Benthic foraminifera are unicellular eukaryotes that inhabit marine sediments and play a pivotal role in nutrient cycling. Their remarkable physiological capabilities enable them to thrive in diverse ...

Irvine, Calif., Feb. 4, 2025 — Computer models reveal how human-driven climate change will dramatically overhaul critical nutrient cycles in the ocean. In the Proceedings of the National Academy of ...

A group of Japanese researchers have discovered how to estimate the age of marimo. They also successfully illuminated a mechanism that is vital for the algae balls’ growth. These findings will be ...

New research shows prairie dogs play an outsized role in nutrient cycling, adding to their list of beneficial services as ecosystem engineers. Ann Batdorf, Smithsonian’s National Zoo and Conservation ...

Sweeping changes in marine nutrients may seem to be a likely consequence of increasing global temperatures; however, new research suggests that processes below the ocean surface could play a larger ...

The land-water ecotones, such as coastal areas, wetlands, riverine zones, and aquifer recharge areas, serve as important transition zones, fostering intricate biogeochemical processes between ...