Diversification of iron‐biomineralizing organisms during the Paleocene‐Eocene Thermal Maximum: Evidence from quantitative unmixing of magnetic signatures of …
Conventional magnetofossils represent magnetic mineral remains of magnetotactic bacteria.
Giant magnetofossils have no known modern analog. Both conventional and giant …
Giant magnetofossils have no known modern analog. Both conventional and giant …
DIVERSIFICATION OF IRON-BIOMINERALIZING ORGANISMS DURING THE PALEOCENE-EOCENE THERMAL MAXIMUM: EVIDENCE FROM QUANTITATIVE …
CL Wagner, I Lascu, PC Lippert, R Egli… - STATEMENT OF …, 2021 - search.proquest.com
Conventional magnetofossils represent magnetic mineral morphologies biomineralized by
magnetotactic bacteria. Giant magnetofossils represent morphologies with no known …
magnetotactic bacteria. Giant magnetofossils represent morphologies with no known …
Diversification of Iron‐Biomineralizing Organisms During the Paleocene‐Eocene Thermal Maximum: Evidence From Quantitative Unmixing of Magnetic Signatures of …
CL Wagner, I Lascu, PC Lippert, R Egli… - Paleoceanography and …, 2021 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Conventional magnetofossils represent
magnetic mineral remains of magnetotactic bacteria. Giant magnetofossils have no known …
magnetic mineral remains of magnetotactic bacteria. Giant magnetofossils have no known …
[引用][C] Diversification of Iron‑Biomineralizing Organisms During the Paleocene‑Eocene Thermal Maximum: Evidence From Quantitative Unmixing of Magnetic …
CL Wagner, I Lascu, PC Lippert, R Egli… - Paleoceanography …, 2021 - ui.adsabs.harvard.edu
Diversification of Iron‑Biomineralizing Organisms During the Paleocene‑Eocene Thermal
Maximum: Evidence From Quantitative Unmixing of Magnetic Signatures of Conventional and …
Maximum: Evidence From Quantitative Unmixing of Magnetic Signatures of Conventional and …