| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6429962 | Earth and Planetary Science Letters | 2013 | 8 Pages |
â¢Late Quaternary marine sediments from Western Australia are rich in magnetofossils.â¢Magnetofossil abundance is controlled by glacial-interglacial scale climate change.â¢Magnetofossils can be the primary contributor to sedimentary magnetization.
Under suitable conditions, magnetofossils (the inorganic remains of magnetotactic bacteria) can contribute to the natural remanent magnetization (NRM) of sediments. In recent years, magnetofossils have been shown to be preserved commonly in marine sediments, which makes it essential to quantify their importance in palaeomagnetic recording. In this study, we examine a deep-sea sediment core from offshore of northwestern Western Australia. The magnetic mineral assemblage is dominated by continental detritus and magnetite magnetofossils. By separating magnetofossil and detrital components based on their different demagnetization characteristics, it is possible to quantify their respective contributions to the sedimentary NRM throughout the Brunhes chron. In the studied core, the contribution of magnetofossils to the NRM is controlled by large-scale climate changes, with their relative importance increasing during glacial periods when detrital inputs were low. Our results demonstrate that magnetite magnetofossils can dominate sedimentary NRMs in settings where they are preserved in significant abundances.
