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… Commonly known as liverwort, this was done to gain insights into gene families involved in adaptations seen in …
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… how a fundamental mechanism of evolution allows microbes to adapt to changing environments. The Science The … of how a fundamental mechanism of evolution — DGRs — allows microbes to adapt to changing environments. It also sheds … prove to be powerful tools not only for viruses and other microbes , but for scientists. One emerging industry …
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… assemblies, revealing the roles of microbial communities in carbon cycling, in interactions with plants, and as drivers …
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… normally would kill the moss may hold clues to how these carbon sink environments can continue to hold onto their carbon despite global warming. At ORNL, Lawrence brings a … about how microbial and bacteria communities influence the carbon-sequestering abilities of peat moss. Peat is found in …
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… genome-scale engineering technologies to control plants and microbes for bioproducts and biomaterial manufacturing. …
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… evolved these really tough cell wall materials that keep microbes — and the enzymes that would be produced by … they all process loads of tough plants. Thanks to gut microbes — namely, anaerobic fungi — these animals are able … . In an herbivore’s poop sample, there’s a whole heap of microbes, each potentially contributing to powerful biomass …
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… Dr. Cole’s research focus has been on understanding how microbes can colonize plant roots, focusing on genetic …
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… grass that adroitly handles droughts, floods and poor soils. This is the first paper that describes sorghum’s … conditions, and then collected root, leaf and rhizosphere (soil surrounding the root) samples from the plants at the … were subjected to one of three conditions during their lifecycles. In the pre-flowering drought condition, no water was …
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… years. The Impact Eelgrass represents one of the largest carbon sinks in the ocean — occupying just 0.2% of the ocean … these meadows are responsible for almost one-third of carbon sequestered in the ocean. In addition to providing a … that live in Atlantic Ocean environments and the plant’s carbon sink capabilities. …
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… current project is how root transporters and root exudates regulate the plant Brachypodium distachyon ’s microbiome. …
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… enhanced red-light energy capture, enhancing atmospheric carbon sequestration into sustainable biomaterials, and …
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… New Process Uses Microbes to Create Valuable Materials from Urine …
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