Over 70% of the earth is covered in water, which serves as a vital resource human subsistence. Contamination and acidification pose major threats to aquatic health and biodiversity. Microbes offer a promising solution in their ability to breakdown contamination from oil spills and plastics. Applied microbiologists can play a significant part in understanding biodiversity, contributing to solutions, and encouraging stewardship.
A groundbreaking study has unveiled the evolutionary journey of brown algae through a comprehensive genomic analysis of 44 species, including key evolutionary milestones, such as the transition from unicellular to multicellular forms.
Read storyBy studying the light perception process of diatoms, a group of phytoplankton, scientists have discovered that these microalgae use light variation sensors which are codified in their genomes: phytochromes.
A new study reveals astonishingly high microbial diversity in some of the Earth’s deepest, darkest subsurface environments, including gold mines, in aquifers and deep boreholes in the seafloor.
Scientists have discovered multiple forms of a ubiquitous enzyme in microbes that thrive in low-oxygen zones off the coasts of Central and South America.
Researchers recently discovered that a virus, FloV-SA2, encodes one of the proteins needed to make ribosomes, the central engines in all cells that translate genetic information into proteins. This is the first eukaryotic virus found to encode such a protein.
Scientists have unearthed a clue to the molecular mechanisms involved in N2O reduction by deep-sea hydrothermal vent bacteria.
Researchers have found evidence suggesting that the primary role of primitive chloroplasts may have been to produce chemical energy for the cell and only later shifted so that most or all of the energy they generated was used for carbon assimilation.
Zooplankton could capture carbon dioxide originating from Earth’s atmosphere and deposit it deep into the sea as feces. The new technique mooted consists of spraying clay dust on the surface of the ocean at the site of large blooms of phytoplankton.
Researchers have found that marine viruses show clear distribution patterns throughout the ocean and are influenced by the depth of the ocean rather than the specific location.
As global warming raises sea temperatures, the effects have altered aquatic life - especially in microbial communities.
Dr François Thomas, an independent researcher with the Centre National de la Recherche Scientifique (CNRS, France) has been named as the newest winner of the Rachel Carson Environmental Conservation Excellence Award.
Changes in ocean density have a significant impact on the rate at which marine plankton incorporate carbon into their shells, with profound implications for carbon cycling and the ocean’s ability to absorb atmospheric CO2 in response to climate change.
Researchers have quantified for the first time the global emissions of a sulfur gas produced by plankton, revealing it cools the climate more than previously thought, especially over the Southern Ocean.
’Specialist’ lifeforms that live under Arctic sea ice are at risk as the ice retreats, new research shows. Scientists studied microscopic organisms in four environments – open ocean, river mouths, coasts and under sea ice – in the sea off northern Canada.
A pioneering study has revealed significant improvements in coral health through an innovative approach of transplanting healthy reef ecosystems to damaged reefs. The study offers new hope for coral reef restoration and the fight against widespread coral decline.
Scientists have been awarded a four-year, $16 million grant to lead an ambitious program to implement and scale-up new approaches to increase the climate resilience of Florida’s restored coral reefs.
A new study reveals that saclipins, derived from edible cyanobacterium, enhance collagen and support skin whitening and anti-aging.
Arctic viruses employ specialized mechanisms, including cryoprotective genes, to thrive in harsh environmental conditions despite limited host availability, reveals Dr Janina Rahlff from our Ocean Sustainability Advisory Group.
Researchers are providing new information and guidance on monitoring and managing viruses that cause life-threatening diseases in amphibians, reptiles and fish, as detailed in a new book edition.
Researchers show how non-moving single-celled organisms manage to avoid bright light.
Mercury is extraordinarily toxic, but it becomes especially dangerous when transformed into methylmercury – a form so harmful that just a few billionths of a gram can cause severe and lasting neurological damage to a developing fetus. Unfortunately, methylmercury often makes its way into our bodies through seafood – but ...
Professor Dr Susanne Neuer has been awarded the 31st Excellence Professorship of the Prof. Dr Werner Petersen Foundation for her work on the Biological Carbon Pump.
Planktonic foraminifera species may face unprecedented environmental conditions by the end of this century, potentially surpassing their survival thresholds, with extinctions impacting marine ecosystems and the ocean’s carbon storage capacity.