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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.

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

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Zooplankton are of key importance in the structure and functioning of aquatic food webs. They contribute to a large part of the functional and structural biodiversity of predator and prey plankton communities. Promptly responding to long-term and seasonal changes in the physical and chemical environment, they are sensitive indicators of patterns and mechanisms of impact drivers, both natural and human induced. In this volume, we aim to present evidence for both long-term and seasonal changes in zooplankton community structure and dynamics, investigating different approaches from population dynamics to advanced molecular techniques and reconstructing past communities from subfossil remains in lake sediments.

Research & information: general --- Zn-Pb maine --- subfossil --- Cladocera --- heavy metals --- CCA analyses --- anthropogenic impact --- B-Splines smoothing --- Functional Data Analysis --- limnology --- monitoring ecological dynamics --- oligotrophication --- zooplankton --- phytoplankton --- Yellow Sea --- sand-dust deposition --- protists --- trophic structure --- Acartia tonsa --- Lagoon of Venice --- nonindigenous species --- zooplankton distribution --- coexistence patterns --- niche overlaps --- long-term ecological research --- Daphnia pulex --- stream ecology --- river dispersion --- live organic matter --- fish feeding --- population dynamics --- size --- match-mismatch --- Spitsbergen --- laser optical plankton counter --- stable isotope analysis --- persistent organic pollutants --- crustacean zooplankton --- freshwater --- size fractions --- seasonality --- autochthony --- cladocera --- functional ecology --- organic carbon --- paleolimnology --- tundra lakes --- UV radiation --- Mesozooplankton --- salinity --- abundance --- distribution --- diversity --- Maryland Coastal Bays --- species richness --- phylogenetic diversity --- bioclimate --- freshwater ponds --- diapausing eggs --- high mountain lakes --- Himalayas --- Daphnia --- Bosmina --- pheophorbide a --- fish predation --- grazing --- ephippia --- cladocera sub-fossil remains

Choose an application

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

Zooplankton are of key importance in the structure and functioning of aquatic food webs. They contribute to a large part of the functional and structural biodiversity of predator and prey plankton communities. Promptly responding to long-term and seasonal changes in the physical and chemical environment, they are sensitive indicators of patterns and mechanisms of impact drivers, both natural and human induced. In this volume, we aim to present evidence for both long-term and seasonal changes in zooplankton community structure and dynamics, investigating different approaches from population dynamics to advanced molecular techniques and reconstructing past communities from subfossil remains in lake sediments.

Research & information: general --- Zn-Pb maine --- subfossil --- Cladocera --- heavy metals --- CCA analyses --- anthropogenic impact --- B-Splines smoothing --- Functional Data Analysis --- limnology --- monitoring ecological dynamics --- oligotrophication --- zooplankton --- phytoplankton --- Yellow Sea --- sand-dust deposition --- protists --- trophic structure --- Acartia tonsa --- Lagoon of Venice --- nonindigenous species --- zooplankton distribution --- coexistence patterns --- niche overlaps --- long-term ecological research --- Daphnia pulex --- stream ecology --- river dispersion --- live organic matter --- fish feeding --- population dynamics --- size --- match-mismatch --- Spitsbergen --- laser optical plankton counter --- stable isotope analysis --- persistent organic pollutants --- crustacean zooplankton --- freshwater --- size fractions --- seasonality --- autochthony --- cladocera --- functional ecology --- organic carbon --- paleolimnology --- tundra lakes --- UV radiation --- Mesozooplankton --- salinity --- abundance --- distribution --- diversity --- Maryland Coastal Bays --- species richness --- phylogenetic diversity --- bioclimate --- freshwater ponds --- diapausing eggs --- high mountain lakes --- Himalayas --- Daphnia --- Bosmina --- pheophorbide a --- fish predation --- grazing --- ephippia --- cladocera sub-fossil remains