Tag Archives: mineral

A Window into Europa’s Ocean Right at the Surface

By Guest PostMarch 8, 2013Scienceastronomer, california institute, chemical environment, chemical exchange, epsomite, europa, frozen exterior, galileo mission, icy moon, jet propulsion laboratory, johns hopkins university, kevin hand, liquid ocean, magnesium sulfate salt, mike brown, mineral, NASA, osiris spectrometer, oxidation, pasadena, potassium chlorides, salty ocean, sodium chloride, spectroscopic feature, surface of jupiter, Technology, voyager

If you could lick the surface of Jupiter’s icy moon Europa, you would actually be sampling a bit of the ocean beneath. A new paper by Mike Brown, an astronomer at the California Institute of Technology in Pasadena, Calif., and Kevin Hand from NASA’s Jet Propulsion Laboratory, also in Pasadena, details the strongest evidence yet that salty water from the vast liquid ocean beneath Europa’s frozen exterior actually makes its way to the surface.

The finding, based on some of the best data of its kind since NASA’s Galileo mission (1989 to 2003) to study Jupiter and its moons, suggests there is a chemical exchange between the ocean and surface, making the ocean a richer chemical environment. The work is described in a paper that has been accepted for publication in the Astronomical Journal. (more…)

NASA Mars Rover Preparing to Drill into First Martian Rock

By Guest PostJanuary 16, 2013Scienceaileen yingst, bassinite, bradbury landing, calcium, california institute, camera, chemcam, chemical composition, concretions, curiosity, drill hardware, drilling, drilling target, drt, dust removal tool, Environment, evidence, flat rock, fractures, france, gale crater, gillespie lake rock, gypsum, hydrated calcium sulfate, hydrogen, imager, internet buzz, jet propulsion laboratory, john grotzinger, john klein, laser pulsing chemistry, level, mahli, mars, mars hand lens, mars rover curiosity, mars science laboratory, martian flower, martian material, mast camera, mastcam, microbial life, mineral, mission, nantes, NASA, nicolas mangold, pale veins, pasadena, red planet, richard cook, rock, samples, sedimentary rocks, shaler unit, shallow depression, sheepbed outcrop, stream flow, sulfur, Technology, terrain, tucson, veins, wet environment, wet history, yellowknife bay

PASADENA, Calif. — NASA’s Mars rover Curiosity is driving toward a flat rock with pale veins that may hold clues to a wet history on the Red Planet. If the rock meets rover engineers’ approval when Curiosity rolls up to it in coming days, it will become the first to be drilled for a sample during the Mars Science Laboratory mission.

The size of a car, Curiosity is inside Mars’ Gale Crater investigating whether the planet ever offered an environment favorable for microbial life. Curiosity landed in the crater five months ago to begin its two-year prime mission. (more…)

Behind Closed Doors

By Guest PostAugust 28, 2012Scienceabscisic acid, amutha sampath kumar, arabidopsis thaliana, bacillus subtilis, beneficial, bug, carbon dioxide, deborah powell, delphis f levia, disease, foliar pathogen, harsh bais, infection, jeffrey l caplan, kirk j czymmek, leaf pore, microscopic pore, mineral, oxygen, pathogen, plant immunity, pseudomonas syringae, pstdc3000, rhizobacteria, roots signal, salicylic acid, soil bacteria, stomata, tomato dc3000, university of delaware, venkatachalam lakshmanan, water

UD researchers show how beneficial soil bacteria can boost plant immunity

With the help of beneficial bacteria, plants can slam the door when disease pathogens come knocking, University of Delaware researchers have discovered.

A scientific team under the leadership of Harsh Bais, assistant professor of plant and soil sciences in UD’s College of Agriculture and Natural Resources, found that when pathogens attempt to invade a plant through the tiny open pores in its leaves, a surprising ally comes to the rescue. Soil bacteria at the plant’s roots signal the leaf pores to close, thwarting infection. (more…)

Ancient Alteration of Seawater Chemistry Linked With Past Climate Change

By Guest PostJuly 22, 2012Environmentadina paytan, alteration, antarctic ice sheet, candace major, cenozoic era, climate and evolution, climate change, collision, dissolution, eocene epoch, eurasia, greenhouse periods, gypsum, gypsum belt, gypsum deposit, hydrated calcium sulfate, icehouse climate, India, iodp, iran, joides resolution, marine, million years, mineral, national science foundation, ocean drillship, oman, Pakistan, phosphorus cycling, plate tectonics, santa cruz, seawater chemistry, sulfate aerosols, sulfate concentration, sulfur composition, ulrich wortmann, university of california, university of toronto, zagros mountains

Dissolution or creation of huge gypsum deposits changed sulfate content of the oceans

Scientists have discovered a potential cause of Earth’s “icehouse climate” cooling trend of the past 45 million years. It has everything to do with the chemistry of the world’s oceans.

