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Hurricane Idalia brought significant storm surge, heavy rains, and strong winds to Florida as a Category 3 hurricane in 2023. This image is from the Moderate Resolution Imaging Spectroradiometer on NASA’s Terra satellite, acquired at 11:35 a.m. EDT on Aug. 29, 2023.Credits: NASA Earth Observatory

NASA invites media to an event at the agency’s headquarters at 2 p.m. EDT Thursday, June 13, to learn about a new Disaster Response Coordination System that will provide communities and organizations around the world with access to science and data to aid disaster response.  

The event will be held in NASA’s James E. Webb Auditorium at 300 E St. SW, Washington, and air live on NASA Television and the agency’s website. To attend the briefing in person, media should RSVP no later than 12 p.m. EDT June 13, to Liz Vlock at elizabeth.a.vlock@nasa.gov. NASA’s media accreditation policy is online.

The briefing speakers include:

• NASA Administrator Bill Nelson
• NASA Deputy Administrator Pam Melroy
• Nicky Fox, associate administrator, NASA Science Mission Directorate
• Karen St. Germain, division director, NASA Earth Sciences Division
• Jainey Bavishi, deputy administrator, NOAA (National Oceanic and Atmospheric Administration)
• Erik Hooks, deputy administrator, Federal Emergency Management Agency
• David Applegate, director, U.S. Geological Survey
• Dianna Darsney de Salcedo, assistant to the U.S. Agency for International Development administrator
• Clayton Turner, director, NASA Langley Research Center
• Shanna McClain, program manager, NASA Disasters Program
• Joshua Barnes, manager, NASA Disaster Response Coordination System
• Judith Mitrani-Reiser, senior scientist, National Institute of Standards and Technology

The Disaster Response Coordination System will connect NASA’s Earth science data, technology, and expertise with disaster response organizations in the U.S. and internationally. The goal is to reduce disaster impacts to lives and livelihoods through timely, actionable, and accurate information.

For more information about NASA’s Disasters program, visit: 

https://disasters.nasa.gov/response

-end-

Liz Vlock
Headquarters, Washington
202-358-1600
elizabeth.a.vlock@nasa.gov

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Details Last Updated Jun 11, 2024 LocationNASA Headquarters Related Terms

• Natural Disasters
• Earth Observatory
• Earth Science
• Science & Research
• Science Mission Directorate

The Intersex Progress Pride flag flies beneath the American flag on the center pole with the California state and NASA flag at either side. The Intersex Progress Pride flag flies for the first time at any NASA center in front of the Ames Administration Building, N200, to commemorate Pride Month.

NASA/Don Richey

The Intersex Progress Pride flag (beneath the American flag) flies in front of the Administration Building at NASA’s Ames Research Center in California’s Silicon Valley on June 5, 2024, to commemorate LGBTQI+ Pride Month. This is the first time the flag has flown at any NASA center.

We celebrate and honor the LGBTQI+ members of our NASA community and recognize the continued work to be done to create an inclusive, welcoming, and supportive environment.

Image Credit: NASA/Don Richey

Millions of hand-size Joro spiders are moving up the East Coast. Don’t panic

India's Aditya-L1 spacecraft imaged the sun a week after it unleashed the rare G5 geomagnetic storm that sparked some of the strongest auroras in centuries.

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Preparations for Next Moonwalk Simulations Underway (and Underwater) During the Duluth Air and Aviation Expo, visitors enjoy NASA Glenn Research Center’s Journey to Tomorrow traveling exhibit. The 53-foot trailer serves as an interactive informal learning environment that brings the excitement of exploration in air and space to an event. Credit: NASA/Heather Brown 

NASA’s Glenn Research Center public engagement staff arrived in Minnesota for the Duluth Air and Aviation Expo, May 17-18, with several exhibits and two hometown stars who joined as part of a larger NASA presence. Duluthian Heather McDonald met with local students to talk about living and working in space and how she became the first female chief engineer of the International Space Station.

During the STEAM Festival in Duluth, Heather McDonald talks with students about living and working in space and how she became the first female chief engineer of the International Space Station. Credit: NASA/Heather Brown 

She and fellow Minnesotan Jennifer Dooren, deputy news chief at NASA, engaged with more than 1,000 students and their families at the Depot STEAM Festival on May 18. NASA Glenn’s Chris Giuffre, an aerospace engineer, and Emily Timko, an icing cloud characterization engineer, shared their icing research work with aviation fans at the Duluth Air and Aviation Expo. Anchoring NASA’s presence was the Journey to Tomorrow traveling exhibit, which was such a hit, families came through multiple times throughout the weekend. An estimated 4,000 people attended the air and aviation exposition.  

