Enhanced phosphorus recycling during past oceanic anoxia amplified by low rates of apatite authigenesis
Abstract
Enhanced recycling of phosphorus as ocean deoxygenation expanded under past greenhouse climates contributed to widespread organic carbon burial and drawdown of atmospheric CO 2 . Redox-dependent phosphorus recycling was more efficient in such ancient anoxic marine environments, compared to modern anoxic settings, for reasons that remain unclear. Here, we show that low rates of apatite authigenesis in organic-rich sediments can explain the amplified phosphorus recycling in ancient settings as reflected in highly elevated ratios of organic carbon to total phosphorus. We argue that the low rates may be partly the result of the reduced saturation state of sediment porewaters with respect to apatite linked to ocean warming and acidification and/or a decreased availability of calcium carbonate, which acts as a template for apatite formation. Future changes in temperature and ocean biogeochemistry, induced by elevated atmospheric CO 2 , may similarly increase phosphorus availability and accelerate ocean deoxygenation and organic carbon burial. Low rates of apatite authigenesis in anoxic, warm, CO 2 -rich oceans promoted widespread deoxygenation and organic carbon burial.
- Publication:
-
Science Advances
- Pub Date:
- July 2022
- DOI:
- 10.1126/sciadv.abn2370
- Bibcode:
- 2022SciA....8N2370P