Tulane volcano expert available to comment on eruption of Mauna Loa
Tulane University
From September to October of 2015, a 60-person team were gathering on the Guliya ice cap in the Kunlun Mountains of the Tibetan Plateau, with the purpose to retrieve the world’s oldest ice.
Volcanic eruptions are dangerous and difficult to predict. A team at the University of Tokyo has found that the ratio of atoms in specific gases released from volcanic fumaroles (gaps in the Earth’s surface) can provide an indicator of what is happening to the magma deep below — similar to taking a blood test to check your health.
Rapid changes in marine oxygen levels may have played a significant role in driving Earth’s first mass extinction, according to a new study led by Florida State University researchers.
The Earth’s climate has undergone some big changes, from global volcanism to planet-cooling ice ages and dramatic shifts in solar radiation. And yet life, for the last 3.7 billion years, has kept on beating.
In two connected studies, cave ecologist Jut Wynne, along with dozens of co-authors including engineers, astrophysicists, astrobiologists and astronauts, lay out the research that needs to be done to get us closer to answering the old-age question about life beyond Earth.
Social sciences and international relations experts at Hiroshima University in Japan have proposed a new framework for studying the immensely complex power dynamics between China and the U.S., and its allies bordering the Pacific Ocean – “hybrid balancing.”
The Devonian Period, 419 to 358 million years ago, was one of the most turbulent times in Earth’s past and was marked by at least six significant marine extinctions, including one of the five largest mass extinctions ever to have occurred.
In a new study published in the journal Nature Sustainability, an international team of scientists from the Earth Commission, convened by Future Earth, investigates the Earth system impacts of escaping poverty and achieving a dignified life for all.
The North American southwest has been suffering through weather extremes in recent years ranging from searing heatwaves and scorching wildfires to monsoon rainfalls that cause flash floods and mudslides.
IUPUI scientists have found evidence that the evolution of tree roots over 300 million years ago triggered mass extinction events through the same chemical processes created by pollution in modern oceans and lakes.
Early crust on Mars may be more complex than previously thought—and it may even be similar to our own planet’s original crust.
UV light makes it possible to see intricate structures of fossils that are barely visible in normal daylight.
When scientists discovered a hydrothermal vent site in the Arctic Ocean’s Aurora hydrothermal system in 2014, they did not immediately realize just how exciting their discovery was.
Humans are fascinated by our planet's distant past.
Data from two meteorite impacts on Mars recorded by NASA’s InSight spacecraft provide new insights into the structure of the Martian crust.
Building up the lunar settlement is the ultimate aim of lunar exploitation since human's first step on the moon. Yet, limited fuel and oxygen supplies restrict human survival on the moon.
Water is transported by oceanic plates into the Earth's deep interior and changes the properties of minerals and rocks, affecting the Earth's internal material cycle and environmental evolution since the formation of the Earth.
Scientists working at the Advanced Photon Source (APS) discover that under the conditions present at Earth’s core-mantle boundary, water and metal combine to form diamonds.
Research shows that coupling geothermal power plants with lithium extraction from geothermal brine would make geothermal energy more economically viable, providing renewable energy and valuable raw materials.
Scientists have uncovered new details of how ice forming below the ocean surface in Antarctica provides cold dense water that sinks to the seabed in an important aspect of global water circulation.
Thawing permafrost soils in the rapidly warming Arctic will emit as much greenhouse gas as large industrial nations by the end of this century, according to a University of Alberta researcher involved in an international study that stresses to policy makers that it’s not too late to act to stabilize the climate and avoid exceeding temperature targets.
By the end of this century, permafrost in the rapidly warming Arctic will likely emit as much carbon dioxide and methane into the atmosphere as a large industrial nation, and potentially more than the U.S. has emitted since the start of the industrial revolution.
Rapidly evolving floods are a major and growing hazard worldwide. Currently, their onset and evolution is hard to identify using existing systems.
For his work helping to arrange that many-pieced, time-shifting puzzle, the Geological Society of America has named Florida State University Assistant Professor Richard Bono as the 2022 recipient of the Seth and Carol Stein Early Career Award in Geophysics and Geodynamics. Bono is the first person to receive the award.
Scientists from the Immanuel Kant Baltic Federal University and Shirshov Institute of Oceanology of Russian Academy of Sciences described changes in conditions of bottom waters of the Atlantic during last 500 thousand years. As oceans plays an important role in formation of global climate, this information can help to understand contemporary changes and predict future variations in temperature and risks connected with them.
Ramping up renewable energy products will require a range of critical metals. One of these elements, tellurium, is gaining in popularity for use in photovoltaics, or solar panels. As global demand for solar panels continues to increase, so is the need for critical metals like tellurium.