Return to Newsletter Explore More 1 min read TECH Day at NASA Attracts Middle School Students  Article 13 hours ago 2 min read NASA Glenn’s Yvette Harris Inducted into MBA Hall of Fame  Article 13 hours ago 1 min read NASA Glenn Joins COSI’s Big Science Celebration Article 3 weeks ago

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Preparations for Next Moonwalk Simulations Underway (and Underwater) Donna Davis, Telescience Support Center (TSC) data manager, seated left, explains how staff monitor International Space Station experiments in the Telescience Support Center. Credit: NASA/Jef Janis 

Research shows that STEM education is important to middle school students because it helps them develop critical thinking and problem-solving skills. It is also crucial for preparing students for their future careers.  

NASA Glenn Research Center’s Office of STEM Engagement invited middle school students from several area schools to TECH Day at NASA Glenn in Cleveland on May 16. The event is designed to inspire middle school students’ interest in STEM fields. 

Dr. Rickey Shyne, NASA Glenn’s director of Research and Engineering, welcomed students to the center. They then enjoyed tours of Glenn facilities, a student engineering design challenge, and discussions on different careers they can explore.  

NASA Glenn Research Center’s Abigail Rodriguez, right, helps students conduct a hands-on activity related to the Orion spacecraft. Credit: NASA/Jef Janis  Return to Newsletter Explore More 1 min read NASA Glenn Visits Duluth for Air and Aviation Expo, STEAM Festival   Article 13 hours ago 2 min read NASA Glenn’s Yvette Harris Inducted into MBA Hall of Fame  Article 13 hours ago 1 min read NASA Glenn Joins COSI’s Big Science Celebration Article 3 weeks ago

Managing the Stress of Parenting

Date: Thursday, June 13, 2024

Time: 11:00 AM -12:00 PM  CST

Speakers / POCs: EAP Clinicians Dr. Carla Randolph (carla.e.randolph@nasa.gov) and Dr. Sophia Sills-Tailor (sophia.c.sills-tailor@nasa.gov)

Parenthood is a beautiful journey, but it comes with its unique set of challenges and stresses. Join us for a dynamic webinar on “Managing the Stress of Parenting,” where we’ll delve into effective strategies for navigating the ups and downs of raising children while maintaining your own well-being and work / life balance. We will share practical tips and valuable insights to help you cultivate resilience, reduce parental stress, and foster healthy family dynamics. From setting boundaries and practicing self-care to building strong support networks and enhancing communication with your children, this webinar offers actionable advice to empower you on your parenting journey.

This is open for ALL NASA employees! To join this webinar please click here.

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Emotional Intelligence in The Workplace

Date: June 20, 2024

Time: 10:00 – 11:00 PM CST

Speaker / POC: Susan Wilcox, (susan.k.wilcox@nasa.gov)

Unlock the power of emotional intelligence and elevate your professional journey. Join Susan Wilcox (GRC EAP) for this session focused on understanding emotional intelligence and its critical role in workplace interactions and overall success.

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Neurodiversity in the Workplacee

Date: June 25, 2024 

Time: 2:00 – 3:15 PM CST 

Host: Office of the Chief Health and Medical Officer (OCHMO) 

Speaker / POC: Hanna.l.bogner@NASA.gov 

Join us for a discussion on Neurodiversity in the workplace with Jaclyn Hunt, a Board-Certified Cognitive Specialist (BCCS) and author specializing in working with adults on the autism spectrum. Whether you’re interested in understanding neurodiverse colleagues or are on the spectrum yourself, this presentation covers it all. With one out of every 36 children diagnosed with Autism Spectrum Disorder (ASD) in the United States today, along with over 5 million diagnosed adults, understanding neurodiversity is crucial. This session focuses on educating participants about neurodiversity in the workplace and how to best support individuals on the autism spectrum. Learning about neurodiversity not only helps those on the spectrum function successfully in the world, it also fosters a more accepting and understanding environment enriched with effective communication for all.

If you have questions you’d like to ask anonymously, please visit our Ask-Ahead Questions page on the Health4Life website. Questions submitted anonymously will be addressed during the presentation.

