Technologies developed through CSIRO's
new Deep Earth Imaging research will deliver the best results with broad collaboration, says a leading industry geoscientist, JON HRONSKY, of Western Mining Services.
Aligned with the UNCOVER vision is CSIRO's
new Deep Earth Imaging Future Science Platform.
Not exact matches
Three thousand miles off the Eastern coast of
New Zealand and more than 2 miles
deep, it's the one place farthest from any land mass on
Earth.
Previous missions selected by
New Frontiers include
New Horizons, a nuclear - powered probe that flew by Pluto in 2015 and is now going
deeper into the Kuiper Belt; OSIRIS - REx, a robot that's flying out to meet asteroid Bennu and bring a sample of it back to
Earth; and the Juno mission, which is looping around Jupiter, recording unprecedented data and breathtaking images of the planet.
There have been actual, physical, places which were considered to be the gateway to «Hades» (Hades was the Greek name of the G - d of the underworld, Pluto was the Roman name)... most of these places were places that emitted gases from
deep in the
earth that killed off flying birds and / or the animals surrounding the area (Can't remember the name of the lake in Italy offhand, but there's a
new find in Turkey with roughly the same idea): http://www.nydailynews.com/news/world/gateway-hades-uncovered-turkey-archaeologists-article-1.1307747).
In twenty interviews, longtime friends and associates of the pope «from the ends of the
earth» give readers real insight into the radical Christian disciple who is leading the Church «into the
deep» of the
new evangelization, following the call of John Paul II in 2001.
Like Teilhard, he has
deep faith that the evolutionary energies of the universe which have brought life on
earth to its present high pitch are working through today's crises to a
new level.
But the real matter of scripture is clear, «the
deepest secret of all,» that God in Christ has come to
earth, lived, taught, healed, died, and risen to
new life, so that we too can rise to life in him.»
The dream of a
new heaven and a
new earth was a dream that can be found
deep in Jewish thought.
MAPPING
DEEP LIFE WITH DNA Onstott calls his trips into the gold mines «underground safaris,» but finding
new species in the depths of the
Earth is a far cry from spotting them on the savannah.
New calculations of the composition of TRAPPIST - 1f, the fifth planet from the star, suggest a relatively thin layer of water (still far
deeper than anything found on
Earth) gives way to ice VI and ice VII, two different forms of ice that can form under high pressures.
China's second moon probe is parked at a stable spot in
deep space, called a Lagrangian point, as part of a
new mission to study the sun and
Earth's magnetic field.
Dr Ubide, from UQ's School of
Earth and Environmental Sciences, used a
new laser technique to examine the composition of tiny crystals forming
deep in volcanoes.
Testing Herndon's wild idea, along with many other hypotheses, will require
new and better tools designed for
deep Earth exploration.
«The upwelling we detected is like a hot air balloon, and we infer that something is rising up through the
deeper part of our planet under
New England,» said lead author Vadim Levin, a geophysicist and professor in the Department of
Earth and Planetary Sciences at Rutgers University -
New Brunswick.
«With these system concept studies, we are taking the next steps to develop capabilities needed to send humans
deeper into space than ever before, and ultimately to Mars, while testing
new techniques to protect
Earth from asteroids,» William Gerstenmaier, associate administrator for NASA's Human Exploration and Operations Mission Directorate.
SHAKY GROUND Researchers drag sensors across the ocean near
New Zealand to study ocean floor vibrations, adding data to the debate about how the
Earth moves
deep underground.
The Hubble Space Telescope, orbiting 570 kilometers above
Earth's atmosphere, has peered
deep into space to witness the formation of
new planets, the evolution of galaxies and the age of the universe.
The observations provide
new insight for all sorts of solid - solid phase transformations, and have potential implications for development and manufacture of alloys, as well as natural processes that occur
deep within
Earth's mantle.
Second Life: Just months after the craft dropped its payload to
Earth in 2006, remotely fired its thrusters to change its course for a
new mission, called Stardust - NExT, to photograph the crater created by
Deep Impact.
Such a system provides a
new option for spacecraft to autonomously determine their locations outside the currently used
Earth - based global navigation networks because pulsars are accessible in virtually every conceivable fight regime, from low -
Earth to
deepest space.
The
new administration will likely shift NASA resources away from
Earth exploration and into
deep space.
Trapped within large diamonds, slivers of embedded iron surrounded by special gases reveal that the precious gems were formed in liquid metal — a discovery that also confirms metal - saturated conditions
deep in the
Earth, a
new study in the 16 December issue of Science reports.
The
Deep Earth Water model is showing that, under extreme pressures down to 200 kilometers, water can dissolve many ions and host unexpected
new reactions.
Now researchers at the Cooperative Institute for Research in Environmental Sciences (CIRES) and the Department of Geological Sciences at the University of Colorado Boulder have proposed a
new way to explain the uplift: Water trapped
deep below
Earth's crust may have flooded the lower crust, creating buoyancy and lift.
