Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Neuroactive chemicals are the largest group of micropollutants present in European rivers. There is increasing concern about the behavioral effects of these neuroactive chemicals on aquatic wildlife, potentially resulting in detrimental effects on individual, population, and community levels of ecological organization. This Special Issue, titled “Behavioral Impairment in Aquatic Organisms Exposed to Neurotoxic Pollutants”, presents original research and review articles addressing behavioral impairment induced by different aquatic invertebrate and vertebrate species to neuroactive chemicals. The selected studies include different methodological approaches, such as multi-compartment, automated plug and play, and homemade setups systems. We believe that this collection provides essential information regarding research and challenges on the behavioral ecotoxicity of invertebrate and vertebrate aquatic organisms, as well as the molecular mechanisms behind these effects.

Research & information: general --- Environmental economics --- Pollution control --- avoidance --- behavior --- habitat selection --- multi-compartmented systems --- non-forced exposure --- repellency --- natural products --- fungicides --- early development --- teratogenicity --- zebrafish --- behaviour --- oxidative stress --- ecotoxicology --- artemia --- psychotropics --- behavioural ecotoxicology --- mixture toxicity --- neurotoxicity --- antagonism --- organophosphate --- acetylcholinesterase inhibitors --- GABA --- risk assessment --- spontaneous movement activity --- zebrafish larvae --- serotonin --- neurotransmitters --- modulation --- copper --- glyphosate --- chlorpyrifos --- early life stages --- rainbow trout --- swimming behavior --- DNA damage --- development --- Daphnia magna --- neurotransmitter --- pharmaceuticals --- pharmaceuticals in the environment --- environmental risk assessment --- fish --- mixture toxicology --- predictive toxicology --- pollution --- avoidance --- behavior --- habitat selection --- multi-compartmented systems --- non-forced exposure --- repellency --- natural products --- fungicides --- early development --- teratogenicity --- zebrafish --- behaviour --- oxidative stress --- ecotoxicology --- artemia --- psychotropics --- behavioural ecotoxicology --- mixture toxicity --- neurotoxicity --- antagonism --- organophosphate --- acetylcholinesterase inhibitors --- GABA --- risk assessment --- spontaneous movement activity --- zebrafish larvae --- serotonin --- neurotransmitters --- modulation --- copper --- glyphosate --- chlorpyrifos --- early life stages --- rainbow trout --- swimming behavior --- DNA damage --- development --- Daphnia magna --- neurotransmitter --- pharmaceuticals --- pharmaceuticals in the environment --- environmental risk assessment --- fish --- mixture toxicology --- predictive toxicology --- pollution

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The cooperation between plankton biologists and fluid dynamists has enhanced our knowledge of life within the plankton communities in ponds, lakes, and seas. This book assembled contributions on plankton–flow interactions, with an emphasis on syntheses and/or predictions. However, a wide range of novel insights, reasonable scenarios, and founded critiques are also considered in this book.

Research & information: general --- white sea --- arctic ocean --- net tow --- turbulence avoidance --- feeding mode --- National Centers for Environmental Information --- European Centre for Medium-Range Weather Forecasts --- plankton --- turbulence --- data analysis --- copepod --- numerical simulation --- immersed boundary method --- multi-scale simulations --- form-function relation --- Kolmogorov --- chemosensory --- signaling --- zooplankton --- jellyfish --- hydrodynamics --- escape behavior --- Acartia tonsa --- copepods --- cruising --- escape swimming --- kinematics --- power --- cost of transport --- locomotion --- reorientation --- swimming microorganism --- nutrient patchiness --- phytoplankton --- surge uptake --- nutrient depletion --- turbulent history --- microplastics --- swimming behavior --- imaging --- Temora turbinata --- propulsion --- rotational physics --- convergent evolution --- torque --- moment of inertia --- animal movement --- plankton jumping --- impulsively generated viscous vortex ring --- impulsive Stokeslet --- impulsive stresslet --- elastic collision --- Froude propulsion efficiency --- added mass coefficient --- n/a

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The cooperation between plankton biologists and fluid dynamists has enhanced our knowledge of life within the plankton communities in ponds, lakes, and seas. This book assembled contributions on plankton–flow interactions, with an emphasis on syntheses and/or predictions. However, a wide range of novel insights, reasonable scenarios, and founded critiques are also considered in this book.

Research & information: general --- white sea --- arctic ocean --- net tow --- turbulence avoidance --- feeding mode --- National Centers for Environmental Information --- European Centre for Medium-Range Weather Forecasts --- plankton --- turbulence --- data analysis --- copepod --- numerical simulation --- immersed boundary method --- multi-scale simulations --- form-function relation --- Kolmogorov --- chemosensory --- signaling --- zooplankton --- jellyfish --- hydrodynamics --- escape behavior --- Acartia tonsa --- copepods --- cruising --- escape swimming --- kinematics --- power --- cost of transport --- locomotion --- reorientation --- swimming microorganism --- nutrient patchiness --- phytoplankton --- surge uptake --- nutrient depletion --- turbulent history --- microplastics --- swimming behavior --- imaging --- Temora turbinata --- propulsion --- rotational physics --- convergent evolution --- torque --- moment of inertia --- animal movement --- plankton jumping --- impulsively generated viscous vortex ring --- impulsive Stokeslet --- impulsive stresslet --- elastic collision --- Froude propulsion efficiency --- added mass coefficient --- white sea --- arctic ocean --- net tow --- turbulence avoidance --- feeding mode --- National Centers for Environmental Information --- European Centre for Medium-Range Weather Forecasts --- plankton --- turbulence --- data analysis --- copepod --- numerical simulation --- immersed boundary method --- multi-scale simulations --- form-function relation --- Kolmogorov --- chemosensory --- signaling --- zooplankton --- jellyfish --- hydrodynamics --- escape behavior --- Acartia tonsa --- copepods --- cruising --- escape swimming --- kinematics --- power --- cost of transport --- locomotion --- reorientation --- swimming microorganism --- nutrient patchiness --- phytoplankton --- surge uptake --- nutrient depletion --- turbulent history --- microplastics --- swimming behavior --- imaging --- Temora turbinata --- propulsion --- rotational physics --- convergent evolution --- torque --- moment of inertia --- animal movement --- plankton jumping --- impulsively generated viscous vortex ring --- impulsive Stokeslet --- impulsive stresslet --- elastic collision --- Froude propulsion efficiency --- added mass coefficient