Carbon isotopes in the marine biogeochemistry model FESOM2.1-REcoM3 by M. Butzin, M. Butzin, Y. Ye, C. Völker, Ö. Gürses, J. Hauck, P. Köhler

“…<p>In this paper we describe the implementation of the carbon isotopes <span class="inline-formula">¹³</span>C and <span class="inline-formula">¹⁴</span>C (radiocarbon) into the marine biogeochemistry model REcoM3. The implementation is tested in long-term equilibrium simulations where REcoM3 is coupled with the ocean general circulation model FESOM2.1, applying a low-resolution configuration and idealized climate forcing. …”
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First description of the Minnesota Earth System Model for Ocean biogeochemistry (MESMO 1.0) by S. J. Cox, A. R. Price, K. S. Tokos, K. Matsumoto

“…Here we describe the first version of the Minnesota Earth System Model for Ocean biogeochemistry (MESMO 1.0), an intermediate complexity model based on the Grid ENabled Integrated Earth system model (GENIE-1). …”
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Monthly variability in upper ocean biogeochemistry due to mesoscale eddy activity in the Saragasso Sea by Sweeney, Erin N. (Erin Nicole), 1971-

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Ocean Biogeochemical Dynamics / by Sarmiento, Jorge Louis, 1946-, author 520617, Gruber, Nicolas, 1968-, 520620

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Microbial solubilization and immobilization of toxic metals : key biogeochemical process for treatment of contamination / by 232144 White, C., Sayer, J. A., Gadd, Geoffrey M.

Subjects: “…Biogeochemistry…”

ZINC in the Environment /

Subjects: “…Biogeochemistry…”

Planetary ecology/ by International Symposium on Environmental Biogeochemistry (6th : 1983 : Santa Fe, N M)

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Preparation and characterization of lithium based glass ceramic conducting electrolytes / Maziidah Hamidi by Hamidi, Maziidah

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Submesoscale dynamics in the open ocean by Brannigan, L

Subjects: “…Biogeochemistry…”

Integrated records of environmental change and evolution challenge the Cambrian Explosion by Wood, R, Liu, A, Bowyer, F, Wilby, P, Dunn, F, Kenchington, C, Cuthill, J, Mitchell, E, Penny, A

Subjects: “…biogeochemistry…”

Groundwater arsenic biogeochemistry – Key questions and use of tracers to understand arsenic-prone groundwater systems by David A. Polya, Charlotte Sparrenbom, Saugata Datta, Huaming Guo

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Trace gas fluxes from tidal salt marsh soils: implications for carbon–sulfur biogeochemistry by M. Capooci, R. Vargas

“…<p>Tidal salt marsh soils can be a dynamic source of greenhouse gases such as carbon dioxide (CO<span class="inline-formula">₂</span>), methane (CH<span class="inline-formula">₄</span>), and nitrous oxide (N<span class="inline-formula">₂</span>O), as well as sulfur-based trace gases such as carbon disulfide (CS<span class="inline-formula">₂</span>) and dimethylsulfide (DMS) which play roles in global climate and carbon–sulfur biogeochemistry. Due to the difficulty in measuring trace gases in coastal ecosystems (e.g., flooding, salinity), our current understanding is based on snapshot instantaneous measurements (e.g., performed during daytime low tide) which complicates our ability to assess the role of these ecosystems for natural climate solutions. …”
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Mercury Biogeochemistry and Biomagnification in the Mediterranean Sea: Current Knowledge and Future Prospects in the Context of Climate Change by Roberto Bargagli, Emilia Rota

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Severe Coastal Hypoxia Interchange with Ocean Acidification: An Experimental Perturbation Study on Carbon and Nutrient Biogeochemistry by Natalia Kapetanaki, Evangelia Krasakopoulou, Eleni Stathopoulou, Manos Dassenakis, Michael Scoullos

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Nitrogen and Carbon Biogeochemistry in Forest Sites along an Indirect Urban–Rural Gradient in Southeastern Michigan by Ari Y. Kahan, William S. Currie, Daniel G. Brown

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Biogeochemistry and timing of methane-derived carbonate formation at Leirdjupet fault complex, SW Barents sea by Claudio Argentino, Amicia Lee, Luca Fallati, Diana Sahy, Daniel Birgel, Jörn Peckmann, Stefan Bünz, Giuliana Panieri

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Phosphorus depletion controls Cu and Zn biogeochemistry in canola and corn rhizosphere on a calcareous soil by Alireza Golestanifard, Markus Puschenreiter, Amal Aryan, Walter W. Wenzel

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Benthic foraminifera and gromiids from oxygen-depleted environments – survival strategies, biogeochemistry and trophic interactions by N. Glock

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A high-resolution marine mercury model MITgcm-ECCO2-Hg with online biogeochemistry by S. Zhu, P. Wu, S. Zhang, O. Jahn, S. Li, Y. Zhang, Y. Zhang

“…Furthermore, all of them are coupled with offline biogeochemistry, and therefore they cannot respond to short-term variability in oceanic Hg concentration. …”
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Biogeochemistry of Household Dust Samples Collected from Private Homes of a Portuguese Industrial City by Amélia P. Marinho-Reis, Cristiana Costa, Fernando Rocha, Mark Cave, Joanna Wragg, Teresa Valente, Amália Sequeira-Braga, Yves Noack

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