Retailers boosted inventories by 0.3 percent. That reflected gains in many categories but declines at auto dealers. Manufacturers raised inventories by 0.1 percent. The latest reports provide fresh figures showing that the economy was not performing as well as previously thought at the turn of the year. Analysts said the slowdown in retail sales in January was not too worrisome given that it followed a 1.2 percent surge in December sales. On Wall Street, the Dow Jones industrial average closed at a new high. The Dow closed up 87.01 points at a new record of 12,741.86. It was the 28th record close since the start of October. A string of weaker-than-expected numbers is causing economists to reduce their estimates for overall growth, as measured by the gross domestic product, for the final three months of last year. They now believe that the GDP was growing at an annual rate of just 2.5 percent, a full percentage point below the government’s initial estimate of 3.5 percent GDP growth in the final quarter of 2006. 160Want local news?Sign up for the Localist and stay informed Something went wrong. Please try again.subscribeCongratulations! You’re all set! WASHINGTON – Retail sales, hurt by a big drop in auto purchases, slowed at the start of the year and business inventories turned in the poorest showing in 17 months. The Commerce Department reported Wednesday that retail sales essentially were flat in January, the poorest performance since a 0.2 percent decline in October. Business inventories, the department said, basically were unchanged in December at $1.37 trillion, $147 million less than in November. It was the weakest showing for inventories since they fell by 0.4 percent in July 2005. The inventory report included a 0.5 percent plunge in stockpiles held by wholesalers.
Citation: Lunar rock samples reveal variations in water concentrations (2014, May 26) retrieved 18 August 2019 from https://phys.org/news/2014-05-lunar-samples-reveal-variations.html (Phys.org) —A team of researchers studying rocks returned from the moon by Apollo 17 astronauts has found that rocks found in different locations have different amounts of water in them. In their paper published in the journal Nature Geoscience, the team describes their findings and offer possible explanations for the concentration differences. Secondary electron image of pits left by ion microprobe analyses of a heterogeneous apatite grain in Apollo sample 14321, 1047. Water has now been detected in apatite in many different lunar rock types. Credit: K.L. Robinson, HIGP. Optical micrograph of pyroclastic glass beads in Apollo sample 74220, 383, the famous “orange soil”. Water was first detected by Saal et al., 2008 in glass beads similar to these. Credit: G.J. Taylor, HIGP More information: Heterogeneous distribution of water in the Moon, Nature Geoscience (2014) DOI: 10.1038/ngeo2173AbstractInitial analyses of lunar samples returned by the Apollo missions indicated that the Moon was essentially devoid of water. However, improved analytical techniques have revealed that pyroclastic glass beads in Apollo samples contain measurable amounts of water. Taking into account volatile loss during eruption of the glass beads onto the surface, the pre-eruption magma could have contained water on the order of 100 ppm by weight, concentrations that are similar to the mantle sources of mid-ocean ridge basalts on Earth. Lava flows from vast basaltic plains—the lunar maria—also contain appreciable amounts of water, as shown by analyses of apatite in mare basalt samples. In contrast, apatite in most non-mare rocks contains much less water than the mare basalts and glass beads. The hydrogen isotopic composition of lunar samples is relatively similar to that of the Earth’s interior, but the deuterium to hydrogen ratios obtained from lunar samples seem to have a larger range than found in Earth’s mantle. Thus, measurements of water concentration and hydrogen isotopic composition suggest that water is heterogeneously distributed in the Moon and varies in isotopic composition. The variability in the Moon’s water may reflect heterogeneity in accretion processes, redistribution during differentiation or later additions by volatile-rich impactors. Explore further © 2014 Phys.org Digging deep in search of water on the moon Journal information: Nature Geoscience It was just six years ago that scientists learned that there was water on the moon, prior to that, conventional wisdom suggested the moon was not only barren, but completely dry. That discovery led to more research which revealed that not only is there water on the moon, but it’s actually widespread—sealed inside of rocks, but present nonetheless. In this new effort, the research team reports that in studying the findings of several other teams analyzing the rocks since water was first found in them, they’ve discovered that some of the rocks have more water sealed inside of them than others—the difference appears to be related to where on the moon the rocks were found. This suggests, the team reports, that some parts of the moon are wetter than others. The new research team also found that the chemical composition of the water was different depending on the rock source as well.The findings have led the researchers to consider how differing water concentrations relate to theories regarding the origin of the moon. Most scientists believe the moon came to exist approximately four and half billion years ago when a collision occurred between Earth and another planet. The general consensus is that some of the moon came from Earth, some from the other planet and the rest from other bodies such as comets and asteroids that subsequently struck the moon. Water on the moon could therefore have come from the Earth, the other planet or comets. Intriguingly, the researchers have found that the chemical makeup of water samples in some of the rocks (volcanic glass) is similar to magma samples that once resided in Earth’s mantle. Others, on the other hand, were found to be much drier. The researchers conclude that the formation of the moon appears to have been a far more complex series of events than theories have suggested. This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.