%0
Generic
%T
Climate change and marine and freshwater toxins
%A Botana, Luis M.
%A Louzao, M. Carmen
%A Vilariño, Natalia
%I De Gruyter
%@ 9783110333596
%K Marine toxins Climatic factors
%K Climatic changes
%K Climatic changes.
%K Marine toxins.
%K Analytische Chemie.
%K Klimaänderung.
%K Meeresbiologie.
%K Toxin.
%K MEDICAL / Toxicology
%K Electronic books
%K Aufsatzsammlung
%K Klimaänderung
%K Wasserblüte
%K Toxizität
%D [2015]
%D , © 2015
%X Description based upon print version of record
%X 1.4.3 Changes in other physicochemical parameters1.5 Discussion and conclusions; 2 New techniques in environment monitoring; 2.1 Introduction; 2.2 In situ harmful algal bloom monitoring; 2.2.1 Optical remote sensing; 2.2.2 Automated monitoring; 2.2.3 HABs sampling based on absorption; 2.3 Liquid chromatography and mass spectrometry; 2.4 Biosensors for HABs monitoring; 2.4.1 Optical biosensors; 2.4.2 Electrochemical biosensors; 2.4.3 Mass biosensors; 2.4.4 Magnetic-based biosensors; 2.5 Advances in nanotechnology for HAB detection; 2.5.1 Nanoparticles; 2.5.2 Analytical nano-applications.
%X 2.6 Molecular biology-based techniques for HABs detection2.6.1 Overview; 2.6.2 DNA/RNA targets; 2.6.3 Hybridization-based techniques; 2.6.4 Amplification-based techniques; 2.6.5 Aptamers for toxin detection; 2.7 Future perspectives; 3 Responses of marine animals to ocean acidification; 3.1 Introduction; 3.2 What causes ocean acidification; 3.2.1 Effect of atmospheric carbon dioxide loading; 3.2.2 Influence of primary production; 3.2.3 Carbon balance in coastal areas; 3.2.4 Interactions between temperature changes and ocean acidification.
%X 3.3 Processes of animals that are expected to be affected3.3.1 pH regulation; 3.3.2 Calcification; 3.3.3 Development; 3.3.4 Oxygen transport and metabolism; 3.3.5 Behavior; 3.4 Conclusions; 4 Alexandrium spp.: genetic and ecological factors influencing saxitoxin production and proliferation; 4.1 Introduction; 4.2 Alexandrium taxonomy, phylogenetics and species evolution; 4.3 What are saxitoxins?; 4.3.1 Which species produce saxitoxins?; 4.3.2 The sxt genes in dinoflagellates; 4.4 Ecological factors influencing Alexandrium spp. proliferation and toxicity.
%X 4.4.1 The role of ecophysiological adaptations in ecology and bloom formation of Alexandrium life cycles4.4.2 Mixotrophic nutrition; 4.4.3 Allelopathy; 4.5 Effects of environmental factors on Alexandrium proliferation and toxicity; 4.5.1 Nutrients; 4.5.2 Temperature; 4.5.3 CO2; 4.5.4 Salinity; 4.6 Adaptation to changing climate conditions; 5 Potential effects of climate change on cyanobacterial toxin production; 5.1 Introduction; 5.1.1 Microcystins and nodularins; 5.1.2 Cylindrospermopsins; 5.1.3 Saxitoxins; 5.1.4 Anatoxin-a and homo-anatoxin-a; 5.1.5 Anatoxin-a(S).
%X 5.1.6 Lipopolysaccharides (LPS).
%X Preface; Contents; List of contributing authors; 1 Variability and trends of global sea ice cover and sea level: effects on physicochemical parameters; 1.1 Introduction; 1.2 Variability and trends of global sea ice; 1.2.1 Arctic Region; 1.2.2 Antarctic Region; 1.3 Variability and trends in sea level; 1.3.1 Contributions from warming oceans; 1.3.2 Contributions from glaciers, ice sheets and others; 1.4 Effects on physicochemical parameters; 1.4.1 Large-scale changes in surface temperature; 1.4.2 Large-scale changes in plankton concentration and primary productivity.
%C De Gruyter
%C Berlin
%U http://slubdd.de/katalog?TN_libero_mab2