ESA's new biomass satellite could revolutionize how we study Earth's forests — Here's how it works
The ESA launched Biomass aboard a Vega-C rocket earlier this week. The launch vehicle blasted off from Kourou in French Guiana. Biomass is expected to revolutionize humanity's understanding of Earth's forests and the impact that human activities have on them.
The value that forests hold for the survival of our plant is well-known to everyone. They play one of the most crucial roles in the existence of humanity, and nearly all other life forms on Earth, by absorbing massive amounts of CO2 from the atmosphere and emitting oxygen in return. Forests cover nearly 31 per cent of the Earth's available land area. However, global forest covers are under a constant existential threat arising from human activities currently. Earlier this week, the European Space Agency (ESA) launched a satellite named Biomass, which is expected to advance humanity's understanding of how forests react to such adverse factors.
Tired of too many ads? Remove Ads
As per estimates by NASA, forests across our planet absorb approximately 7.6 bn metric tons of carbon dioxide annually. However, the estimate may be far from reality as the actual figure changes rapidly due to the ever-growing levels of greenhouse gas emissions from industrial units. Moreover, studying the impact of adverse human activities, such as deforestation, is a major challenge due to natural hurdles like dense canopies. Want a Loan? Get cash against your Mutual Funds in 4 hours As such, it is a major challenge for scientists to accurately map out how forests respond to factors that are detrimental to their survival. However, that might change soon, thanks to the groundbreaking mission launched by the European Space Agency (ESA) on April 29. Biomass is a first-of-a-kind satellite that is equipped with an advanced technology called the P-band radar, which can penetrate the various natural obstacles that prevent effective remote monitoring of forests.
Also Read : Tina Fey's The Four Seasons just dropped — Here's what viewers can't stop talking about The P-band radar is a technology that can penetrate forest layers and clouds. The signals emitted from the radar can bounce off forest elements. The mission is aimed at enhancing humanity's understanding of the role that forests play in the carbon cycle and climate, according to ESA.
Tired of too many ads? Remove Ads
The returning signals reveal details about forest biomass and height. The resulting data is expected to give scientists a deeper insight into habitat loss and its impact on biodiversity. The mission also allows scientists to map the subsurface geology of deserts, forest floor topography, and ice sheet structures.
To put it into simpler terms, Biomass has been developed to produce 3D maps of the Earth's forests. The satellite was launched aboard a Vega-C rocket, which blasted off from Kourou in French Guiana.
Also Read : Weight loss drug Wegovy can help fight deadly liver disease MASH, claims new study
1 . When was Biomass launched?
ESA's Biomass satellite was launched on April 29.
2 . Where was the satellite launched from?
Biomass was launched onboard a Vega-C launch vehicle from Kourou in French Guiana.
Disclaimer Statement: This content is authored by a 3rd party. The views expressed here are that of the respective authors/ entities and do not represent the views of Economic Times (ET). ET does not guarantee, vouch for or endorse any of its contents nor is responsible for them in any manner whatsoever. Please take all steps necessary to ascertain that any information and content provided is correct, updated, and verified. ET hereby disclaims any and all warranties, express or implied, relating to the report and any content therein.
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Time of India
3 hours ago
- Time of India
NASA locked them away for a year to test Mars simulation survival—what they did with a PS4 will stun you
In 2023, NASA conducted a groundbreaking experiment to simulate life on Mars , confining four volunteers in a habitat replica for over a year. The mission, known as CHAPEA (Crew Health and Performance Exploration Analog), aimed to study how humans cope with extreme isolation, limited resources, and communication delays. While the scientific focus was on survival, adaptation, and psychological resilience, the crew discovered an unexpected ally: PS4 gaming. Beyond entertainment, video games helped the volunteers maintain cognitive sharpness, reduce stress, and improve problem-solving skills, offering insights for the future of long-duration space missions . How NASA simulates life on Mars The CHAPEA mission recreated the harsh and confined conditions astronauts would face on a Mars journey. Volunteers lived in a 160-square-meter habitat at NASA's Johnson Space Center in Houston for 378 days. The experiment tested not only physical endurance, like managing food supplies and simulated spacewalks, but also the emotional and mental resilience of a crew cut off from the outside world. With Mars missions expected to last up to two years, understanding isolation's impact on teamwork, decision-making, and morale is critical for preparing astronauts for interplanetary travel. Video games as a mental health tool During the mission, PS4 gaming became a central way for the crew to cope with monotony and stress. Strategy and simulation games like SimCity, Civilization, and Factorio challenged the participants to plan, manage resources, and solve complex problems, skills directly relevant to space travel. Microbiologist Anca Selariu noted that gaming sessions offered cognitive training while providing a mental escape, keeping the crew's minds active and morale high. NASA researchers now see gaming as a potential standard tool for future long-duration missions. Coping with isolation and psychological challenges The volunteers experienced strict isolation, with communication to NASA delayed by 22 minutes each way. Living without natural light in a small habitat tested their mental endurance. Video games played a vital role in maintaining mental health, helping reduce feelings of loneliness, anxiety, and stress. They also encouraged teamwork, strategic thinking, and problem-solving under pressure, essential skills for astronauts on real interplanetary missions. The CHAPEA mission demonstrates that structured entertainment can complement physical and psychological training for future explorers. Lessons for future Mars missions NASA's Mars simulation experiment highlights the importance of addressing psychological needs during long-duration spaceflight. Incorporating video games and other interactive entertainment may improve astronauts' cognitive function, morale, and overall mission success. By combining rigorous scientific research with practical coping strategies, missions like CHAPEA pave the way for safer, more effective human exploration of Mars and beyond.
