During Droughts, Soil Microbes Produce Volatile Carbon Metabolites
In a warmer world, microbes in drought-stricken soils convert less carbon to carbon dioxide and more to volatile intermediates.
In a warmer world, microbes in drought-stricken soils convert less carbon to carbon dioxide and more to volatile intermediates.
A new correction factor for predicting dissolution rates uses measurable geological properties in fractured media.
Fluxonium qubits can build cutting-edge quantum devices that will harness the potential of quantum computing.
Yarrowia lipolytica reallocates its production of protein toward energy and lipid metabolism to grow on hydrocarbons and produce high-value chemicals.
Microorganisms and their metabolisms help silica to mineralize near deep ocean methane seeps.
FAIR (findable, accessible, interoperable, reusable) principles facilitate the use of large data sets by human and machine researchers.
A new experimental measure of Helium-4’s transition from its ground energy state to an excited state closes an apparent gap with theoretical predictions.
New insights reveal details of how strange matter forms.
Researchers design ultra-low radiation cables to reduce background noise for highly sensitive nuclear decay and dark matter detectors.
Finite geometry reveals fundamental properties of charged quantum systems.
The floating block method provides the tools to compute how quantum states overlap and how to build fast and accurate emulators of those systems.
An almost-bound isotope of oxygen undergoes four-neutron decay that challenges theory.