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Stillbirth rates tied to lead in drinking water

High fetal death rates coincided with releases of toxic metal into Washington D.C.’s pipes
DANGEROUS WATER  The rate of stillbirths increased during two recent episodes of elevated lead levels in Washington, D.C.’s drinking water.
Stillbirth rates in Washington, D.C., rose in parallel with two recent spikes in lead levels in drinking water, a new analysis finds.
Virginia Tech environmental engineer Marc Edwards and colleagues, in an earlier study, tied a 2001–2004 increase in children’s blood lead levels to a switch in the chemical that Washington’s water authority uses to disinfect drinking water (SN Online: 1/27/2009). After 2004, when city officials warned the public and the utility distributed water filters, blood lead levels fell.
Long-established science suggests that the elevated lead levels should have also increased stillbirths, which are fetal deaths in the second half of the normal 40-week gestation period. The new study, published December 9 in Environmental Science & Technology, provides evidence that such an increase occurred during Washington’s lead crisis. Edwards found that in 2001, Washington’s annual fetal death rate jumped by 32–63 percent relative to the rates in 1997–1999; no comparable increase occurred in Baltimore, which did not suffer lead level spikes.
Washington’s stillbirth rates returned to normal in 2004. But the city’s fetal death rate rose again in 2007–2009, when pipe replacements released lead into some homes’ drinking water. 

Citations:
M. Edwards. Fetal death and reduced birth rates associated with exposure to lead-contaminated drinking waterEnvironmental Science & Technology. Published online December 9, 2013. doi: 10.1021/es4034952. 

References:
J. Raloff. 'Science fraud' alleged in urban lead incident. Science News Online, January 28, 2009.
J. Raloff. Water-cleanup experiment caused lead poisoning. Science News Online, January 27, 2009.
M. Edwards, S. Triantafyllidou and D. Best. Elevated blood lead in young children due to lead-contaminated drinking water: Washington, DC, 2001–2004Environmental Science & Technology. Vol. 43, January 27, 2009, p 1618. doi: 10.1021/es802789w. 

Pulverized Asteroid around Distant Star Was Full of Water



It is the first discovery of a rocky and watery body beyond our solar system. The rubble appears to be the remains of a destroyed planetary system around the white dwarf GD 61, 170 light years away. The debris may give insights into how planets get their oceans, as scientists theorise that the oceans on Earth arrived via comet and asteroid impacts. 

The researchers used the Hubble Space Telescope’s Cosmic Origins Spectrograph to observe GD 61 and split its light into constituent colors, revealing the chemicals it contains. They found magnesium, iron, silicon and other heavy elements, which wouldn’t exist naturally on the surface of a white dwarf, suggesting that they fell onto the star from an orbiting object. The researchers also found a huge excess of oxygen—an amount, they say, that indicates the asteroid polluting the star’s surface was originally composed of 26 percent water. That’s pretty wet—Earth, by contrast, is only 0.02 percent water. “This work marks the first detection of water-rich rocks in exoasteroids, and is an important step in developing a comprehensive picture of exoplanetary systems,” says Kevin France of the University of Colorado at Boulder, who wasn’t involved in the research.
The find could be significant, because theorists think Earth, having formed too close to the sun for water to survive, got its oceans from just such large, wet asteroids that impacted it long ago. “We’ve got the same kind of object which probably delivered Earth’s oceans, and we found this around another star,” says research leader Jay Farihi at the University of Cambridge in England. The discovery, he says, is a step in the quest to find habitable worlds, and maybe even life, beyond Earth. “This goes beyond planets in the habitable zone. We have some actual chemistry that tells you the ingredients for habitable planets were there.”
Some experts aren’t convinced that the oxygen found on the surface of the white dwarf is a clear sign that water existed on an orbiting asteroid, however. “The link of the pollution of a white dwarf to the inventory of water in an earlier planetary system is a very interesting scientific question still under investigation,” says exoplanet researcher Lisa Kaltenegger of Harvard University and the Max Planck Institute for Astronomy in Germany, who was not involved in the research. Claire Moutou, another exoplanet specialist at the Laboratory of Astrophysicsof Marseille in France, agreed. “I find the analysis/conclusions of the paper reasonable, as far as the amount of oxygen available to lie in H2O molecules is concerned. The interpretation of the origin of this water content is more speculative.”
The scientists behind the project, which is detailed in the October 11 issue of Science, say they took pains to verify that the chemicals they see really do prove the destroyed asteroid had water. They observed the star GD 61 in many wavelengths through many telescopes, including NASA’s Spitzer Space Telescope and two instruments on the W. M. Keck Observatory in Hawaii, along with Hubble. “The authors seem to have done a careful job of cataloguing the elements and searching for reasons to explain away the oxygen excess,” says debris disk expert John Debes of the Space Telescope Science Institute in Baltimore. “The detection of hydrogen in addition to the oxygen is a really convincing signature of water.” The finding sheds light on how planets form and evolve, adds Brice-Olivier Demory, an exoplanet researcher at the Massachusetts Institute of Technology who also was not involved in the research. “This is a startling result strengthening the fact that water can be found in a very diverse range of environments.”

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