Tungsten tagged posts

Multiple Urinary Metals play Key Role in Cardiovascular disease and Mortality, study finds

Higher levels of urinary metals such as cadmium, tungsten, uranium, cobalt, copper and zinc are linked to increased cardiovascular disease and mortality in a racially and ethnically diverse U.S. population, according to a new study at Columbia University Mailman School of Public Health. While it is well documented that exposure to certain metals has been associated with cardiovascular disease (CVD) and mortality, until now the evidence was limited beyond arsenic, cadmium, and lead and for a racially diverse population. The findings are published in the journal Circulation.

When analyzed together, the 6 metal-mixture including cadmium, tungsten, uranium, copper, cobalt, and zinc was associated with a 29 percent increased risk of cardiovascular disease and a 66% increased risk of dea...

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Traveling to the Sun: Why won’t Parker Solar Probe Melt?

Illustration of Parker Solar Probe circling the Sun. Credit: NASA/JHUAPL

Illustration of Parker Solar Probe circling the Sun.
Credit: NASA/JHUAPL

This summer, NASA’s Parker Solar Probe will launch to travel closer to the Sun, deeper into the solar atmosphere, than any mission before it. If Earth was at one end of a yard-stick and the Sun on the other, Parker Solar Probe will make it to within four inches of the solar surface. Inside that part of the solar atmosphere, a region known as the corona, Parker Solar Probe will provide unprecedented observations of what drives the wide range of particles, energy and heat that course through the region – flinging particles outward into the solar system and far past Neptune.

Inside the corona, it’s also, of course, unimaginably hot...

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Unlikely element turns up in Enzyme; Commercial Renewable Fuels might Ultimately Result

Tungsten is exceptionally rare in biological systems. Thus, it came as a huge surprise to researchers when they discovered this novel enzyme in hot spring-inhabiting bacterium, Caldicellulosiruptor bescii. This tungstoenzyme plays a key role in C. bescii’s primary metabolism, and its ability to convert plant biomass to simple fermentable sugars which could lead to commercially viable conversion of cellulosic (woody) biomass to fuels and chemical feedstocks, which could substantially reduce greenhouse emissions.

Cellulosic biomass’ advantage as a feedstock for fuel and chemical production is that it need not compete with food production for land. Its big challenge is that cellulose is highly resistant to enzymatic degradation...

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