0000000001315828

AUTHOR

Fernanda S. Valdovinos

showing 3 related works from this author

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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The role of fish life histories in allometrically scaled food‐web dynamics

2019

Body size determines key ecological and evolutionary processes of organisms. Therefore, organisms undergo extensive shifts in resources, competitors, and predators as they grow in body size. While empirical and theoretical evidence show that these size‐dependent ontogenetic shifts vastly influence the structure and dynamics of populations, theory on how those ontogenetic shifts affect the structure and dynamics of ecological networks is still virtually absent. Here, we expand the Allometric Trophic Network (ATN) theory in the context of aquatic food webs to incorporate size‐structure in the population dynamics of fish species. We do this by modifying a food web generating algorithm, the nic…

0106 biological sciencesPopulationContext (language use)Biology010603 evolutionary biology01 natural sciences03 medical and health sciencesniche modellcsh:QH540-549.5Ecosystem14. Life underwatereducationEcology Evolution Behavior and SystematicsbioenergetiikkaOriginal Research030304 developmental biologyNature and Landscape ConservationTrophic levelaquatic ecosystemsEcological stability0303 health scienceseducation.field_of_studyBiomass (ecology)bioenergetics modelEcologyEcologyvesiekosysteemitkalat (eläimet)Food webEcological networkta1181lcsh:Ecologybody sizelife historiesravintoverkotEcology and Evolution
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Data from: Environmentally-induced noise dampens and reddens with increasing trophic level in a complex food web

2018

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 …

medicine and health careecosystem dynamicscoloured noiseLife SciencesMedicine
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