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Scientists have discovered the oldest fossil evidence of agriculture -- not by humans, but by insects.

The team, led by Eric Roberts of James Cook University along with researchers from Ohio University, discovered the oldest known examples of "fungus gardens" in 25 million-year-old fossil termite nests in East Africa.

The results are published today in the journal PLOS ONE.

Some termite species cultivate fungi in "gardens" in subterranean nests or chambers, helping to convert plant material into a more easily digestible termite food source.

El mes pasado, la concentración atmosférica de dióxido de carbono (CO2), medidas en la Isla de Amsterdam, en el sur del Océano Índico, superó por primera vez el valor simbólico de 400 ppm, o 0,04%. Las concentraciones de CO2 registradas en la estación de investigación de la Isla de Amsterdam son los más bajos en el mundo (excluyendo los ciclos estacionales), debido a la lejanía de la isla a partir de fuentes antropogénicas. 

When dormant volcanoes are about to erupt, they show some predictive characteristics--seismic activity beneath the volcano starts to increase, gas escapes through the vent, or the surrounding ground starts to deform. However, until now, there has not been a way to forecast eruptions of more restless volcanoes because of the constant seismic activity and gas and steam emissions. Carnegie volcanologist Diana Roman, working with a team of scientists from Penn State, Oxford University, the University of Iceland, and INETER* has shown that periods of seismic quiet occur immediately before eruptions and can thus be used to forecast an impending eruption for restless volcanoes. The duration of the silence can indicate the level of energy that will be released when eruption occurs. Longer quiet periods mean a bigger bang. The research is published inEarth and Planetary Science Letters.

China tiene la oportunidad de aumentar masivamente su uso de energía eólica…si integra adecuadamente el viento en su sistema de energía existente, de acuerdo con un nuevo estudio. Las investigaciones pronostican que la energía eólica podría proporcionar el 26 por ciento de la demanda eléctrica proyectada de China en 2030, por encima del 3 por ciento del 2015.

Hydrogen is the most-abundant element in the universe. It's also the simplest--sporting only a single electron in each atom. But that simplicity is deceptive, because there is still so much we have to learn about hydrogen.

One of the biggest unknowns is its transformation under the extreme pressures and temperatures found in the interiors of giant planets, where it is squeezed until it becomes liquid metal, capable of conducting electricity. New work published in Physical Review Letters by Carnegie's Alexander Goncharov and University of Edinburgh's Stewart McWilliams measures the conditions under which hydrogen undergoes this transition in the lab and finds an intermediate state between gas and metal, which they're calling "dark hydrogen."