“Seawater chemistry is characterized by long phases of stability, which are interrupted by short intervals of rapid change,” says geoscientist Ulrich Wortmann of the University of Toronto, lead author of a paper reporting the results and published this week in the journal Science.

“We’ve established a new framework that helps us better interpret evolutionary trends and climate change over long periods of time. The study focuses on the past 130 million years, but similar interactions have likely occurred through the past 500 million years.” (more…)

New Understanding of Earth’s Mantle Beneath The Pacific Ocean

By Guest PostMarch 24, 2012Scienceasthenosphere, boundary, carnegie, crust, earth, evolution, factors, gutenberg discontinuity, lab, lithosphere, lithosphere asthenosphere boundary, mineral, molten rock, nick schmerr, pacific ocean basin, planet, plate tectonics

Washington, D.C. — Scientists have long speculated about why there is a large change in the strength of rocks that lie at the boundary between two layers immediately under Earth’s crust: the lithosphere and underlying asthenosphere. Understanding this boundary is central to our knowledge of plate tectonics and thus the formation and evolution of our planet as we know it today. A new technique for observing this transition, particularly in the portion of Earth’s mantle that lies beneath the Pacific Ocean basin, has led Carnegie and NASA Goddard scientist Nick Schmerr to new insight on the origins of the lithosphere and asthenosphere. His work is published March 23 in Science.

The lithosphere-asthenosphere boundary, or LAB, represents the transition from hot, convecting mantle asthenosphere to overlying cold and rigid lithosphere. The oceanic lithosphere thickens as it cools over time, and eventually sinks back into the mantle at Earth’s so-called subduction zones. (more…)

NASA’s Spitzer Finds Solid Buckyballs in Space

By Guest PostFebruary 26, 2012Sciencearchitect, astronomers, bill danchi, buckminster fuller, buckminsterfullerene, buckyballs, building block, carbon atoms, charleswoodward, colorado, cosmos, England, fulgurite, Galaxy, gas, geodesic domes, hollow sphere, jacco van loon, keele university, life, microscopic carbon spheres, mike werner, mineral, mount everests, NASA, nye evans, pair of stars, robert gehrz, russia, shungite, small magellanic cloud, soccer ball, solid form, Space, spitzer space telescope, xx ophiuchi

PASADENA, Calif. — Astronomers using data from NASA’s Spitzer Space Telescope have, for the first time, discovered buckyballs in a solid form in space. Prior to this discovery, the microscopic carbon spheres had been found only in gas form in the cosmos.

Formally named buckminsterfullerene, buckyballs are named after their resemblance to the late architect Buckminster Fuller’s geodesic domes. They are made up of 60 carbon atoms arranged into a hollow sphere, like a soccer ball. Their unusual structure makes them ideal candidates for electrical and chemical applications on Earth, including superconducting materials, medicines, water purification and armor. (more…)

First Plants Caused Ice Ages

By Guest PostFebruary 1, 2012Environment, Natureatmospheric carbon, atmospheric carbon level, calcium, carbon cycle, carbonate rocks, chemical weathering, climate, earth surface, first land plants, global cooling, granite, ice ages, iron, liam dolan, magnesium, marine life, mass extinction, mineral, modern moss, ocean, ordovician period, oxford university, phosphorus, physcomitrella patens, reduction, rocks, silicate rocks, tim lenton, university of exeter

*New research reveals how the arrival of the first plants 470 million years ago triggered a series of ice ages. Led by the Universities of Exeter and Oxford, the study is published in Nature Geoscience.*

The team set out to identify the effects that the first land plants had on the climate during the Ordovician Period, which ended 444 million years ago. During this period the climate gradually cooled, leading to a series of ‘ice ages’. This global cooling was caused by a dramatic reduction in atmospheric carbon, which this research now suggests was triggered by the arrival of plants.

Among the first plants to grow on land were the ancestors of mosses that grow today. This study shows that they extracted minerals such as calcium, magnesium, phosphorus and iron from rocks in order to grow. In so doing, they caused chemical weathering of the Earth’s surface. This had a dramatic impact on the global carbon cycle and subsequently on the climate. It could also have led to a mass extinction of marine life. (more…)

Ancient Colorado River Flowed Backwards

By Guest PostOctober 4, 2010Sciencearizona, california river, colorado river, colorado-green river system, colton formation, geologist, gulf of california, isotope, lead, mineral, mojave region, rocky mountains, southern california, steven davis, uranium, utah, zircon

Palo Alto, CA — Geologists have found evidence that some 55 million years ago a river as big as the modern Colorado flowed through Arizona into Utah in the opposite direction from the present-day river. Writing in the October issue of the journal Geology, they have named this ancient northeastward-flowing river the California River, after its inferred source in the Mojave region of southern California. (more…)