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Planet Earth is in for some amazing geomagnetic storms in the next year or so. That’s because it’s in a period of peak activity called “solar maximum” (solar max, for short). But, what happens at other planets, especially Mars, during this time? Mars mission scientists got a sneak peek at the effect of a major solar storm thanks to one hitting the Red Planet on May 20th, 2024.

During that event, the Curiosity Mars rover’s Radiation Assessment Detector (RAD) measured a very sharp increase in radiation during the solar storm. At the same time, the navigation camera captured views of a wind gust stirring up surface dust. The radiation count was the highest the instrument has seen since the rover landed on Mars. In space, the Mars Odyssey orbiter’s star camera also experienced a shower of solar particles. The bombardment knocked the camera out for a short time. During its recovery time, the spacecraft continued collecting data. That included information about the x-rays, gamma rays, and other charged particles streaming from the Sun.

NASA’s MAVEN spacecraft also collected data about the bombardment from the May 20th event. “This was the largest solar energetic particle event that MAVEN has ever seen,” said MAVEN Space Weather Lead, Christina Lee of the University of California, Berkeley’s Space Sciences Laboratory. “There have been several solar events in past weeks, so we were seeing wave after wave of particles hitting Mars.”

The purple color in this video shows auroras on Mars’ nightside. The ultraviolet instrument aboard NASA’s MAVEN orbiter detected them between May 14 and 20, 2024. The brighter the purple, the more auroras that were present.  Credit: NASA/University of Colorado/LASP What Protects Planets from the Solar Storm?

There’s not much we as a species can do to protect our planet from a solar storm. However, we’re lucky—we have a strong magnetic field to ward off the worst solar outbursts. Mars is not so lucky. It doesn’t have as much of a magnetic field to ward off the deadly radiation. Space weather experts estimated that if someone had been standing on the Martian surface during that storm, they would have been irradiated with the equivalent of 30 chest X-rays in just a short time.

That storm, and others have sparked auroras on Mars (as well as on Earth). A storm earlier in May sparked off major auroral displays on Earth on May 10-11, but otherwise didn’t severely damage any vital systems. Solar storms, however, do offer a good chance for scientists to track the Sun’s outbursts as they rampage across the Solar System. The data they get gives more insight into solar activity. However, the data from the Mars missions also provides a chilling look at just what kind of risky environment Mars is for future explorers.

Sheltering from the Solar Storm on Mars

Here on Earth, if we have plenty of notice of a solar outburst, people can get ready for the inevitable damage a solar storm can cause. For example, satellite operators can prepare their assets to protect them. NASA can advise astronauts in space to take shelter and other precautions. Ground-based power and telecommunications operators have plans in place to protect their systems from the tremendously strong ground currents that get stirred up by solar storms.

But, what if you’re on your way to Mars when a storm hits? Or, you’re actually ON Mars? Those questions occupy a lot of study time at NASA and other space agencies. People in space, whether orbiting Earth or en route to the Moon or Mars can take shelter inside their craft. In those cases, they have to depend on hardened shelters to keep them safe. But, on Mars, things are different. There’s no strong magnetic field to ward off the strong particles from the Sun. Inhabitants will have to take shelter, according to Don Hassler of Southwest Research Institute’s Solar System Science and Exploration Division.

“Cliffsides or lava tubes would provide additional shielding for an astronaut from such an event. In Mars orbit or deep space, the dose rate would be significantly more,” Hassler said.“I wouldn’t be surprised if this active region on the Sun continues to erupt, meaning even more solar storms at both Earth and Mars over the coming weeks.”

What Happened on May 20th?

The storm that Curiosity recorded began with an X12-class solar flare. That’s one of the strongest solar flares recorded and, if it had been aimed at Earth, could have caused some major damage. As it turns out, Mars was in the pathway of that flare and a subsequent coronal mass ejection. It launched a cloud of charged particles through space. When the outburst from the flare and the CME arrived at Mars, it triggered auroral displays on the Martian night side. At the same time, the outbursts showered the surface with charged particles. If someone had been on Mars and working outside a shelter, they would have been dosed with the equivalent of 30 chest X-rays. That’s not a deadly exposure, but over time if someone experienced many such events, the damage to their body would add up.

Luckily, the storm did no damage to Curiosity or any of the spacecraft at Mars. But, that won’t always be the case, and mission planners can use the data from this storm and others to figure out how best to protect future explorers.

