News by Subject Earth Science

News Release 14-Jan-2021

Geologic history written in garnet sand

Syracuse University
Research News Release

Syracuse University researchers probe deep secrets of trapped inclusions in garnet sand from Papua New Guinea

Journal: Proceedings of the National Academy of Sciences
Funder: Syracuse University Thonis Endowment, National Science Foundation Division of Earth Sciences, National Science Foundation Major Research Instrumentation, German Research Foundation

News Release 12-Jan-2021

New study of Earth's crust shows global growth spurt three billion years ago

Curtin University
Research News Release

Curtin University researchers have used ancient crystals from eroded rocks found in stream sediments in Greenland to successfully test the theory that portions of Earth's ancient crust acted as 'seeds' from which later generations of crust grew.

Journal: Nature Communications
Funder: Greenland Ministry of Mineral Resources

News Release 7-Jan-2021

Insights into the Yellowstone hotspot

Geological Society of America
Research News Release

The Yellowstone hotspot is well known for generating supereruptions in the geologic past that are far more explosive than historic examples. The origin and sustained longevity of the hotspot is less understood but is focused on two competing models, where the ascent of hot mantle is derived from either a deep-seated mantle plume or a shallow mantle source.

Journal: GSA Today

News Release 4-Jan-2021

Reawakened geyser does not foretell Yellowstone volcanic eruptions, study shows

University of California - Berkeley
Research News Release

Geyser eruptions, like volcanic eruptions, are a mystery, so the reactivation of Steamboat Geyser in Yellowstone in 2018 provided an opportunity to explore why geysers turn off and on, and what determines their periodicity. A team led by UC Berkeley researchers found little evidence of magma moving below the geyser, meaning no sign of imminent hydrothermal eruptions, but did discover a relationship between the height of the column and the depth of the water reservoir.

Journal: Proceedings of the National Academy of Sciences
Funder: National Science Foundation

News Release 22-Dec-2020

Slow start of plate tectonics despite a hot early Earth

University of Cologne
Research News Release

Writing in PNAS, scientists from Cologne university present important new constraints showing that plate tectonics started relatively slow, although the early Earth's interior was much hotter than today.

Journal: Proceedings of the National Academy of Sciences

News Release 21-Dec-2020

Deep, slow-slip action may direct largest earthquakes and their tsunamis

Penn State
Research News Release

Megathrust earthquakes and subsequent tsunamis that originate in subduction zones like Cascadia -- Vancouver Island, Canada, to northern California -- are some of the most severe natural disasters in the world. Now a team of geoscientists thinks the key to understanding some of these destructive events may lie in the deep, gradual slow-slip behaviors beneath the subduction zones. This information might help in planning for future earthquakes in the area.

Journal: Geochemistry, Geophysics, Geosystems
Funder: National Science Foundation

News Release 21-Dec-2020

Scientists and philosopher team up, propose a new way to categorize minerals

Carnegie Institution for Science
Research News Release

Minerals are the most durable, information-rich objects we can study to understand our planet's origin and evolution. However, the current classification system leaves unanswered questions for planetary scientists, geobiologists, paleontologists and others who strive to understand minerals' historical context. A new evolutionary approach to classifying minerals complements the existing protocols and offers the opportunity to rigorously document Earth's history.

Journal: Proceedings of the National Academy of Sciences

News Release 21-Dec-2020

New model reveals previously unrecognized complexity of oceanic earthquake zones

University of Tsukuba
Research News Release

University of Tsukuba researchers constructed a state-of-the-art model based on seismic data from the January 2020 Caribbean earthquake. The model revealed considerable complexity in rupture speed and direction, related to a bend in the fault that triggered several rupture episodes. The analysis revealed previously unrecognized complexity of rupture processes and fault geometry in ocean faults that had been assumed to be simple and linear, with implications for future earthquake modeling and a possible interaction with seafloor evolution.

Journal: Geophysical Research Letters

News Release 16-Dec-2020

Secret of Australia's volcanoes revealed

University of Sydney
Research News Release

New research from the University of Sydney proposes a theory that explains not only Australia's volcanic coast, but provides a framework for other incidences of intraplate volcanism in China, the US and the Caribbean.

Journal: Science Advances
Funder: This study was supported by the NSW Department of Industry and the AuScope Simulation, Analysis & Modelling node funded by the Australian Government through the National Collaborative Research Infrastructure Strategy.

News Release 10-Dec-2020

How commercial vessels could become tsunami early-warning systems

University of Colorado at Boulder
Research News Release

If a tsunami formed along the Cascadia Subduction Zone off the coast of Oregon, residents might have just 20-30 minutes to get to safety. Scientists have proposed a new forecasting system that could provide seaside towns with critical early warnings.

Meeting: 2020 American Geophysical Union Fall Meeting

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