Features of the landscape on Mars – new discoveries
Olympus Mons is one of a dozen large volcanoes, many of which are ten to a hundred times taller than their Earthly counterparts. If Martian space tourism takes off in the coming decades, Olympus Mons could become a prime destination for adventure enthusiasts. Olympus may once have been a volcanic island surrounded by an ocean nearly 4 miles (6 km) deep, according to geological evidence found in the high cliffs. Another new study found that the rover discovered polygonal wedges 35 kilometers underground – the first time they have been discovered beneath the planet’s surface. Evidence suggests that the wedges formed between 3.7 and 2.9 billion years ago due to major climate changes in Mars’ past. The Mars Express orbiter has discovered enough water ice buried beneath the Red Planet’s equator to cover the entire planet in a shallow ocean if it melted.
Modern latest satellite meteorological monitoring systems
Space-based observing systems account for approximately 90% of the data used in global numerical weather prediction models. Everyone on Earth is affected by the effects of climate change, such as rising temperatures, changing precipitation patterns and rising sea levels. Natural disasters such as volcanic eruptions, floods and tornadoes can dramatically change the Earth’s surface to the point where the changes are visible in space. Changes caused by human actions and interventions such as mining and deforestation are also visible in satellite images. Collecting climate data helps communities better plan for and become more resilient to these changes.
New natural sources of greenhouse gases and associated climate control technologies
Layers of methane are locked under permafrost in Arctic regions, but if they were released it could cause problems for the rest of the world. Researchers also discovered intense methane emissions deep in the Baltic Sea. Methane can be a real problem for the environment. The greenhouse gas, made up of carbon and hydrogen and about 80 percent more potent than carbon dioxide, occurs naturally in sedimentary layers of the seafloor and is responsible for about 30 percent of global temperature rise.
Massive natural and industrial sources of greenhouse gases are accelerating warming
Leaks of methane and carbon dioxide from the ocean floor, from cracks in the ground, industrial leaks and emissions from tropical forests have been detected.
Researchers predict methane explosions, fires and thunderstorms in the Arctic and tundra
Methane explosions can affect the climate of the entire planet. Hundreds of millions of tons of methane may be hidden under the ocean floor, which is currently contained by the “cap” of the permafrost zone.