If someone is willing to pay thousands of dollars to keep someone quiet, would they be willing to pay to have allegations, true or false, made against some one who is a thorn in their side?Joseph GibsonBallston LakeMore from The Daily Gazette:EDITORIAL: Thruway tax unfair to working motoristsPolice: Schenectady woman tried to take car in Clifton Park hours after arrest, release in prior the…EDITORIAL: Find a way to get family members into nursing homesFoss: Should main downtown branch of the Schenectady County Public Library reopen?EDITORIAL: Beware of voter intimidation Categories: Letters to the Editor, Opinion
Morono added: “At first I was skeptical, but we found that up to 99.1% of the microbes in sediment deposited 101.5 million years ago were still alive and were ready to eat.” The researchers from the Japan Agency for Marine-Earth Science and Technology (JAMSTEC), the URI Graduate School of Oceanography, the National Institute of Advanced Industrial Science and Technology, the Kochi University and Marine Works Japan participated in the study. With fine-tuned laboratory procedures, the scientists, led by Morono, incubated the samples to coax their microbes to grow. The results demonstrated that rather than being fossilized remains of life, the microbes in the sediment had survived, and were capable of growing and dividing. On the seafloor, there are layers of sediment consisting of marine snow, dust, and particles carried by the wind and ocean currents. Small life forms such as microbes become trapped in this sediment. This study was supported by the Japan Society for the Promotion of Science (JSPS), the Funding Program for Next Generation World-Leading Researchers, and the U.S. National Science Foundation. The research team gathered the ancient sediment samples ten years ago during an expedition to the South Pacific Gyre, the part of the ocean with the lowest productivity and fewest nutrients available to fuel the marine food web. “What’s most exciting about this study is that it shows that there are no limits to life in the old sediment of the world’s ocean,” said D’Hondt. “In the oldest sediment we’ve drilled, with the least amount of food, there are still living organisms, and they can wake up, grow and multiply.” Such conditions make it possible for aerobic microorganisms—those that require oxygen to live—to survive for geological time scales of millions of years. “We knew that there was life in deep sediment near the continents where there’s a lot of buried organic matter,” said URI Graduate School of Oceanography professor and co-author of the study Steven D’Hondt. “But what we found was that life extends in the deep ocean from the seafloor all the way to the underlying rocky basement.” Researchers have conducted a study revealing that given the right food in the right laboratory conditions, microbes collected from sediment as old as 100 million years can revive and multiply. With the newly developed ability to grow, manipulate and characterize ancient microorganisms, the research team plans to apply a similar approach to other questions about the geological past. “Our main question was whether life could exist in such a nutrient-limited environment or if this was a lifeless zone,” said the paper’s lead author Yuki Morono, senior scientist at JAMSTEC. “And we wanted to know how long the microbes could sustain their life in a near-absence of food.” Aboard the research drillship, JOIDES Resolution, the team drilled numerous sediment cores 100 meters below the seafloor and nearly 6,000 meters below the ocean’s surface. The scientists found that oxygen was present in all of the cores, suggesting that if sediment accumulates slowly on the seafloor at a rate of no more than a meter or two every million years, oxygen will penetrate all the way from the seafloor to the basement.