Recurring patterns in bacterioplankton dynamics during coastal spring algae blooms by Hanno Teeling, Bernhard M Fuchs, Christin M Bennke, Karen Krüger, Meghan Chafee, Lennart Kappelmann, Greta Reintjes, Jost Waldmann, Christian Quast, Frank Oliver Glöckner, Judith Lucas, Antje Wichels, Gunnar Gerdts, Karen H Wiltshire, Rudolf I Amann

Subjects: Get full text

Diversity and distribution on phytoplankto in coastal and oceanic waters off Havana city/ Diversidad y distribución del fitoplancton en aguas costeras y oceánicas de la Ciudad de L... by Rosely Peraza-Escarrá, Carlos Alonso-Hernández, Maikel Armenteros

Subjects: Get full text

Diagnosis of physical and biological controls on phytoplankton distribution in the Gulf of Maine-Georges Bank region by Wang, Caixia

Subjects: Get full text

Diversity of microbial plankton in the Southwest Pacific Ocean: a synopsis from carbon production to export by Ong, Denise Rui Ying

Subjects: Get full text

The mode of speciation during a recent radiation in open ocean phytoplankton by Filatov, D, Bendif, E, Archontikis, O, Hagino, K, Rickaby, R

“…Despite the enormous ecological importance of marine phytoplankton, surprisingly little is known about how new phytoplankton species originate and evolve in the open ocean, in the absence of apparent geographic barriers that typically act as isolation mechanisms in speciation. …”

Anthropogenic climate change drives non-stationary phytoplankton internal variability by G. W. Elsworth, N. S. Lovenduski, K. M. Krumhardt, T. M. Marchitto, S. Schlunegger

“…<p>Earth system models suggest that anthropogenic climate change will influence marine phytoplankton over the coming century with light-limited regions becoming more productive and nutrient-limited regions less productive. …”
Get full text

Closely related phytoplankton species produce similar suites of dissolved organic matter by Becker, Jamie William, Berube, Paul M., Follett, Christopher, Waterbury, John B., Chisholm, Sallie (Penny), Repeta, Daniel J., DeLong, Edward Francis

“…Production of dissolved organic matter (DOM) by marine phytoplankton supplies the majority of organic substrate consumed by heterotrophic bacterioplankton in the sea. …”
Get full text
Get full text

A baseline study of tropical phytoplankton abundance and its relationships to the environmental variables in the Terengganu river estuary, Malaysia by Lee, Hin Lee, Tangang, Fredolin, Md. Yusoff, Fatimah, Zaiton Ibrahim, Zelina, Kasim, Mohd Fadhil, Mohd Ariff, Mohd Afzaihelmi

“…In contrast, the nutrients were positively related to freshwater phytoplankton, but negatively correlated to the marine phytoplankton, which results in low concentrations of nutrients in the coastal region that could be caused by intensive uptake by the abundance of marine phytoplankton. …”
Get full text

On the variation of alkalinity during phytoplankton photosynthesis

“…The alkalinity of the organic constituents of marine phytoplankton and their participation in the total alkalinity (TA) change of seawater during photosynthesis are carefully assessed. …”
Get full text

On the variation of alkalinity during phytoplankton photosynthesis by F Fraga, XA Álvarez-Salgado

“… The alkalinity of the organic constituents of marine phytoplankton and their participation in the total alkalinity (TA) change of seawater during photosynthesis are carefully assessed. …”
Get full text

Synchronized Regulation of Different Zwitterionic Metabolites in the Osmoadaption of Phytoplankton by Georg Pohnert, Björn Gebser

“…Direct quantification of zwitterionic metabolites via LC-MS is a powerful tool to unravel the complex osmoadaption and regulation mechanisms of marine phytoplankton.…”
Get full text

Codon usage bias in phytoplankton by Krasovec, M, Filatov, DA

“…Codon bias is modest in most groups, despite the astronomically large population sizes of marine phytoplankton. The strength of the codon bias, measured with the effective number of codons, is the strongest in Haptophyta and the weakest in Chlorarachniophyta. …”

Codon Usage Bias in Phytoplankton by Marc Krasovec, Dmitry A. Filatov

“…Codon bias is modest in most groups, despite the astronomically large population sizes of marine phytoplankton. The strength of the codon bias, measured with the effective number of codons, is the strongest in Haptophyta and the weakest in Chlorarachniophyta. …”
Get full text

Insights into Stress-Induced Death Processes during Aging in the Marine Bloom-Forming Dinoflagellate <i>Karenia brevis</i> by Yida Gao, Deana L. Erdner

“…This research highlights the existence of PCD in HAB species and that aging marine phytoplankton are more susceptible to exogenous stress, which agrees with previous observations of significant PCD during bloom decline.…”
Get full text

Controls on nickel isotope compositions of modern seawaters and marine sediments by Wang, T-H

“…In this thesis, Ni isotope fractionation during marine phytoplankton uptake and amorphous Ni-sulfide formation are characterized, to improve the understanding of biogeochemistry of Ni and its isotopes in the ocean, from the surface to the bottom of the ocean. …”

A metabolomic approach to investigate effects of ocean acidification on a polar microalga Chlorella sp. by Tan, Yong Hao, Lim, Phaik Eem, Beardall, John, Poong, Sze Wan, Phang, Siew Moi

“…Ocean acidification, due to increased levels of anthropogenic carbon dioxide, is known to affect the physiology and growth of marine phytoplankton, especially in polar regions. However, the effect of acidification or carbonation on cellular metabolism in polar marine phytoplankton still remains an open question. …”

Ecological drivers of bacterial community assembly in synthetic phycospheres by Fu, He, Uchimiya, Mario, Gore, Jeff, Moran, Mary Ann

“…In the nutrient-rich region surrounding marine phytoplankton cells, heterotrophic bacterioplankton transform a major fraction of recently fixed carbon through the uptake and catabolism of phytoplankton metabolites. …”
Get full text

The cellular response to ocean warming in Emiliania huxleyi by Craig J. Dedman, Samuel Barton, Marjorie Fournier, Rosalind E. M. Rickaby

“…Marine phytoplankton contribute substantially to the global flux of carbon from the atmosphere to the deep ocean. …”
Get full text

Photosynthetic quotient relationship to inorganic nitrogen of rivers in Trengganu by Shamsuddin, Lokman

“…Nevertheless, the present findings tally well with that of marine phytoplankton (ie. P.Q is 1.2) when ammonia is the prime source of nitrogen.…”
Get full text

Microbial production and consumption of marine dissolved organic matter by Becker, Jamie William

Get full text