0000000000075800

AUTHOR

Paolo Domenici

showing 6 related works from this author

Marine reserves : fish life history and ecological traits matter

2010

Copyright by the Ecological Society of America

marine reserve ageRange (biology)marine protected areaMarine protected areahome rangehabitatlife history traitbycatchspecies mobilityterritorialityPesqueríasMarine reserve designmarine reserve designMarine reserve ageBehavior AnimalEcologyEcologyMarine reserveFisheries -- Monitoring -- EuropeFishesMarine parks and reserves -- EuropeBody sizeweighted meta-analysisSpecies mobilityEuropeHabitatHome rangeHabitatFishes -- Ecology -- EuropeWeighted metaanalysisMarine conservationConservation of Natural ResourcesFisheriesBiologyModels BiologicalDiversity of fishCentro Oceanográfico de BalearesBody size; Bycatch; Habitat; Home range; Life history traits; Marine protected area; Marine reserve age; Marine reserve design; Schooling behavior; Species mobility; Territoriality; Weighted metaanalysis; EcologyFishes -- Habitat -- EuropeAnimalsschooling behaviorEcosystemlife history traitsPopulation DensityEcological releaseLife history traitsBycatchFisheryBycatchSchooling behaviorMarine protected areabody sizeTerritoriality
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Predicting future thermal habitat suitability of competing native and invasive fish species: From metabolic scope to oceanographic modelling

2015

Global increase in sea temperatures has been suggested to facilitate the incoming and spread of tropical invaders. Here, we determined the effect of temperature on the aerobic metabolic scope of two competing fish species, one native and one invasive, and we predicted their future thermal habitat suitability.

Ecological nicheHerbivoreEcologyPhysiologyFish physiologyGlobal warmingEcological ModelingGlobal warmingDistribution modellingInvasive specieIntroduced speciesConservation physiology15. Life on landBiologyManagement Monitoring Policy and LawInvasive speciesinvasive speciesSiganus rivulatusMediterranean sea13. Climate actionEcosystem modelThermal habitat suitability14. Life underwaterResearch ArticlesNature and Landscape Conservation
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Effectiveness of European Atlanto-Mediterranean MPAs: Do they accomplish the expected effects on populations, communities and ecosystems?

2008

The success of MPAs in conserving fishing resources and protecting marine biodiversity relies strongly on how well they meet their planned (or implicit) management goals. From a review of empirical studies aiming at assessing the ecological effects of Mediterranean and Macaronesian MPAs, we conclude that establishing an MPA is successful for (i) increasing the abundance/biomass, (ii) increasing the proportion of larger/older individuals, and (iii) enhancing the fecundity of commercially harvested populations; also, MPAs demonstrated to be effective for (iv) augmenting local fishery yields through biomass exportation from the protected area, and (v) inducing shifts in fish assemblage structu…

0106 biological sciencesMarine conservationCoastal zone managementSettore BIO/07 - EcologiaMacaronesia.Marine conservation[SDE.MCG]Environmental Sciences/Global ChangesMarine protected areaMediterranean010603 evolutionary biology01 natural sciencesCentro Oceanográfico de BalearesEnvironmental protectionMarine resources conservation -- Mediterranean SeaMacaronesiaMarine protected areasDominance (ecology)EcosystemCoastal ecologyMeta-analysi14. Life underwaterCoastal ecosystem healthMedio MarinoTrophic cascadeComputingMilieux_MISCELLANEOUSNature and Landscape ConservationEcological stabilityEcologyCoastal populations and communities010604 marine biology & hydrobiologyCoastal habitats Meta-analysisMarine reserveCoastal habitatMarine resources conservation -- MacaronesiaMarine reserve15. Life on landCoastal populations and communitieGeography13. Climate actionMarine protected areaProtected areaCoastal habitats
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Climate change exacerbates interspecific interactions in sympatric coastal fishes

2012

Summary 1. Biological responses to warming are presently based on the assumption that species will remain within their bioclimatic envelope as environmental conditions change. As a result, changes in the relative abundance of several marine species have been documented over the last decades. This suggests that warming may drive novel interspecific interactions to occur (i.e. invasive vs. native species) or may intensify the strength of pre-existing ones (i.e. warm vs. cold adapted). For mobile species, habitat relocation is a viable solution to track tolerable conditions and reduce competitive costs, resulting in ‘winner’ species dominating the best quality habitat at the expense of ‘loser’…

0106 biological sciencesSettore BIO/07 - Ecologiamedia_common.quotation_subjectClimate Changecold-adaptedSpecies distributionThalassoma pavoIntroduced speciesglobal warming010603 evolutionary biology01 natural sciencesrelocationCompetition (biology)behaviour cold-adapted competition labrids Mediterranean Sea relocation global warmingSpecies SpecificityMediterranean SeaAnimals14. Life underwaterEcology Evolution Behavior and SystematicsEcosystemmedia_commonDemographybiologyEcologyEcological release010604 marine biology & hydrobiologyGlobal warmingFishesInterspecific competition15. Life on landPlantsbiology.organism_classificationbehaviourHabitat13. Climate actionlabridsAnimal Science and Zoologycompetition
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Living in a high CO2 world: a global meta-analysis shows multiple trait-mediated fish responses to ocean acidification

2018

International audience; Understanding how marine organisms will be affected by global change is of primary importance to ensure ecosystem functioning and nature contributions to people. This study meets the call for addressing how life‐history traits mediate effects of ocean acidification on fish. We built a database of overall and trait‐mediated responses of teleost fish to future CO2 levels by searching the scientific literature. Using a meta‐analytical approach, we investigated the effects of projected CO2 levels by IPCC for 2050–2070 and 2100 on fish eco‐physiology and behavior from 320 contrasts on 42 species, stemming from polar to tropical regions. Moreover, since organisms may exper…

0106 biological sciencesgrowth[SDE.MCG]Environmental Sciences/Global Changesteleostssurvival010603 evolutionary biology01 natural sciencescalcification14. Life underwaterdevelopment[SDV.BDD]Life Sciences [q-bio]/Development Biologyfish traitsEcology Evolution Behavior and SystematicsteleostbehaviorEcology010604 marine biology & hydrobiologyOcean acidification15. Life on land13. Climate action[SDE]Environmental SciencesTraitEnvironmental scienceFish <Actinopterygii>heterogeneity[SDE.BE]Environmental Sciences/Biodiversity and Ecologyfish traitmetabolismEcological Monographs
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Data from: Living in a high CO2 world: a global meta-analysis shows multiple trait-mediated responses of fish to ocean acidification

2018

Understanding how marine organisms will be affected by global change is of primary importance to ensure ecosystem functioning and nature contributions to people. This study meets the call for addressing how life-history traits mediate effects of ocean acidification on fish. We built a database of overall and trait-mediated responses of teleost fish to future CO2 levels by searching the scientific literature. Using a meta-analytical approach, we investigated the effects of projected CO2 levels by IPCC for 2050-2070 and 2100 on fish eco-physiology and behavior from 320 contrasts on 42 species, stemming from polar to tropical regions. Moreover, since organisms may experience a mosaic of carbon…

medicine and health carecalcificationFish-traitsLife SciencesMedicineTeleosts
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