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 Sciences, University of ...

Groundwater is considered the largest reservoir of liquid freshwater on Earth and a habitat for complex microbial communities that drive essential biogeochemical cycles. Until now, the role of viruses ...

Scientists have discovered that cyanobacteria, microscopic organisms best known for driving harmful algal blooms, may play a ...

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 ...

For farmers, sometimes the easiest way to save a crop or prevent catastrophic insect damage is to spray a pesticide. But this ...

Nowadays we’re getting more used to the idea that entire ecosystems of tiny bacteria are living on our skin, in the soil of our gardens and within the oceans where we catch dinner. But one aspect that ...

Climate change is expected to alter precipitation patterns worldwide, which can have direct effects on streamflow dynamics. In many tropical regions, climate-driven changes in rainfall are predicted ...

Sally Keith receives funding from NERC. This research was supported by the Natural Environment Research Council (Rachel L. Gunn, grant number NE/L002604/1), with Rachel L. Gunns studentship through ...

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 ...