Chasing Storms through Terabytes of Data
Toolkit lets scientists detect extreme weather in climate simulations far faster than before.
Toolkit lets scientists detect extreme weather in climate simulations far faster than before.
Genetically engineered switchgrass does not change soil chemistry, microbiology, or carbon storage potential.
Global models may be underestimating net wetland methane emissions.
This research offers new information to understand the role of microorganisms in elemental cycling in the Arctic.
Multiple techniques to characterize an enzyme complex shed light on how bacteria create particles and contribute to global cycles.
Study shows how aerosols interacting with clouds can be accurately captured by sparse set of representative particles.
Including phosphorus (P) in predictions of photosynthesis may improve models of tropical forests where the supply of the nutrient is limited.
New open-source software simulates river and runoff resources.
New measurements offer data vital to projecting plant response to environmental changes.
Non-destructive technique identifies key variations in Alaskan soils, quickly providing insights into carbon levels.
New approach offers data across species, sites, and canopies, providing insights into carbon uptake by forests.
Soil microbes work as both decomposers and synthesizers of carbon compounds in soil, offering new answers with impacts to crops and eco-health.
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