A NASA video about how a solar storm affected Mars. For More Information

NASA Watches Mars Light Up During Epic Solar Storm
NASA Curiosity Mars Mission

The post A Recent Solar Storm Even Had an Impact on Mars appeared first on Universe Today.

Scientists scour the Earth and the sky for clues to our planet’s climate history. Powerful and sustained volcanic eruptions can alter the climate for long periods of time, and the Sun’s output can shift Earth’s climate over millions of years.

But what about interstellar hydrogen clouds? Can these regions of gas and dust change Earth’s climate when the planet encounters them?

Interstellar clouds aren’t all the same. Some are diffuse, while some are much denser. New research in Nature Astronomy says that our Solar System may have passed through one of the dense clouds two or three million years ago. The effect could’ve altered the chemistry of Earth’s atmosphere, affecting cloud formation and the climate.

The research is “A possible direct exposure of the Earth to the cold dense interstellar medium 2–3 Myr ago.” The lead author is Merav Opher from the Radcliffe Institute for Advanced Study at Harvard University and the Astronomy Department at Boston University.

“Our results open a new window into the relationship between the evolution of life on Earth and our cosmic neighborhood.”

Avi Loeb, co-author, Harvard University’s Institute for Theory and Computation

The Sun is moving through a large cavity in the interstellar medium (ISM) called the Local Bubble. Inside the LB, the Sun’s solar output creates a cocoon called the heliosphere. It shields the Solar System from cosmic radiation.

Inside the LB, there’s more than just the Sun. It also contains other stars, and the Local Interstellar Cloud (LIC). The Sun has been moving through the LIC and will leave it in a few thousand years. The LIC is not very dense.

But in the last few million years, as the Sun has traversed the Local Bubble, it’s encountered clouds that are much denser than the LIC. The researchers examined the effect these encounters had on the Sun’s ability to carve out a cocoon for the Solar System and what effect this had on Earth.

“Stars move, and now this paper is showing not only that they move, but they encounter drastic changes.”

Merav Opher, Professor of Astronomy, BU College of Arts & Sciences

“Here we show that in the ISM that the Sun has traversed for the last couple of million years, there are cold, compact clouds that could have drastically affected the heliosphere. We explore a scenario whereby the Solar System went through a cold gas cloud a few million years ago,” Opher and her colleagues write.

Most of what the Sun travels through is thin ISM. The Sun constantly moves through the thin ISM with no effect. “These clouds are plentiful around the Sun but have too low a density to contract the heliosphere to distances <130au,” the authors explain. For comparison, the Kuiper Belt spans from 30 to 55 AU away from the Sun.

However, the denser clouds in the ISM are dense enough to dramatically affect the protective heliosphere. “The ISM in the vicinity of the Solar System also harbours a few, rare, dense, cold clouds that are called the Local Ribbon of Cold Clouds,” they write.

One of the clouds in that ribbon is called the Local Leo Cold Cloud (LLCC). It’s one of the largest clouds in the ribbon, and astronomers have studied it extensively. They know its density and its temperature. Researchers haven’t paid as much attention to the other clouds in the ribbon, but they expect them to be similar.

The authors of this paper say that there’s a small chance, about 1.3%, that the Sun passed through the tail of the LLCC. “We name that portion the Local Lynx of Cold Clouds (LxCCs). The LxCCs represent nearly half of all the mass of the LRCC and are more massive than the more well-studied LLCC,” they write.

This diagram from the research shows how the Sun may have passed through the tail of the LRCC about 2 to 3 million years ago. Image Credit: Opher et al. 2024.

There are questions about the nature of these clouds in the past. “Note that these clouds are anomalous and unexplained structures in the ISM, and their origin and physics are not well understood,” the authors write. Their work is based on the assumption that they haven’t changed substantially in the 2 million years since the purported encounter. “We have assumed here that these clouds have not undergone any substantial change over the last 2~Myr, though future work may provide more insight into their evolution.”

The researchers used simulations to study the dense cloud’s effect on the heliosphere and, by extension, our planet. They say that the cloud’s hydrogen density pushed back on the Sun, shrinking the heliosphere smaller than the Earth’s orbit around the Sun. It brought both the Sun and the Moon into contact with the dense, cold ISM. “Such an event may have had a dramatic impact on the Earth’s climate,” they explain.

These images from the simulations show the heliosphere being distorted by passage through the tail of the Local Lynx of Cold Clouds. a is a side view, and b is a top view. The red circle shows Earth’s orbit around the Sun. The simulations show that for a period of time, Earth was outside of the Sun’s protective heliosphere. Image Credit: Opher et al. 2024.

