Search results for " dynamic energy budget"

showing 8 items of 8 documents

Moving Toward a Strategy for Addressing Climate Displacement of Marine Resources: A Proof-of-Concept

2020

Realistic predictions of climate change effects on natural resources are central to adaptation policies that try to reduce these impacts. However, most current forecasting approaches do not incorporate species-specific, process-based biological information, which limits their ability to inform actionable strategies. Mechanistic approaches, incorporating quantitative information on functional traits, can potentially predict species- and population-specific responses that result from the cumulative impacts of small-scale processes acting at the organismal level, and can be used to infer population-level dynamics and inform natural resources management. Here we present a proof-of-concept study…

0106 biological sciencesMarine conservationSettore BIO/07 - Ecologia010504 meteorology & atmospheric scienceslcsh:QH1-199.5Engraulis encrasicolusProcess (engineering)Computer scienceClimate changeOcean EngineeringAquatic Sciencelcsh:General. Including nature conservation geographical distributionclimate-informed management; Dynamic Energy Budget model; Engraulis encrasicolus; life-history traits; scenarios; temperature increaseOceanography01 natural sciencesEnvironmental dataDynamic Energy Budget model14. Life underwaterNatural resource managementlcsh:Scienceclimate-informed management0105 earth and related environmental sciencesWater Science and TechnologyGlobal and Planetary Changebusiness.industry010604 marine biology & hydrobiologyEnvironmental resource managementscenariosNatural resourcelife-history traitsAdaptive management13. Climate actionSettore BIO/03 - Botanica Ambientale E Applicatatemperature increaselcsh:QFisheries managementbusiness
researchProduct

Energetics, Particle Capture and Growth Dynamics of Benthic Suspension Feeders

2017

Marine benthic communities are dominated by suspension feeders, including those actively pumping water, passively encountering particles, or some combination of the two. The mechanisms by which particles are encountered and retained are now well known for a range of water flow conditions and organism morphologies. Recent research has attempted to quantify the energetic components of suspension feeding, including intake of particles, pumping rates, and metabolic costs of these activities. Energetic models depend strongly on environmental conditions, including temperature, flow speed, and food availability, for example. The effects of these variables have been combined for realistic scenarios…

0106 biological sciencesSettore BIO/07 - Ecologia010604 marine biology & hydrobiologyDynamics (mechanics)EnergeticsEnergetics Suspension feeding Benthos Particle capture Dynamic energy budgetBiology010603 evolutionary biology01 natural sciencesBenthic zoneChemical physicsSuspension (vehicle)Particle captureMarine engineering
researchProduct

Integrating mechanistic models and climate change projections to predict invasion of the mussel, Mytilopsis sallei, along the southern China coast

2021

Species invasion is an important cause of global biodiversity decline and is often mediated by shifts in environmental conditions such as climate change. To investigate this relationship, a mechanistic Dynamic Energy Budget model (DEB) approach was used to predict how climate change may affect spread of the invasive mussel Mytilopsis sallei, by predicting variation in the total reproductive output of the mussel under different scenarios. To achieve this, the DEB model was forced with present-day satellite data of sea surface temperature (SST) and chlorophyll-a concentration (Chl-a), and SST under two warming RCP scenarios and decreasing current Chl-a levels, to predict future responses. Und…

Settore BIO/07 - EcologiaChinaEnvironmental Engineering010504 meteorology & atmospheric sciencesRange (biology)Climate ChangeDynamic energy budgetClimate change010501 environmental sciences01 natural sciencesAquacultureAnimalsEnvironmental Chemistry14. Life underwaterMytilopsis salleiWaste Management and Disposal0105 earth and related environmental sciencesbiologyEcologybusiness.industryChlorophyll ATemperatureMusselbiology.organism_classificationPollutionBivalviaSea surface temperature13. Climate actionBlack-striped mussel Climate change Dynamic Energy Budget model Reproductive output Southern China Species invasionbusinessGlobal biodiversityScience of The Total Environment
researchProduct

Predicting biological invasions in marine habitats through eco-physiological mechanistic models: a case study with the bivalveBrachidontes pharaonis

2013

Aim We used a coupled biophysical ecology (BE)-physiological mechanistic modelling approach based on the Dynamic Energy Budget theory (DEB, Dynamic energy budget theory for metabolic organisation, 2010, Cambridge University Press, Cambridge; DEB) to generate spatially explicit predictions of physiological performance (maximal size and reproductive output) for the invasive mussel, Brachidontes pharaonis. Location We examined 26 sites throughout the central Mediterranean Sea. Methods We ran models under subtidal and intertidal conditions; hourly weather and water temperature data were obtained from the Italian Buoy Network, and monthly CHL-a data were obtained from satellite imagery. Results …

Settore BIO/07 - EcologiaEcologyDynamic energy budgetMarine habitatsIntertidal zoneBiologyLife history theoryMediterranean seaBivalves Dynamic Energy Budget model fundamental niche invasive species life-history traits Mediterranean Sea.HabitatBrachidontes pharaonisBiological dispersalEcology Evolution Behavior and SystematicsDiversity and Distributions
researchProduct

