UAlbany researcher partners on $1.2 million NSF grant to explore tropical monsoon rainfall patterns
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Updates every hour. Last Updated: 31-Oct-2025 01:11 ET (31-Oct-2025 05:11 GMT/UTC)
Global environmental DNA (eDNA) surveys significantly expand known geographic and ecological niche ranges of marine fish, highlighting current biases in conservation and ecological modeling
Diverse life forms exist on and within the ocean floor. These primarily consist of microbes, tiny organisms that can cope with extreme environmental conditions. These include high pressures and salinities, as well as extreme pH values and a limited supply of nutrients. A team of researchers has now been able to detect microbial life in two newly discovered mud volcanoes with very high pH values. Their findings have been published in the professional journal Communications Earth & Environment.
A team led by the Institut de Ciències del Mar (ICM-CSIC) has described a sustained and unprecedented decrease in the abundance of marine viruses in the northwestern Mediterranean over the last two decades. The finding, published in the journal ISME Communications, is based on the longest-known time series data on marine viruses to date, from the Blanes Bay Microbial Observatory (BBMO) in Girona.
Scientists from the Salk Institute and Scripps Institution of Oceanography at UC San Diego say genomically informed restoration is the way forward for saving our oceans. The researchers used advanced genomic and transcriptomic technologies to investigate a hybrid eelgrass from San Diego's Mission Bay that is a cross between the shallow-water Zostera marina and its deeper-water cousin, Zostera pacifica, whose tolerance for low-light conditions is a favorable trait as coastal waters become increasingly murky. This genomic profile could make the new hybrid seagrass a candidate for future coastal restoration efforts in California and beyond.