The encounter is supported by the presence of the radioisotope 60Fe on Earth. 60Fe is predominantly produced in supernovae and has a half-life of 2.6 million years. Previous research linked the 60Fe to a supernova explosion, where it became entrenched in dust grains and then delivered to Earth. It’s also present on the Moon. 244Pu was delivered at the same time, also in supernovae ejecta.

While there’s a lot of uncertainty, the researchers say the deposition of 60Fe on Earth lines up with our Solar System’s hypothetical passage through a dense cloud that compressed the protective heliosphere, allowing the isotopes to reach Earth. “Our proposed scenario agrees with the geological evidence from 60Fe and 244Pu isotopes that Earth was in direct contact with the ISM during that period,” they write.

But if a supernova delivered the radioisotopes, it would have to have been pretty close, and other evidence discounts the supernova source. “A close supernova explosion contradicts the recent model of the Local Bubble formation,” the authors explain. “The scenario does not require the absorption of 60Fe and 244Pu into dust particles that deliver them specifically to Earth, like the scenario with nearby supernova explosions.”

The question at the heart of this issue is, how did this affect Earth?

An in-depth study of the consequences is outside the scope of this research. The team did comment on some possibilities, while also cautioning that very little research has been done on this matter.

“Very few works have investigated the climatic effects of such encounters quantitatively in the context of encounters with dense giant molecular clouds. Some argue that such high densities would deplete the ozone in the mid-atmosphere (50–100?km) and eventually cool the Earth,” they write.

It’s a leap, but some research suggests that this cooling could have contributed to the rise of our species. “The hypothesis is that the emergence of our species, Homo sapiens, was shaped by the need to adapt to climate change. With the shrinkage of the heliosphere, the Earth was exposed directly to the ISM,” they write.

In their conclusion, they remind us that the probability that this encounter took place is low. But not zero.

“Stars move, and now this paper is showing not only that they move, but they encounter drastic changes,” said Opher, a BU College of Arts & Sciences professor of astronomy and member of the University’s Center for Space Physics.

“Although the coincidence of the Sun’s past motion with these rare clouds is truly remarkable, the turbulent nature of the ISM and the small current angular size of these clouds mean that the past location error ellipse is much larger than the clouds and, absent any other information, the probability of their encounter is measured to be low,” they write in their conclusion. It’s up to future work to dig more deeply into the matter.

Even if this particular encounter may not have happened, the research is still fascinating. There appear to be a bewildering number of variables that led to us, and it’s not a stretch to imagine that passing through dense clouds in the ISM played some role at some point.

“Only rarely does our cosmic neighborhood beyond the solar system affect life on Earth,” said Avi Loeb, director of Harvard University’s Institute for Theory and Computation and coauthor on the paper. “It is exciting to discover that our passage through dense clouds a few million years ago could have exposed the Earth to a much larger flux of cosmic rays and hydrogen atoms. Our results open a new window into the relationship between the evolution of life on Earth and our cosmic neighborhood.”

“We hope that our present work will incentivize future works detailing the climate effects due to an encounter of the heliosphere with the LRCC and possible consequences for evolution on Earth,” the authors conclude.

The post Was Earth’s Climate Affected by Interstellar Clouds? appeared first on Universe Today.

The sun protects our solar system's planets from the harsh environment of interstellar space; 2 million years ago, a dense cloud of matter could have curtailed this shielding.

Scientists may have found missing pieces in the timeline that connects ancient Earth chemistry to modern day metabolic reactions.

Promethium, one of the rarest and most mysterious elements in the periodic table, has finally given up some crucial chemical secrets

Scientists have found that the members of the first all-civilian space mission, Inspiration 4, got genetically younger during their stay in space. But the effects did not last long.

Are points of infinite curvature, where general relativity breaks down, always hidden inside black holes? An audacious attempt to find out is shedding light on the mystery of quantum gravity

Are points of infinite curvature, where general relativity breaks down, always hidden inside black holes? An audacious attempt to find out is shedding light on the mystery of quantum gravity

The largest collection yet of detailed medical data and tissue samples from astronauts should help researchers better understand the impacts of space flight on health

The largest collection yet of detailed medical data and tissue samples from astronauts should help researchers better understand the impacts of space flight on health

What if you saw your shadow on Mars and it wasn't human?

H5N1 is running rampant through dairy cows, putting humans at risk of an epidemic