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Ocean Biogeochemical Dynamics

Exploring the planetary boundary for chemical pollution. Dranguet, P. Transcriptomic approach for assessment of the impact on microalga and macrophyte of in-situ exposure in river sites contaminated by chlor-alkali plant effluents. Water Res. Biofilm composition in the Olt River Romania reservoirs impacted by a chlor-alkali production plant.

Processes Impacts 19, — Eglinton, T. Grand challenges in biogeoscience.

Biogeochemical cycles in the Baltic Sea

Ellwood, M. Iron stable isotopes track pelagic iron cycling during a subtropical phytoplankton bloom. Espinasse, B. Comparative persistence of engineered nanoparticles in a complex aquatic ecosystem. Evans, M. R, Norris, K. J, and Benton, T. Predictive ecology: systems approaches. Fischer, B. The toxicity of chemical pollutants in dynamic natural systems: the challenge of integrating environmental factors and biological complexity. Total Environ.

Perspective ARTICLE

Galloway, T. Interactions of microplastic debris throughout the marine ecosystem. Hayes, T. From silent spring to silent night: agrochemicals and the anthropocene. Elementa Sci. Anthropocene Isobe, A. Abundance of non-conservative microplastics in the upper ocean from to Ivask, A. Mechanisms of toxic action of Ag, ZnO and CuO nanoparticles to selected ecotoxicological test organisms and mammalian cells in vitro : a comparative review. Nanotoxicology 8, 57— Kaushal, S.

Watershed "chemical cocktails': forming novel elemental combinations in Anthropocene fresh waters. Biogeochemistry , — Kreft, J. From genes to ecosystems in microbiology: modeling approaches and the importance of individuality. Levard, C. Environmental transformations of silver nanoparticles: impact on stability and toxicity. Louca, S. Integrating biogeochemistry with multiomic sequence information in a model oxygen minimum zone.

Mock, T. Bridging the gap between omics and earth system science to better understand how environmental change impacts marine microbes. Change Biol.

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Nash, K. Planetary boundaries for a blue planet. Reed, D. Gene-centric approach to integrating environmental genomics and biogeochemical models. A safe operating space for humanity. Sanchez-Carrillo, S. Stable isotopes as tracers in aquatic ecosystems. Slaveykova, V. Predicting the bioavailability of metals and metal complexes: critical review of the biotic ligand model.

Sensitivity of global ocean biogeochemical dynamics to ecosystem structure in a future climate

Smith, P. Systems approaches in global change and biogeochemistry research. R Soc. B Biol.

Biogeochemical Argo | Peer review articles

Steffen, W. The anthropocene: from global change to planetary stewardship. Ambio 40, — Planetary boundaries: guiding human development on a changing planet. Science Trajectories of the earth system in the Anthropocene. Oxidative stress induced by inorganic nanoparticles in bacteria and aquatic microalgae—state of the art and knowledge gaps. Nanotoxicology 8, — West, J. NewYork, NY: Springer.


Google Scholar. Wiederhold, J. Metal stable isotope signatures as tracers in environmental geochemistry. Woodcroft, B. Genome-centric view of carbon processing in thawing permafrost. Nature , 49— Zhang, X. Omics advances in ecotoxicology. Zhu, Y. Linking genes to microbial biogeochemical cycling: lessons from arsenic. Keywords: biogeochemical cycles, bioavailability, stable isotopes, omics, trace elements, nanoparticles, microplastics, organic contaminants.

The use, distribution or reproduction in other forums is permitted, provided the original author s and the copyright owner s are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

Slaveykova, vera. Toggle navigation. Login Register Login using. You can login by using one of your existing accounts. We will be provided with an authorization token please note: passwords are not shared with us and will sync your accounts for you. This means that you will not need to remember your user name and password in the future and you will be able to login with the account you choose to sync, with the click of a button. Forgot Password? Suggest a Research Topic. Taking Advantage Of Multi-Omics Approaches One of the exciting frontiers in biogeochemical dynamics is the investigation of how living organisms influence the elements and chemical pathways in the environment, and in turn, how the element species affect living organisms.

Time, to an atom locked in a rock, does not pass. The break came when a bur-oak root nosed down a crack and began prying and sucking. In the flash of a century the rock decayed, and [the atom] was pulled out and up into the world of living things. When the Indian took his leave of the prairie, [the atom] moldered briefly underground, only to embark on a second trip through the blood stream of the land.

All routines come to an end. This one ended with a prairie fire, which reduced the prairie plants to smoke, gas, and ashes. Between each of his excursions through the biota, [the atom] lay in the soil and was carried by the rains, inch by inch, downhill [and eventually to the sea]. For every atom lost to the sea, the prairie pulls another out of the decaying rocks. Carbon Cycle. The Water Cycle.

Biogeochemical Cycles. Nitrogen Cycle. Phosphorus Cycle.