Hendrik Schubert mostly deals with Ecology, Ecosystem, Oceanography, Botany and Species richness. His is doing research in Biodiversity, Abundance, Ecology, Eutrophication and Range, both of which are found in Ecology. The various areas that Hendrik Schubert examines in his Ecosystem study include Fucus, DPSIR, Global change, Social ecological model and Abiotic component.
Hendrik Schubert combines subjects such as Dominance, Phytoplankton and Seasonality with his study of Oceanography. His work on Photosynthesis and Protozoa is typically connected to Toltrazuril and Parasite hosting as part of general Botany study, connecting several disciplines of science. His Photosynthesis research is multidisciplinary, incorporating elements of Phycocyanin, Acclimatization and Chlorophyll.
His scientific interests lie mostly in Ecology, Botany, Oceanography, Photosynthesis and Phytoplankton. His work is connected to Ecosystem, Plankton, Salinity, Species richness and Biodiversity, as a part of Ecology. His study in the field of Algae, Chara and Photoinhibition also crosses realms of Irradiance.
His biological study spans a wide range of topics, including Water quality and Eutrophication. Hendrik Schubert has included themes like Acclimatization and Chlorophyll in his Photosynthesis study. His work carried out in the field of Phytoplankton brings together such families of science as Biomass, Trophic level and Water column.
Ecology, Chara, Botany, Baltic sea and Oceanography are his primary areas of study. His works in Ecology, Herbivore, Plankton, Aquatic ecosystem and Bloom are all subjects of inquiry into Ecology. His Chara study also includes
Hendrik Schubert has researched Botany in several fields, including Range and Niche. His research investigates the connection between Baltic sea and topics such as Salinity that intersect with problems in Photosynthesis. The Oceanography study combines topics in areas such as Peat, Biogeochemical cycle and Eutrophication.
His primary scientific interests are in Ecology, Ecosystem, Herbivore, Nutrient and Marine ecosystem. His Ecology study frequently links to related topics such as Chaos. The study incorporates disciplines such as Environmental gradient, Habitat, Salinity, Fucus vesiculosus and Shore in addition to Ecosystem.
His Herbivore research includes themes of Ecosystem engineer, Colonization, Ecology, Foundation species and Alternative stable state. His Nutrient research integrates issues from Macrophyte, Open sea, Pollutant and Germination. His studies in Marine ecosystem integrate themes in fields like Peat, Oceanography, Sea level and Biogeochemical cycle.
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The genus Laminaria sensu lato : recent insights and developments
Inka Bartsch;Christian Wiencke;Kai Bischof;Cornelia M. Buchholz.
European Journal of Phycology (2008)
Microplastic concentrations in beach sediments along the German Baltic coast
Andrea Stolte;Stefan Forster;Gunnar Gerdts;Hendrik Schubert.
Marine Pollution Bulletin (2015)
ADVANCES IN MARINE BIOLOGY, VOL 59
Academic Press (2011)
An overview of ecological status, vulnerability and future perspectives of European large shallow, semi-enclosed coastal systems, lagoons and transitional waters
Alice Newton;John Icely;Sónia Cristina;Ana Brito.
Estuarine Coastal and Shelf Science (2014)
Seasonality of Coastal Phytoplankton in the Baltic Sea: Influence of Salinity and Eutrophication
Z.R. Gasiūnaitė;A.C. Cardoso;A.-S. Heiskanen;P. Henriksen.
Estuarine Coastal and Shelf Science (2005)
Stress Ecology in Fucus: Abiotic, Biotic and Genetic Interactions
Advances in Marine Biology (2011)
Long-Term Response toward Inorganic Carbon Limitation in Wild Type and Glycolate Turnover Mutants of the Cyanobacterium Synechocystis sp. Strain PCC 6803
Marion Eisenhut;Eneas Aguirre von Wobeser;Ludwig Jonas;Hendrik Schubert.
Plant Physiology (2007)
Evaluation of the different levels of variability in the underwater light field of a shallow estuary
Helgoland Marine Research (2001)
Disruption of a Synechocystis sp. PCC 6803 gene with partial similarity to phytochrome genes alters growth under changing light qualities
FEBS Letters (1997)
Empirical relationships linking distribution and abundance of marine vegetation to eutrophication
Ecological Indicators (2008)
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