An artificial-intelligence approach borrowed from natural-language processing — much like language translation and autofill for text on your smart phone — can predict future fault friction and the next failure time with high resolution in laboratory earthquakes,. The technique, applying AI to the fault’s acoustic signals, advances previous work and goes beyond by predicting aspects of the future state of the fault’s physical system.
Scientists seeking the connection between gravitational forces deep in the Earth and landscape evolution discovered that deep roots under mountain belts trigger dramatic movements along faults that result in collapse of the mountain belt and exposure of rocks that were once below the surface.
Some estimates of Antarctica’s total contribution to sea-level rise may be over- or underestimated, after researchers detected a previously unknown source of ice loss variability.
Deep valleys buried under the seafloor of the North Sea record how the ancient ice sheets that used to cover the UK and Europe expelled water to stop themselves from collapsing.
When the Chelyabinsk fireball exploded across Russian skies in 2013, it littered Earth with a relatively uncommon type of meteorite. What makes the Chelyabinsk meteorites and others like them special is their dark veins, created by a process called shock darkening.
ST. LOUIS – A $1 million grant from the National Science Foundation will create the Taylor Geospatial Institute Regional AI Learning System. Launched in April 2022 and led by Saint Louis University, the Taylor Geospatial Institute brings together eight Midwestern universities and research centers to harness innovation in geospatial science.
The first probable impact crater in Spain has been identified in the southern province of Almeria. The discovery was presented last week at the Europlanet Science Congress (EPSC) 2022 by Juan Antonio Sánchez Garrido of the University of Almeria.
When ice sheets melt, something strange and highly counterintuitive happens to sea levels.
A multidisciplinary group of Cornell researchers has modeled and synthesized lava in the laboratory as the kinds of rock that may form on far-away exoplanets. They developed 16 types of surface compositions as a starter catalog for finding volcanic worlds that feature fiery landscapes and oceans of magma.
Record of past volcanic eruptions — and potential hazards to health — revealed by low water levels at dwindling local tap source.
About two billion years ago, an impactor hurtled toward Earth, crashing into the planet in an area near present-day Johannesburg, South Africa. The impactor—most likely an asteroid—formed what is today the biggest crater on our planet.
With the help of geomagnetic surface surveys and subsequent hands-on digging, an excavation team from Johannes Gutenberg University Mainz (JGU) has revealed new insights into the area in which the caliph's palace of Khirbat al-Minya was built on the shores of the Sea of Galilee.
Cornell astronomers believe bright reflections beneath the surface of Mars’ South Pole are not necessarily evidence of liquid water, but instead geological layers.
Scientists who drilled deeper into an undersea earthquake fault than ever before have found that the tectonic stress in Japan’s Nankai subduction zone is less than expected, according to a study from researchers at The University of Texas at Austin.
Stone samples brought back to Earth from asteroid Ryugu have had their elemental composition analyzed using an artificially generated muon beam from the particle accelerator in J-PARC.
An international collaboration of scientists has published results of their studies into the makeup and history of asteroid 163173 Ryugu. These results tell us more about the formation of our solar system and the history of this nearby neighbor.
In a new study, researchers applied a large-scale model linking surface water to groundwater, which can be used for estimating water resources at a high spatial resolution.
An international team of researchers with NASA’s InSight mission located four new craters created by impacts on the surface of Mars.
Cornell University archaeologist Sturt Manning hopes to settle one of modern archaeology’s longstanding disputes: the date of a volcanic eruption on the Greek island of Santorini, traditionally known as Thera.
Pittsburgh’s steel industry may be largely in the past, but its legacy lives on in city soils. New research led by Pitt geologists shows how historical coking and smelting dropped toxic metals in Pittsburgh’s soil, particularly in the eastern half of the city. With samples from 56 parks, cemeteries and other sites around the city collected by Carnegie Mellon University students and Jonathan Burgess from the Allegheny County Conservation District, the team was able to pinpoint some of those polluting factors. They recently published their results in the journal Environmental Research Communications.
By: Kathleen Haughney | Published: September 19, 2022 | 4:01 pm | SHARE: Mexico is dealing with the fallout of a powerful 7.6 magnitude earthquake that occurred near the Pacific coast on the anniversary of two previous tremors. Earthquakes occurred on Sept. 19 in both 1985 and 2017 in Mexico, killing thousands of people.Florida State University Professor of Geology James Tull is available to speak with reporters about the effects of the earthquake and the geology behind this catastrophic event.
Researchers at the University of Copenhagen, in collaboration with the Danish Meteorological Institute (DMI), have used detailed weather models to clearly tie increased temperatures to the historic cloudburst over Copenhagen in July of 2011.