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… ice in the Arctic has decreased by more than 30% in terms of quantity and thickness. Replacing older, thicker ice with … surface where algae grow. Armed with a better understanding of the alga’s stress resistance and ability to adapt to … to better manage the growth, yield and climate resilience of algae — for potential use as biomass or in biomass …

… Science Altiarchaea are carbon-fixing microbes and targets of multiple viruses in Earth’s deep subsurface. They are abundant representatives of deep subsurface ecosystems. A team of researchers … by combining a study of microbial communities (metagenomics) and a chemical labelling approach. The Impact …

… Ancient  Chloroflexota s ditched their flagella and other traits when … place: hot spring-dwelling bacteria from the phylum C hloroflexota . Research shows that flagella were lost in other forms of  Chloroflexota that adapted to marine environments … ) conducted by the U.S. Department of Energy Joint Genome Institute …

… Over 40 percent of the cereal crop’s genes respond to drought stress. The Science Fields of drooping stalks and cracked earth are becoming common … by a consortium involving researchers from the University of California (UC), Berkeley, UC Agriculture and Natural …

… 600 million years ago. The Science By studying the genes of land plants’ closest algal relative,  Zygnematophyceae , scientists have enhanced our understanding of how early plants transitioned from water to land. Key … aquatic environments. The Impact A deeper understanding of how plants adapted to terrestrial life paves the way for …

… start pinning down how a fungal symbiont spurs growth of poplar, a potential biofuel feedstock.     The Science The fungus  Mortierella … it can thrive in the soil as a saprophyte, living off decaying organic matter, or as an endophyte, living … the Oak Ridge National Laboratory (ORNL) sponsored by the Office of Biological and Environmental Research at the …

… The Science Anaerobic fungi, which die in the presence of oxygen, dwell in herbivore guts and help them digest … meal. In their evolutionary history, these fungi branched off early from aerobic fungi, which can breathe oxygen — just like we do. Oxygen is a rich source of energy, and because anaerobic fungi can’t harness it, …

… New evidence shows anaerobic fungi can degrade the hardiest of plant components   The Science There are three main … called lignocellulose, are the primary components of hardy cell walls. It’s the cellulose and hemicellulose … shows how anaerobic fungi — the kind living in the stomachs of livestock — are actually capable of naturally modifying …

… The work was enabled in part by a community data portal of the U.S. Department of Energy (DOE) Joint Genome Institute (JGI), a DOE Office … impact on the microbial communities within soil. Using metagenomics, scientists can shed light on hidden components, … This work was supported by the Department of Energy (DOE) Office of Biological and Environmental …

… Described as the “DOE Tree,” poplar is considered one of the  Flagship Plants for the U.S. Department of Energy (DOE) Joint Genome Institute (JGI), a DOE Office of Science User Facility located at Lawrence Berkeley … This work was supported by the U.S. Department of Energy, Office of Science, Office of Biological and …