Results 181 to 190 of about 52,993 (223)

Distinct patterns of microbial association across deep-sea corals from the Western Pacific Magellan Seamounts. [PDF]

Microbiol Spectr
Song W, Zhang S, Perez M, Li J, Ma H, Thomas T, Qiu J-W, Qian P-Y.   +7 more
europepmc   +1 more source

The emergence of nitrification during DOM processing by marine microbial assemblages. [PDF]

PLoS One
Flynn KJ, Clark DR, Tait K, Kimmance SA, Fileman ES, Polimene L.   +5 more
europepmc   +1 more source

Amazonian rainforest bioaerosol influenced by African dust intrusion

Weber B, Weber J, de Angelis IH, Brill S, Barbosa C, Maier S, Yordanova P, Alves R, Dias-Junior C, Araujo A, Artaxo P, Godoi R, Pöschl U, Pöhlker C.   +13 more
europepmc   +1 more source

Variations in the latitudinal diversity gradients of the ocean microbiome

Eriksson D, Schiller J, Schickele A, Priest T, Mankowski A, Faucher E, Ustick LJ, Kuhn M, Miravet-Verde S, Ruscheweyh H, Clerc C, Gruber N, Sunagawa S, Bork P, Vogt M.   +14 more
europepmc   +1 more source

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High abundance of Archaea in Antarctic marine picoplankton

Nature, 1994
Archaea (archaebacteria) constitute one of the three major evolutionary lineages of life on Earth. Previously these prokaryotes were thought to predominate in only a few unusual and disparate niches, characterized by hypersaline, extremely hot, or strictly anoxic conditions.
Edward F Delong
exaly   +3 more sources

Anaerobic oxidation of ethane by archaea from a marine hydrocarbon seep

Nature, 2019
Ethane is the second most abundant component of natural gas in addition to methane, and-similar to methane-is chemically unreactive. The biological consumption of ethane under anoxic conditions was suggested by geochemical profiles at marine hydrocarbon seeps1-3, and through ethane-dependent sulfate reduction in slurries4-7.
Niculina Musat, Oliver J Lechtenfeld, Matthias Schmidt   +2 more
exaly   +4 more sources

Significant contribution of Archaea to extant biomass in marine subsurface sediments

Nature, 2008
Deep drilling into the marine sea floor has uncovered a vast sedimentary ecosystem of microbial cells. Extrapolation of direct counts of stained microbial cells to the total volume of habitable marine subsurface sediments suggests that between 56 Pg (ref. 1) and 303 Pg (ref. 3) of cellular carbon could be stored in this largely unexplored habitat. From
Julius S Lipp, Yuki Morono, Fumio Inagaki   +2 more
exaly   +3 more sources

Diverse viruses of marine archaea discovered using metagenomics

Environmental Microbiology, 2022
Abstract During the past decade, metagenomics became a method of choice for the discovery of novel viruses. However, host assignment for uncultured viruses remains challenging, especially for archaeal viruses, which are grossly undersampled compared to viruses of bacteria and eukaryotes.
Zhou, Yifan, Zhou, Liang, Yan, Shuling, Chen, Lanming, Krupovic, Mart, Wang, Yongjie   +5 more
openaire   +3 more sources

Planktonic Marine Archaea

Annual Review of Marine Science, 2019
Archaea are ubiquitous and abundant members of the marine plankton. Once thought of as rare organisms found in exotic extremes of temperature, pressure, or salinity, archaea are now known in nearly every marine environment. Though frequently referred to collectively, the planktonic archaea actually comprise four major phylogenetic groups, each with ...
Alyson E, Santoro, R Alexander, Richter, Christopher L, Dupont   +2 more
openaire   +2 more sources