Time of India
5 hours ago
- Time of India
Jeff Bezos' Blue Origin to launch NASA's Mars mission before Elon Musk's SpaceX
Blue Origin , led by Jeff Bezos , is gearing up for a landmark mission to Mars, set to launch NASA 's ESCAPADE probes aboard the New Glenn rocket on September 29, 2025. This will mark Blue Origin's first interplanetary flight and is notable because it precedes any Mars-bound mission from Elon Musk's SpaceX, whose Starship is still undergoing development and orbital tests. The ESCAPADE mission, valued at $80 million, aims to study Mars' magnetosphere and atmosphere, providing critical data on how solar wind interacts with the Red Planet. The launch represents a significant milestone in commercial space exploration and highlights the growing collaboration between private companies and government space agencies. ESCAPADE mission: Blue Origin and NASA's groundbreaking Mars exploration Blue Origin, led by Jeff Bezos, will carry NASA's twin ESCAPADE probes to Mars aboard the New Glenn rocket. The probes are designed to study Mars' magnetosphere and space weather, analyzing how solar wind interacts with the Martian atmosphere and affects the planet's climate and radiation environment. Managed by the University of California's Space Sciences Laboratory, this mission will provide vital data for scientists studying Mars' unique atmospheric and magnetic characteristics. Beyond its scientific goals, the mission represents a major collaboration between NASA and the commercial space sector, showing how private companies like Blue Origin can contribute to deep-space exploration while supporting critical planetary research initiatives. Blue Origin New Glenn's role in interplanetary spaceflight by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like American Investor Warren Buffett Recommends: 5 Books For Turning Your Life Around Blinkist: Warren Buffett's Reading List Undo The upcoming launch is a milestone for Blue Origin's New Glenn rocket, which stands 188.5 feet tall and is designed for heavy-lift commercial and interplanetary missions. This mission will be the first time New Glenn is tasked with delivering payloads beyond Earth orbit, demonstrating the rocket's precision, reliability, and long-range capabilities. Successfully transporting the ESCAPADE probes will solidify New Glenn's role as a key player in commercial interplanetary travel and will provide valuable insights into the performance of large rockets under the unique stresses of a Mars-bound mission. This step will further position Blue Origin in the competitive landscape of space exploration. Reusable rocket technology Blue Origin plans to recover New Glenn's first stage booster, which measures 57.5 meters, using a drone ship stationed in the Atlantic Ocean. The recovery is a crucial step in Blue Origin's mission to create fully reusable rockets, aiming to lower launch costs and reduce the environmental footprint of space missions. While the first test flight in early 2025 successfully delivered payloads to Earth orbit, the booster landing attempt was unsuccessful. This upcoming flight offers another chance to perfect booster recovery, a key technology for sustainable and cost-effective interplanetary missions. Mastering reusability is central to Blue Origin's long-term vision for commercial spaceflight . Secondary payload: Advancing space communications In addition to the ESCAPADE probes, New Glenn will carry a secondary payload from satellite communications company Viasat. This demonstration supports NASA's Communications Services Project, aimed at improving satellite communication networks for both near-Earth and interplanetary operations. The payload will test advanced communication technologies that could enhance data transmission between spacecraft and Earth, supporting future missions to Mars, the Moon, and beyond. By integrating secondary payloads, Blue Origin can provide additional value to NASA and commercial partners, while advancing technologies that are essential for the next generation of space exploration. Blue Origin and SpaceX in the Mars race While Blue Origin's New Glenn will launch NASA's Mars probes before SpaceX sends any payload to the Red Planet, Elon Musk's Starship continues to undergo testing and development for future Mars missions. This launch highlights the growing importance of commercial companies in planetary exploration and the role private firms play in advancing space technology. Both Blue Origin and SpaceX are pushing the boundaries of rocket design, reusability, and interplanetary capability, creating a new era of collaboration and competition in the quest to explore Mars and other distant worlds.
India Today
6 hours ago
- India Today
Can swallow 25 Indias: Titan's shadow on Saturn is so big it's visible from Earth
Time is running out for skywatchers to witness one of the solar system's rarest and most breathtaking sights: the massive shadow of Titan, Saturn's largest and most enigmatic moon, sweeping across the face of the ringed May, amateur astronomers around the globe have been reporting successful glimpses of Titan's inky shadow gliding over Saturn's cloud tops, a spectacle that will only be available a few more times before it vanishes from view for almost two moon Titan is so big that you could fit roughly twenty-five Indias on the surface. WHEN AND HOW TO SEE TITAN SHADOW ON SATURNThe next opportunity to catch this celestial show comes on the early hours of August 19, when Titan's shadow will embark on a four-hour trek across Saturn's transit will begin at 11:22 AM IST as Saturn climbs high in the southern sky, shining at magnitude +0.6 in the constellation event will remain visible in small backyard telescopes, giving both newcomers and seasoned observers time to adjust their equipment, capture images, and marvel at the transits like these only occur during Saturn's equinoxes, when the sunlight hits the planet's rings and moons nearly edge-on. Saturn's moon Titan seen by the Hubble Telescope. (Photo: Nasa) With a diameter almost 50% larger than Earth's moon and a thick, hazy atmosphere, Titan's shadow appears jet black and imposing, easily distinguished even in modest telescopes among Saturn's 274 known makes this event even more special is its rarity. Once the current 'shadow season' ends in October, such Titan transits won't be visible again until the 2040s, making August 19th and subsequent nights the final curtain call for a generation of transit lasts several hours, offering patient observers a generous window to fine-tune their views and experiment with astro-photography this extraordinary, fleeting show. After October, Saturn and Titan will keep their cosmic waltz hidden, until their shadows align again for Earthbound eyes, nearly twenty years from now.- EndsMust Watch