Earth continuously heats the rock
deep below the surface; a
new report from M.I.T. suggests harvesting that renewable energy
Because such shifts in olivine change the structure of
earth's subducted lithosphere, the
new phase transition mechanism could help explain the origins of some
deep earthquakes.
Large reservoirs of magma stored
deep in
Earth's crust are key to producing some of
Earth's most powerful volcanic eruptions,
new research has shown.
In a
new study, an international team of scientists claim that the most powerful volcanic eruptions, dubbed «super-eruptions», are triggered by a slow and steady drip feed of magma from large reservoirs
deep within
Earth's crust into smaller reservoirs closer to the surface.
Researchers in the
new findings attribute the phenomena to buoyancy created by heat arising from
deep in the
Earth's interior.
NASA's
new plan to capture a tiny asteroid in
deep space and lodge it in the
Earth - moon system so that astronauts can get their hands on it is certainly audacious.
ASU graduate student Mingming Li in collaboration with ASU professors Allen McNamara and Ed Garnero developed
new simulations that depict the dynamics of
deep Earth.
A layer of iron and other elements
deep underground is the evidence scientists have long been seeking to support the hypothesis that the moon was formed by a planetary object hitting the infant
Earth some 4.5 billion years ago, a
new study led by Johns Hopkins University scientists argues.
A
new study published April 29 in Science suggests that eddies may have a
deeper reach than previously thought, helping to shape some of the most remote ecosystems on
Earth —
deep - sea hydrothermal vents.
Seeking to better understand the composition of the lowermost part of
Earth's mantle, located nearly 2,900 kilometers (1,800 miles) below the surface, a team of Arizona State University researchers has developed
new simulations that depict the dynamics of
deep Earth.
Now, a computer modeling approach, developed by University of Maryland seismologist Vedran Lekic and colleagues at the University of California Berkeley, has produced
new seismic wave imagery which reveals that the rising plumes are, in fact, influenced by a pattern of finger - like structures carrying heat
deep beneath
Earth's oceanic plates.
An investigation of the most powerful earthquake ever recorded
deep within the
Earth suggests
deep quakes may be better at dissipating pent - up energy than similar quakes near the surface, researchers say in a
new study.
In the
new study, researchers placed tiny particles of silicon carbide (one represented by the group of tan molecules in this artist's concept) covered with graphite (hexagonal networks of gray atoms) in a vacuum chamber that duplicated the
deep - space conditions surrounding many stars (temperatures between 900 and 1500 kelvins and pressures less than one - billionth that found at
Earth's surface).
A
new study led by The Australian National University (ANU) has found seawater cycles throughout
Earth's interior down to 2,900 km, much
deeper than previously thought, reopening questions about how the atmosphere and oceans formed.
If further research confirms the model's accuracy, it could also open
new avenues for exploring the origin of life on
Earth, and for understanding the role hydrogen gas might play in supporting life in a wide range of extreme environments, from the sunless
deep - sea floor to distant planets.
In another feature article, geochemist Robert M. Hazen also proposes a
new view — one applied to our understanding of how
Earth's
deep geohistory shaped its mineral riches.
The most basic
deep - space vehicle would consist of two modules that could both be lofted into low
Earth orbit with a single launch of the smallest of NASA's
new SLS rockets.
The
new results may help scientists better assess how episodes of mountain - building
deep in
Earth's past have affected climate over the long term.
The group, led by Carlos Fernandez, Ph.D., at PNNL, has developed a
new fracturing fluid that uses an environmentally friendly polymer to create tiny cracks in bedrock
deep below the surface of the
earth.
Understanding how that would affect the climate will require going beyond historical records of climate change, or even the information encoded in tree rings or ice cores, to what scientists call «
deep time» records of conditions on
Earth, according to a
new NAS analysis.
Analysis of the rock samples has been a huge success, revealing
new information about the mineralogy of the fault, says James Whitcomb, who heads the NSF's
deep -
Earth processes section in Arlington, Va..
Eighteen months after President Barack Obama announced the Administration's
new plan for space exploration, NASA has selected a design for an essential component — the
new Space Launch System — a powerful, heavy lift rocket that will carry astronauts and cargo beyond low -
Earth orbit into
deep space.
A Pangaea - like supercontinent is forecast to form in 250 million years, but a
new model predicts that superplumes rising from hotspots
deep in the
Earth's mantle will keep South America and Antarctica from re-merging with the other continents.
A remote expedition to the
deepest layer of the
Earth's oceanic crust has revealed a
new ecosystem living over a kilometre beneath our feet.
New research on oxygen and iron chemistry under the extreme conditions found
deep inside
Earth could explain a longstanding seismic mystery called ultralow velocity zones.