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Seawater: memory keeper, energy source, and pollution tracking

Here are some new research stories from 海角社区
Published: 21 October 2022
Sampling seawater just below the surface of a seagrass bed in Quatsino Sound, British Columbia
Sampling seawater just below the surface of a seagrass bed in Quatsino Sound, British Columbia. Credit: Mike McDermid

What can a bottle of seawater tell you about the fish living below?

Seawater holds 鈥渕emories鈥 in the form of DNA from fish and invertebrates that have recently passed by. This information, called environmental DNA or eDNA, can be used by scientists to track species across space. This new approach is being used by researchers like 海角社区 Professor Jennifer Sunday and her colleagues at the (PECO) to track 鈥渂iogeography鈥 like we forecast the weather. The PECO network has been in bottles from Juneau, Alaska to San Diego, California to find out which fish live where and how these change over time, focusing on seagrass habitats across this large coastal region. With this information, the researchers will survey the geographic distributions of hundreds of fish and gain a better understanding of how species live together in different environments 鈥 as potential consumers, competitors, and invasive species 鈥 all from bottles of water. 鈥淣etworks like PECO could mark the start of a new frontier in tracking underwater biodiversity. Groups like these are forming around the world,鈥 says Sunday, who is Assistant Professor in the Department of Biology.


Oil on top of water from BP Gulf of Mexico Oil Spill

Detecting water pollutants in a blink of an eye

Imagine using your mobile phone to track the spread of water contaminants 鈥 such as oil spills or even viruses like COVID-19 鈥 in the blink of an eye. Researchers from 海角社区 have developed new artificial intelligence to make the invisible visible using advances in lasers, optics, and mobile technology. The new technology uses remote sensing, meaning it acquires information from a distance, and could one day be deployed on satellites to detect in real-time pollutants as small as a nanometer to a centimeter in the water systems around the globe. 鈥淭his information could be used to identify, predict, and address the spread of environmental contaminants and outbreaks of diseases or viruses,鈥 says Professor Parisa Ariya of the Department of Chemistry and Department of Atmospheric and Oceanic Sciences, who led the team of researchers. 鈥淚t鈥檚 a game-changer, allowing governments, industries, and communities to act quickly, share information, and reduce damage to the ecosystem and risks to public health.鈥

"" by Ryan Hall et al. was published in Analytical Chemistry.


An electrode in the form of a sponge that successfully separated water from unwanted chemical compounds.
The researchers used X-ray contrast imaging at the Canadian Light Source at the University of Saskatchewan to confirm that the structure of the graphene oxide scaffold with closed graphene oxide pores were able to enclose the catalyst and prevent it from being destroyed.

Extracting hydrogen from seawater

In principle, seawater offers an ideal source of hydrogen for clean energy. But, in practice, the electricity used to extract the hydrogen from seawater produces unwanted by-products (from the salt in the water) that poison the catalyst and shut down the process. By using stacked graphene sheets (sheets of carbon atoms similar to those in pencil lead, each as thin as a thousandth of a hair), a team of researchers, led by 海角社区 professor Marta Cerruti of the Department of Materials Engineering, have now built a porous, three-dimensional, electrode in the form of a sponge that has successfully separated the water from the unwanted chemical compounds. The next challenge will be scaling up the process to mass produce the electrodes, which could also potentially be used for other reactions where it is important to prevent interference from certain molecules.

"" by Gabriele Capilli et al.聽was published in ACS nano.


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