

showing 4 items of 4 documents

Environmentally‐induced noise dampens and reddens with increasing trophic level in a complex food web

2019

Stochastic variability of key abiotic factors including temperature, precipitation and the availability of light and nutrients greatly influences species’ ecological function and evolutionary fate. Despite such influence, ecologists have typically ignored the effect of abiotic stochasticity on the structure and dynamics of ecological networks. Here we help to fill that gap by advancing the theory of how abiotic stochasticity, in the form of environmental noise, affects the population dynamics of species within food webs. We do this by analysing an allometric trophic network model of Lake Constance subjected to positive (red), negative (blue), and non‐autocorrelated (white) abiotic temporal …

0106 biological sciences0301 basic medicinecoloured noiseAcousticsta1172Biology010603 evolutionary biology01 natural sciencesekosysteemithäiriöt03 medical and health sciencesEcology Evolution Behavior and Systematicsstokastiset prosessitTrophic levelvesiekosysteemitColoured noise15. Life on landFood webekosysteemit (ekologia)ecosystem dynamicsNoise030104 developmental biologyEcosystem dynamicsta1181matemaattiset mallitenvironmental stochasticityravintoverkotympäristönmuutoksetOikos
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Forecasting ocean warming impacts on seabird demography: a case study on the European storm petrel

2016

Bottom-up climatic forcing has been shown to be influential for a variety of marine taxa, but evidence on seabird populations is scarce. Seasonal variation in environmental conditions can have an indirect effect on subsequent reproduction, which, given the longevity and single-brooding of seabirds, may affect population dynamics. Our study focuses on linking the effect of oceanographic conditions (from 1991 to 2013) to the fecundity and consequently pop - ulation growth rate of the Mediterranean subspecies of the European storm petrel Hydrobates pelagicus melitensis. In this study, we examined 23 yr of > 5400 capture–mark−recaptures (CMR) and modelled the probability of skipping reproductio…

0106 biological sciencesEcologybiologyEcology010604 marine biology & hydrobiologyEffects of global warming on oceansCapture mark recaptureAquatic Sciencebiology.organism_classification010603 evolutionary biology01 natural sciencesHydrobates pelagicusOceanographyGeographySettore AGR/11 - Entomologia Generale E Applicatabiology.animalPopulation growthStorm petrelSeabirdCapture−mark−recapture · Environmental stochasticity · Hydrobates pelagicus · Population growth rate · SenescenceEcology Evolution Behavior and Systematics
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Multiple‐batch spawning as a bet‐hedging strategy in highly stochastic environments: An exploratory analysis of Atlantic cod

2021

Stochastic environments shape life‐history traits and can promote selection for risk‐spreading strategies, such as bet‐hedging. Although the strategy has often been hypothesised to exist for various species, empirical tests providing firm evidence have been rare, mainly due to the challenge in tracking fitness across generations. Here, we take a ‘proof of principle’ approach to explore whether the reproductive strategy of multiple‐batch spawning constitutes a bet‐hedging. We used Atlantic cod (Gadus morhua) as the study species and parameterised an eco‐evolutionary model, using empirical data on size‐related reproductive and survival traits. To evaluate the fitness benefits of multiple‐batc…

0106 biological sciencesEmpirical dataEvolutionReproductive strategyBiology010603 evolutionary biology01 natural sciencesrisk‐spreadingturskaEnvironmental riskGeneticsQH359-425Gadus14. Life underwaterEcology Evolution Behavior and SystematicsSelection (genetic algorithm)VDP::Landbruks- og Fiskerifag: 900::Fiskerifag: 920kuntosopeutuminenlisääntymiskäyttäytyminenEcology010604 marine biology & hydrobiologyOriginal ArticlesExploratory analysisbiology.organism_classificationlisääntyminenfitnesselinkiertomultiple‐batch spawningAtlantic codTraitOriginal Articlebet‐hedgingGeneral Agricultural and Biological SciencesAtlantic codenvironmental stochasticityympäristönmuutoksetEvolutionary Applications
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Effects of density, species interactions, and environmental stochasticity on the dynamics of British bird communities

2022

Our knowledge of the factors affecting species abundances is mainly based on time-series analyses of a few well-studied species at single or few localities, but we know little about whether results from such analyses can be extrapolated to the community level. We apply a joint species distribution model to long-term time-series data on British bird communities to examine the relative contribution of intra- and interspecific density dependence at different spatial scales, as well as the influence of environmental stochasticity, to spatiotemporal interspecific variation in abundance. Intraspecific density dependence has the major structuring effect on these bird communities. In addition, envi…

aikasarjatPopulation DynamicsNEST SITESBirdsCOEXISTENCEDEPENDENCEmulti-speciesINTERFERENCE COMPETITIONAnimalsEcosystemEcology Evolution Behavior and SystematicsPOPULATIONspatiotemporalstokastiset prosessitspecies interactionsCLIMATE-CHANGEtime-serieseliöyhteisötEXPLOITATION COMPETITIONEXTINCTION RISKpopulaatiodynamiikkajoint species distribution modelcommunity dynamicsdensity dependence1181 Ecology evolutionary biologylinnutkannanvaihtelutABUNDANCEenvironmental stochasticityympäristönmuutokset
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