Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording palaeomagnetic signals. However, bacterial magnetite has only been reported in a few pre-Quaternary records because progressive burial into anoxic diagenetic environments causes its dissolution. Deep-sea carbonate sequences provide optimal environments for preserving bacterial magnetite due to low rates of organic carbon burial and expanded pore-water redox zonations. Such sequences often do not become anoxic for tens to hundreds of metres below the seafloor. Nevertheless, the biogeochemical factors that control magnetotactic bacterial populations in such settings are not well known. We document the preservation of bacterial magnetite,...
Understanding marine environmental change and associated biological turnover across the Palaeocene-E...
Pelagic carbonates are deposited far from continents, usually at water depths of 3000-6000. m, at ra...
Magnetotactic bacteria biomineralize magnetic minerals with precisely controlled size, morphology, a...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Distinct magnetic properties of marine sediments that record the Palaeocene-Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene-Eocene thermal maximum (...
Magnetic properties of pelagic marine sediments that record the Middle Eocene Climatic Optimum (MECO...
Understanding marine environmental change and associated biological turnover across the Palaeocene-E...
Pelagic carbonates are deposited far from continents, usually at water depths of 3000-6000. m, at ra...
Magnetotactic bacteria biomineralize magnetic minerals with precisely controlled size, morphology, a...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Magnetotactic bacteria intracellularly biomineralize magnetite of an ideal grain size for recording ...
Distinct magnetic properties of marine sediments that record the Palaeocene-Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene–Eocene thermal maximum (...
Distinct magnetic properties of marine sediments that record the Palaeocene-Eocene thermal maximum (...
Magnetic properties of pelagic marine sediments that record the Middle Eocene Climatic Optimum (MECO...
Understanding marine environmental change and associated biological turnover across the Palaeocene-E...
Pelagic carbonates are deposited far from continents, usually at water depths of 3000-6000. m, at ra...
Magnetotactic bacteria biomineralize magnetic minerals with precisely controlled size, morphology, a...