Search results for "liikakalastus"

showing 6 items of 6 documents

Temporary Allee effects among non‐stationary recruitment dynamics in depleted gadid and flatfish populations

2021

Many considerably declined fish populations have not fully recovered despite reductions in fishing pressure. One of the possible causes of impaired recovery is the (demographic) Allee effect. To investigate whether low-abundance recruitment dynamics can switch between compensation and depensation, the latter implying the presence of the Allee effect, we analysed the stock–recruitment time series of 17 depleted cod-type and flatfish populations using a Bayesian change point model. The recruitment dynamics were represented with the sigmoidal Beverton–Holt and the Saila–Lorda stock–recruitment models, allowing the parameters of the models to shift at a priori unknown change points. Our synthes…

0106 biological sciencesliikakalastuschange point modelpalautuminenManagement Monitoring Policy and LawAquatic ScienceOceanography010603 evolutionary biology01 natural scienceskampelakalatDepensationcompensationsymbols.namesakeFlatfishturskakalat14. Life underwaterEcology Evolution Behavior and SystematicsAllee effectregime shiftsbiologyEcology010604 marine biology & hydrobiologykalakannatChange point modelbiology.organism_classificationpopulaatiodynamiikkastock–recruitmentkalatalousdepensationsymbolsFish and Fisheries
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Disentangling conditional effects of multiple regime shifts on Atlantic cod productivity

2020

AbstractRegime shifts are increasingly prevalent in the ecological literature. However, definitions vary, and many detection methods are subjective. Here, we employ an operationally objective means of identifying regime shifts, using a Bayesian online change-point detection algorithm able to simultaneously identify shifts in the mean and(or) variance of time series data. We detected multiple regime shifts in long-term (59-154 years) patterns of coastal Norwegian Atlantic cod (>70% decline) and putative drivers of cod productivity: North Atlantic Oscillation (NAO); sea-surface temperature; zooplankton abundance; fishing mortality (F). The consequences of an environmental or climate-relate…

Sexual Reproduction0106 biological sciencesliikakalastusClimatePopulation DynamicsMarine and Aquatic SciencesAquacultureOceanography01 natural sciencesturskaAbundance (ecology)Regime shiftAtlantic OceanMultidisciplinarybiologyQTemperatureREukaryotaAgriculturePlanktonOceanographyGadus morhuaProductivity (ecology)OsteichthyesVertebratesPhysical SciencesMedicineResearch ArticleSpawningDeath RatesFish BiologyympäristötekijätClimate ChangeScienceFishingModes of ReproductionFisheriesClimate changeCod010603 evolutionary biologyZooplanktonZooplanktonPopulation MetricsAnimalsMarine ecosystem14. Life underwaterOcean TemperatureEcosystemPopulation Biologybayesilainen menetelmäkalakannat010604 marine biology & hydrobiologyOrganismsBiology and Life SciencesBayes TheoremilmastonmuutoksetProbability TheoryProbability Distributionbiology.organism_classificationInvertebratesaikasarja-analyysiFishNorth Atlantic oscillationEarth ScienceskannanvaihtelutEnvironmental scienceAtlantic codZoologyMathematicsDevelopmental BiologyVDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480PLOS ONE
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Allee effects and the Allee-effect zone in northwest Atlantic cod

2022

According to the theory of compensatory dynamics, depleted populations should recover when the threat responsible for their decline is removed because per capita population growth is assumed to be highest when populations are at their smallest viable sizes. Yet, many seriously depleted fish populations have failed to recover despite threat mitigation. Atlantic cod (Gadus morhua) stocks off Newfoundland, despite 30 years of dramatically reduced fishing mortality and numerous fishery closures, have not recovered, suggesting that drivers other than fishing can regulate the growth of collapsed fish populations, inhibiting or preventing their recovery. Here, using Bayesian inference, we show str…

VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Økologi: 488compensationlow-abundance dynamicsmarine conservationliikakalastusGadus morhuadepensationpalautuminenkalakannatstock–recruitment relationshippopulaatiodynamiikkaturska
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Multiple-batch spawning: a risk-spreading strategy disarmed by highly intensive size-selective fishing rate

2022

Can the advantage of risk-managing life-history strategies become a disadvantage under human-induced evolution? Organisms have adapted to the variability and uncertainty of environmental conditions with a vast diversity of life-history strategies. One such evolved strategy is multiple-batch spawning, a spawning strategy common to long-lived fishes that ‘hedge their bets' by distributing the risk to their offspring on a temporal and spatial scale. The fitness benefits of this spawning strategy increase with female body size, the very trait that size-selective fishing targets. By applying an empirically and theoretically motivated eco-evolutionary mechanistic model that was parameterized for …

kalastusliikakalastuselinkiertomultiple-batch spawningevoluutioekologialisääntymiskäyttäytyminenAtlantic codVDP::Matematikk og Naturvitenskap: 400::Basale biofag: 470size-selective fishingfisheries-induced evolutionbet-hedgingturskafitness
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Implications of fisheries‐induced evolution for population recovery: Refocusing the science and refining its communication

2019

The argument that sufficiently high fishing mortality (selective or not) can effect genetic change in fished populations has gained considerable traction since the late 1970s. The intervening decades have provided compelling experimental and model‐based evidence that fisheries‐induced evolution (FIE) can cause genetic changes in life history, behaviour and body shape, given sufficiently high trait heritability, selection intensity and time. Fisheries‐induced evolution research has also identified or inferred negative implications to population recovery and sustainable yield, prompting calls for evolutionarily enlightened management to reduce the probability of FIE and mitigate its risks. Su…

kuolleisuus0106 biological sciencesliikakalastuspalautuminenPopulationnatural mortalityManagement Monitoring Policy and LawAquatic ScienceBiologyOceanography010603 evolutionary biology01 natural sciencesRefiningVDP::Matematikk og Naturvitenskap: 400::Basale biofag: 47014. Life underwaterstock declineeducationEnvironmental planningEcology Evolution Behavior and Systematicseducation.field_of_studykalakannat010604 marine biology & hydrobiologygeneettinen muunteluPeer reviewkalatalousfishery rebuildinggenetic changeGenetic ChangepolicyFish and Fisheries
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Ecology, fisheries and management of wild brown trout populations in boreal inland waters

2010

Eutrophication of aquatic ecosystems is an increasing problem, especially threatening small and shallow freshwater lakes. While the extreme inputs of nutrients (phosphorus and nitrogen) can nowadays be reduced and controlled rather efficiently, additional measures to reverse eutrophication may be needed. These often involve biomanipulation, typically mass removal of cyprinid fish. However, the success of biomanipulations has many times been limited or short lived. The reasons for this are not well known, perhaps because the more subtle impacts of biomanipulation on the ecosystem-wide processes of lakes have not been thoroughly studied. Natural abundance stable isotopes may provide a cost-ef…

overfishingliikakalastusprey selectionembryoboreal streamsjokipoikasvaihestream restorationekologiakalastuskoskikunnostustaimenkalakantojen hoitoravinnonottoSalmo trutta Lalkionkehitysparr
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