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  3. On 28 March, scientists got a whiff of something strange in the air off a pier in San Diego, California. The atmosphere had sudd

On 28 March, scientists got a whiff of something strange in the air off a pier in San Diego, California. The atmosphere had sudd

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问题     On 28 March, scientists got a whiff of something strange in the air off a pier in San Diego, California. The atmosphere had suddenly become flush with radioactive sulfur(a light-yellow non-metallic solid)atoms. That sulfur, it turns out, had traveled across the Pacific from a nuclear power plant in Fukushima, Japan, that was shaken by the 11 March earthquake and the tsunami and aftershocks that followed. Now the same team has studied those radioactive winds to come up with the first estimate of damage to the plant’s cores at the height of the disaster.
    To cool fuel rods and spent fuel while stanching a total meltdown, responders pumped several hundred tons of seawater into three reactors at the Fukushima Dai-ichi nuclear power plant. The white-hot rods fizzled off steam, which had to go somewhere. So workers vented it into the air.
    Meanwhile, across the Pacific, atmospheric scientist Antra Priyadarshi of the University of California, San Diego(UCSD), remembered a study she had read a while back: Following underwater nuclear bomb tests in the 1950s and 60s, physicists noticed that a heavy form of sulfur—sulfur-35—had mushroomed. Nuclear reactions spit out lots of fast and therefore "hot" particles called neutrons, which can then bang into abundant chloride ions in saltwater, converting them to sulfur-35. Priyadarshi and her colleagues were already tracking tiny traces of radioactive sulfur to study how layers of air mix in the atmosphere, so all they had to do was wait.
    They didn’t have to wait long. The sulfur was already swirling over Fukushima, where it had combined with oxygen to form sulfur dioxide gases and fine particles of sulfates called aerosols. Soon, strong winds pushed them west. Sulfur-35 does occur naturally—cosmic rays zap argon atoms in the upper atmosphere, or stratosphere, to make radioactive sulfur. But little of it makes its way down to the lowest slice of atmosphere, called the marine boundary layer. On a normal day, Priyadarshi sees between 180 and 475 sulfur-35 atoms as sulfates per cubic meter of air, but on the 28th, her team recorded about 1500. "No one has ever seen such a high percentage of the stratospheric air coming into the marine-bound layer," she says.
    The UCSD team ran a computer simulation to trace the path of the gases and aerosols from Fukushima to the West Coast. Most sulfur -35 atoms likely dispersed or rained down into the sea before hitting San Diego, but Priyadarshi estimates that about 0.7% completed the trip, too few to become harmful. Based on the simulation, about 365 times the normal levels of radioactive sulfates had gathered over Fukushima during the disaster.
    Now that Fukushima’s reactors have cooled back down, the biggest challenge facing scientists will be to contain radioactive elements that escaped during the disaster. Mark Thiemens, the study co-author, an atmospheric scientist who is also at UCSD, will be working with Japanese researchers to follow sulfur-35’s path through soil and streams near Fukushima to find where even more harmful elements may have hidden.
According to the passage, Mark Thiemens would devote himself to
选项 A、tracking down how deep sulfur-35 can get into the soil.
B、locating the position of severely harmful elements.
C、calculating how many harmful elements have been produced.
D、detecting the route of sulfur-35 in order to eradicate it.
答案B
解析 事实细节题。根据题干关键词Mark Thiemens定位到第六段最后一句,由该句可知,大气科学家Mark Thiemens将与日本的研究者们一道跟踪硫一35在福岛附近渗人土壤和溪流的路径,并找出更加有害的元素可能隐藏的地点。因此[B]“定位极具危害性的元素的位置”与原文意思相符,故为答案。
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