Journal of Geophysical Research: Atmospheres

Las partículas de carbono negro se esparcen por toda nuestra atmósfera, producidas por la quema de combustible o procesos industriales.

¿Cuánto tiempo permanecen las partículas de carbono negro en la atmósfera?

by Sarah Derouin 8 March 20228 March 2022

Investigadores descubren cómo el carbono negro evoluciona de partículas hidrofóbicas a sitios de nucleación de nubes, removiendo eventualmente las partículas que absorben calor del cielo.

Trends in stratospheric fluorine species during the period 2004-2018.

Editors' Highlights

New Insights on Stratospheric Circulation from Fluorine Tracers

by William J. Randel 23 November 2021

Stratospheric fluorine species have accumulated faster in the Northern Hemisphere over the past two decades reflecting interhemispheric differences in the Brewer-Dobson transport circulation.

Two plots comparing averaged vertical velocity, swirling wind, and radial flow for model forecasts of Hurricane Michael using an old formulation for turbulent mixing on the left and an improved formulation for turbulent mixing on the right.

Editors' Highlights

Hurricane Forecast Improvement with Better Turbulent Processes

by Robert F. Rogers 4 November 2021

A new look at turbulent processes has improved the prediction of hurricane rapid intensification by properly accounting for the unique environment of a hurricane eyewall.

Black carbon particles are spread throughout our atmosphere, produced by the burning of fuels or industrial processes.

Research Spotlights

How Long Do Black Carbon Particles Linger in the Atmosphere?

by Sarah Derouin 10 September 20218 March 2022

Researchers uncover how black carbon evolves from hydrophobic particles to cloud nucleation sites, eventually removing the heat-absorbing particles from the sky.

Plot showing measured atmospheric dust concentrations on 24 buoy filters, aerosol optical depth, and precipitation for two buoys.

Editors' Highlights

Seasonality in Saharan Dust Across the Atlantic Ocean

by P. Yang 26 August 20212 February 2022

The first time series of bi-weekly dust concentrations measured in-situ across the remote Atlantic Ocean.

Smoke plume rising and spreading over California during the 2018 Ranch Fire

Research Spotlights

Satellite Sensor EPIC Detects Aerosols in Earth’s Atmosphere

by Sarah Stanley 17 August 202110 October 2021

Aerosol observations from EPIC—a sensor aboard a satellite—align well with ground- and aircraft-based data, including measurements of smoke plumes produced by recent megafires.

Research Spotlights

模拟火山碎屑云

by Sarah Derouin 22 July 202128 September 2021

巨大的火山云是如何进入平流层的？科学家们模拟了注入平流层低层的火山碎片是如何被抬升进入平流层中层的。

The 1991 eruption of Pinatubo volcano in the Philippines

Research Spotlights

Modeling Volcanic Debris Clouds

by Sarah Derouin 2 July 202113 October 2021

How does a large volcanic cloud get into the stratosphere? Scientists model how volcanic debris injected into the lower stratosphere can be lofted high into the middle stratosphere.

A map of the western United States showing smoke transported after fires in August 2013

Research Spotlights

Improved Algorithms Help Scientists Monitor Wildfires from Space

by Elizabeth Thompson 2 July 202126 October 2021

Wildfires release pollutants that harm human health. Quality satellite monitoring can help track these pollutants and predict where they may become health hazards.

Artwork of high-energy lightning events in the sky

Research Spotlights

Observations from Space and Ground Reveal Clues About Lightning

by Sarah Derouin 11 June 202118 November 2021

In a coordinated monitoring effort, scientists have uncovered the timing and triggering of high-energy lightning events in the sky.

From AGU Journals