A bioenergetics framework for integrating the effects of multiple stressors: Opening a 'black box' in climate change research

2015

Climate change is already impacting marine ecosystems across a range of scales, from individual physiology, to changes in species interactions and community structure, and ultimately to patterns in geographic distribution. Predicting how marine ecosystems will respond to environmental change is a signifi cant challenge because vulnerability to climatic and non-climatic stressors is highly variable, and depends on an organism’s functional traits, tolerance to stressors, and the environment in which it lives. We present a mechanistic approach based on biophysical and dynamic energy budget models that integrates the cumulative effects of multiple environmental stressors (temperature and food) …

Settore BIO/07 - EcologiaEnvironmental changeIntertidal Dynamic Energy Budget model Biophysical model Ecophysiology Mytilus californianusEcologyDynamic energy budgetStressorVulnerabilityCumulative effectsClimate changeAquatic ScienceBiologyMarine ecosystemEcology Evolution Behavior and SystematicsOrganism
researchProduct

Parameterisation of bivalve functional traits for mechanistic eco-physiological dynamic energy budget (DEB) models

2013

Mechanistic models such as those based on dynamic energy budget (DEB) theory are emergent ecomechanics tools to investigate the extent of fitness in organisms through changes in life history traits as explained by bioenergetic principles. The rapid growth in interest around this approach originates from the mechanistic characteristics of DEB, which are based on a number of rules dictating the use of mass and energy flow through organisms. One apparent bottleneck in DEB applications comes from the estimations of DEB parameters which are based on mathematical and statistical methods (covariation method). The parameterisation process begins with the knowledge of some functional traits of a tar…

Settore BIO/07 - EcologiaMechanistic modelsEcologyEcologyDynamic energy budgetBivalveAnthropogenic pressurebivalve mechanistic model DEBBrachidontes pharaonisAquatic ScienceBiologyBody sizeBottleneckLife history theoryMechanistic models; Dynamic energy budget; Bivalve; Parameterisation methods; Brachidontes pharaonis; Mediterranean SeaParameterisation methodsEnergy flowMediterranean SeaDynamic energy budgetBiochemical engineeringEcology Evolution Behavior and SystematicsOrganismExperimental OrganismMarine Ecology Progress Series
researchProduct

Predictive mechanistic bioenergetics to model habitat suitability of shellfish culture in coastal lakes

2014

Quantitative tools based on mechanistic modelling of functional traits able to enhance the sustainability of aquaculture and most other human activities (i.e. reducing the likelihood of detrimental impacts optimising productions), are especially important factors in the decision to site aquaculture facilities in coastal lakes, ponds and lagoons and, in the case of detrimental impact, to adopt mitigation measures. We tested the ability of mechanistic functional trait based models to predict life history traits of cultivable shellfish in shallow coastal lakes. Dynamic Energy Budget (DEB) models were run to generate spatially explicit predictions of Mytilus galloprovincialis life history (LH) …

Settore BIO/07 - EcologiaMediterranean climatehabitat suitabilityDynamic energy budgetAquatic ScienceBiologyorganismal fitnessOceanographyLife history theoryAquacultureDynamic Energy Budget modellife history traitsEcological nicheaquaculture; Dynamic Energy Budget model; habitat suitability; life history traits; Mytilus galloprovincialis; organismal fitness; lagoonaquaculture Dynamic Energy Budget model habitat suitability life history traits Mytilus galloprovincialis organismal fitness lagoonbusiness.industryEcologybiology.organism_classificationMytiluslagoonFisheryaquacultureMytilus galloprovincialisHabitatSustainabilitybusiness
researchProduct

Mussels as a model system for integrative ecomechanics.

2015

Copyright © 2015 by Annual Reviews. All rights reserved. Mussels form dense aggregations that dominate temperate rocky shores, and they are key aquaculture species worldwide. Coastal environments are dynamic across a broad range of spatial and temporal scales, and their changing abiotic conditions affect mussel populations in a variety of ways, including altering their investments in structures, physiological processes, growth, and reproduction. Here, we describe four categories of ecomechanical models (biochemical, mechanical, energetic, and population) that we have developed to describe specific aspects of mussel biology, ranging from byssal attachment to energetics, population growth, an…

Settore BIO/07 - EcologiaRange (biology)Climate ChangeOceans and SeasPopulationMarine Biologymussel foot proteinsAquacultureBiologyOceanographytenacitybyssus dislodgment dynamic energy budget fitness mussel foot proteins tenacityRocky shoreTheoreticalAquacultureModelsPopulation growthAnimalsBody SizeeducationTemporal scalesEcosystemAbiotic componentPopulation Densityeducation.field_of_studyEcologybusiness.industryReproductionMusselModels TheoreticalbyssusfitnessMarine Biology & HydrobiologyBiomechanical PhenomenaBivalviaFisherydislodgmentdynamic energy budgetbusinessAnnual review of marine science
researchProduct