NASA - National Aeronautics and Space Administration

Chiang Mai, the largest city in northern Thailand, is famed for having hundreds of Buddhist temples, some of which date to the city’s founding in the 13th century. This rich history—and easy access to hiking, waterfalls, and hot springs in the surrounding highlands, as well as being the setting of a hit movie in 2012—has turned the city into a hub of tourism that hosts as many as 10 million visitors per year.

It was a hazy August day on Chicago’s South Side, and Nedra Sims Fears was hosting a small gathering to talk about the air. Interstate-94, which bisects her Chatham neighborhood, hummed nearby. “This was the summer I spent watching summer out my window,” Fears said. 

That’s because asthma runs in her family, and smoke from wildfires in Canada had wafted into Chicago, making it difficult for her to breathe. Many of her neighbors don’t have air conditioning, which means they don’t have the luxury of shutting their windows against the tiny hazardous particles contained in the smoke.

Several thousand feet above the Fears’ home, one of the largest flying laboratories in the world circled the skies over Chicago. The plane – NASA’s four-engine DC-8 jet – is a storied research craft. Over the past 25 years it has supported field campaigns across all seven continents. On this August 2023 day, it carried 40 researchers and a pack of scientific instruments investigating air pollution over the cities and pasturelands of the Midwest.

Flying over and tromping through watery landscapes along the East Coast, working alongside NASA scientists, and recording measurements about the air that they’re travelling through – these are not the usual experiences for an undergraduate student. For the 2023 participants in NASA’s SARP East program – short for Student Airborne Research Program – it was part of a summer they won't forget.

With operations based out of Tampa, Florida, the ALOFT field campaign logged approximately 60 hours of flight time across Central America and the Caribbean. The team used NASA Armstrong’s ER-2 aircraft to fly near thunderclouds as tall as 18 kilometers (10 miles) in altitude in order to measure gamma-ray glows and flashes produced by the electric fields of thunderclouds.  ALOFT is short for Airborne Lightning Observatory for Fly’s Eye GLM Simulator and Terrestrial gamma-ray flashes. The campaign included researchers and flight crews from the University of Bergen, NRL, NASA’s Armstrong Flight Research Center, NASA’s Marshall Space Flight Center, and NASA’s Goddard Space Flight Center.

What’s it like to escape from an aircraft underwater? NASA research pilots Wayne Ringelberg, and Scott Howe recently found out when they completed pilot dunker training at the FAA (Federal Aviation Administration) Mike Monroney Aeronautical Center Civil Aerospace Medical Institute in Oklahoma. This training certifies the pilots to fly helicopters over bodies of water for upcoming automated systems flight testing for NASA’s Advanced Air Mobility research with Sikorsky and DARPA (Defense Advanced Research Project Agency).

When the dust that wafts off the Sahel and Sahara regions of Africa mixes with tropical clouds, it creates what’s known as a rainy “disturbance” in the eastern Atlantic. These disturbances are hurricanes in their youngest form, and as they travel across the ocean, they can either dissipate or grow into powerful storms.

To study these infant storms, a group of NASA scientists in September 2022 spent a month flying off the northwestern coast of Africa aboard NASA’s DC-8 research plane.  Each day, the team took off from Cabo Verde, an island nation off the west coast of Africa, logging roughly 100 hours altogether. The mission, known as the Convective Processes Experiment – Cabo Verde (CPEX-CV) released its data publicly on April 1.

NASA has taken to the seas and skies to study the unique environment at the ocean’s surface, where marine ecosystems intersect with our planet's complex atmosphere. On April 7, 2023, scientists participating in the Sub-Mesoscale Ocean Dynamics Experiment (S-MODE) embarked on the RV Sally Ride from San Diego on the last of three field expeditions to understand the ocean’s role in the Earth’s changing climate. They will be at sea for about a month until returning to San Diego on May 4, and they will operate for most of that period in tandem with an accompanying airborne campaign.

NASA is working to understand climate change and build resilience to its risks, such as the increasing threat of wildfire, for the nation and the world. On April 13, the agency’s top leadership visited NASA’s Ames Research Center in California’s Silicon Valley to learn about the center’s climate science and innovations in aeronautics that will help people everywhere face these challenges.

NASA’s Armstrong Flight Research Center has a long history with employing women in aviation careers and empowering these women to reach for the sky, although it was not always this way. Today, several of the key NASA aeronautics projects are led by females.

I grew up flying in planes. I’m comfortable in them. But there’s one part of flying I’ve never gotten used to: turbulence. It’s common on commercial flights, so over the years I’ve learned a few tips and tricks on how to stay calm when my mind seems to take off at a sprint.

Following the eruption of the world’s largest active volcano, Mauna Loa, NASA Armstrong Flight Research Center deployed its C-20A aircraft to Kona, Hawaii, to gather images and data of the active lava flows for submission to the United States Geological Survey (USGS) by a team of scientists at NASA’s Jet Propulsion Laboratory (JPL).

It’s like stumbling through a thick forest and breaking out into a glade. A quiet has settled on this piece of sea as the waves calm. You can’t make a good map to get to this place. In the ocean, these glades are always moving, twisting, being born into life by the collision of great currents, then breaking apart, fracturing and sinking beneath the waves. The cold water brought from below by the coastal winds creates a fog that lies heavy on the sea surface, creating this small, calm spot.

Places like this can be found by things with nowhere else to go. Throw something off the side of a boat and it will likely end up somewhere like here. We’re at a convergence zone that attracts floating debris of all sizes. In particular, it attracts minuscule plankton, along with all the things that eat them and all the things that eat those things and so on and so on. All of it dragged hereby the undulating ocean.

I had been patiently waiting and dreaming about this research cruise for months. Yet a few days before traveling from Connecticut to Oregon for ship mobilization, I couldn’t shake a feeling of denial – like I couldn’t believe I was really going to be out in the Pacific Ocean on a research vessel for an entire month.

I am participating in NASA’s Sub-Mesoscale Ocean Dynamics Experiment (S-MODE) as part of the science party aboard the research vessel Bold Horizon. The focus of this experiment is to sample ocean fronts that are a few miles in size to study their dynamics and effects on vertical transport. The ocean fronts are sampled using aircraft, ship surveying, and autonomous platforms with names such as wave gliders, sea gliders, Saildrones, floats, and drifters. So being aboard the ship is just one piece of this complex research experiment.

NASA’s S-MODE mission was designed to measure and understand the complex oceanic features classified as “submesoscale,” i.e., features spanning up to 6.2 miles (10 kilometers) across. Such fine filaments and sharp density fronts in the ocean are responsible for fast and unpredictable changes in velocity, temperature, salinity, and even among small organisms called plankton in the surface layer of the ocean. A myriad of autonomous instruments, airborne sensors, and a fully equipped ship are part of the robust methods of measuring submesoscale dynamics in the California Current region.