Zooplankton Ecology
portes grátis
Zooplankton Ecology
Barbosa, Ana Maria Branco; Teodosio, Maria Alexandra
Taylor & Francis Ltd
05/2022
284
Mole
Inglês
9780367620561
15 a 20 dias
539
Descrição não disponível.
Functional Trait Approaches for the Study of Metazooplankton Ecology. Zooplankton-Phytoplankton Interactions in a Changing World. Leading Hypothesis about the Influence of Temperate Marine Fish Larvae on Recruitment Variability that Shaped Larval Ecology. Ocean Acidification Impacts on Zooplankton. Diversity and Biogeography as Revealed by Morphologies and DNA Sequences: Tintinnid Ciliates as an Example. Planktonic Shelled Protists (Foraminifera and Radiolaria Polycystina): Global Biogeographic Patterns in the Surface Sediments. Metazooplankton Dynamics in Coastal Upwelling Systems. Interactions in Plankton Food Webs: Seasonal Succession and Phenology of Baltic Sea Zooplankton. Visualizing and Exploring Zooplankton Spatial-Temporal Variability. New Approaches to Study Jellyfish: From Autonomous Apparatus to Citizen Science. Metabarcoding to Study Zooplankton Diversity. Omics Advances in the Study of Zooplankton: Big Data for Small Drifting Organisms.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
DNA Barcodes;drift organisms;Gelatinous Zooplankton;trophodynamics;Zooplankton Diversity;global change;Environmental DNA;protistoplankton;Zooplanktonic Assemblages;metazooplankton;Upwelling Event;ecosystem;Bioinformatic Procedures;Sedimentation analysis;SSU rDNA;Benthic-pelagic coupling;Zooplanktonic Organisms;Freshwater organisms;Acartia Tonsa;Phagotrophic protists;Jellyfish Blooms;Zooplankton ecology;Copepod Abundance;LSU rDNA;AMO Index;Upwelling Systems;OTU Cluster;Functional Diversity Indices;D1 D2 Region;SSU rDNA Sequence;Citizen Science Projects;Upwelling Areas;Upwelling Regions;Non-metric Multi-dimensional Scaling;Biodiversity Estimates;Fish Larvae
Functional Trait Approaches for the Study of Metazooplankton Ecology. Zooplankton-Phytoplankton Interactions in a Changing World. Leading Hypothesis about the Influence of Temperate Marine Fish Larvae on Recruitment Variability that Shaped Larval Ecology. Ocean Acidification Impacts on Zooplankton. Diversity and Biogeography as Revealed by Morphologies and DNA Sequences: Tintinnid Ciliates as an Example. Planktonic Shelled Protists (Foraminifera and Radiolaria Polycystina): Global Biogeographic Patterns in the Surface Sediments. Metazooplankton Dynamics in Coastal Upwelling Systems. Interactions in Plankton Food Webs: Seasonal Succession and Phenology of Baltic Sea Zooplankton. Visualizing and Exploring Zooplankton Spatial-Temporal Variability. New Approaches to Study Jellyfish: From Autonomous Apparatus to Citizen Science. Metabarcoding to Study Zooplankton Diversity. Omics Advances in the Study of Zooplankton: Big Data for Small Drifting Organisms.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
DNA Barcodes;drift organisms;Gelatinous Zooplankton;trophodynamics;Zooplankton Diversity;global change;Environmental DNA;protistoplankton;Zooplanktonic Assemblages;metazooplankton;Upwelling Event;ecosystem;Bioinformatic Procedures;Sedimentation analysis;SSU rDNA;Benthic-pelagic coupling;Zooplanktonic Organisms;Freshwater organisms;Acartia Tonsa;Phagotrophic protists;Jellyfish Blooms;Zooplankton ecology;Copepod Abundance;LSU rDNA;AMO Index;Upwelling Systems;OTU Cluster;Functional Diversity Indices;D1 D2 Region;SSU rDNA Sequence;Citizen Science Projects;Upwelling Areas;Upwelling Regions;Non-metric Multi-dimensional Scaling;Biodiversity Estimates;Fish Larvae