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Artificial stream allows realistic research <br />his summer, there are going to be <br />some big floods in Minneapolis. <br />The floods wori t inundate <br />Hennepin Avenue, they wori t seep into <br />the IDS Crystal Court or the Metrodome <br />and they wori t displace residents of any <br />of the city's neighborhoods <br />In fact, the floods wori t be real floods <br />at all. They will be a carefully planned <br />experiment in which torrents of water- <br />each the equivalent of a once-in-50-years <br />flood-will be sent rushing through the <br />floodplain of the small artificial stream <br />that is the heart of the University of <br />Minnesota's new Outdoor StreamLab. <br />The fake floods, nine-hour events <br />intended to allow researchers to observe <br />and precisely measure how engineered <br />structures and vegetation such as sedges <br />and rushes stabilize stream banks and <br />prevent the loss of soil to high water, are <br />an example of the controlled experiments <br />the Outdoor StreamLab makes possible. <br />"What we have is an opportunity to <br />change the stream, manipulate what's <br />entering the system, and see how it <br />affects the water; sediment, and organ- <br />isms within the stream," said Anne <br />Lightbody, a university research fellow <br />who is director of the lab. <br />The $500,000 artificial stream cutting <br />through an artificial flood plain has been <br />used by researchers since last summer. <br />It is across the Mississippi River from <br />Downtown Minneapolis, a little way <br />upstream from the Stone Arch Bridge. <br />Water from the Mississippi is diverted <br />into the stream through two 18-inch <br />pipes. <br />Despite its relatively small size-130 <br />feet by 60 feet, about one-sixth the size <br />of a football field-the StreamLab stream <br />lab is, by far, the largest such facility <br />in the United States. It is a dramatic <br />improvement on the indoor flumes and <br />basins that researchers long have used to <br />model stream behavior in the universi- <br />ty's nearby St. Anthony Falls Laboratory. <br />"Everything we do here is trying to <br />'~ <br />Anne Lightbody, research director of the University of Minnesota StreamLab, examines aquatic organisms <br />-midges, black flies, mayflies and caddisflies- on a rock from the artificial stream. <br />build small-scale models of natural <br />phenomena," said Fotis Sotiropoulos, <br />the director of the St. Anthony Falls <br />Lab. "The indoor lab is very useful and <br />serves its purpose, but it has limita- <br />tions." <br />The outdoor lab is operated as a part- <br />nership between the St. Anthony Falls <br />Lab and the National Center for Earth <br />Surface Dynamics, amulti-university <br />consortium sponsored by the National <br />Science Foundation and housed at the <br />St. Anthony Falls Lab. <br />The stream in the Outdoor SteamLab <br />is about 9 feet wide and about a foot <br />deep in its quiet pools, a few inches <br />deep where it flows over rocks and <br />gravel. It allows experiments that mimic <br />creeks and streams. Eventually, Soti- <br />ropoulos hopes, the partners will build <br />a bigger, much longer, artificial stream <br />adjacent to the current one that would <br />allow researchers to conduct experi- <br />ments more applicable to large rivers. <br />For now, though, the researchers <br />using the Outdoor StreamLab are revel- <br />ing in their ability to manipulate the <br />flow and environment of the artificial <br />stream. for experiments. <br />Lightbody is leading research on the <br />impact of sediment pollution on aquatic <br />insects. <br />Last summer, researchers introduced <br />about a ton each of sand, clay and top <br />soil into the stream-an attempt to <br />replicate the kind of sedimentation that <br />would accompany an intense storm. <br />Then they captured and counted the <br />insect species floating in the water <br />and clinging to rocks in the shallows, <br />upstream and downstream of the sedi- <br />mentation. <br />Another research project is attempt- <br />ing to measure the extent to which <br />nitrogen, a common pollutant, is <br />removed from stream water when <br />water flows out of the stream, into the <br />sub-surface water table and then back <br />again into the stream. <br />Still another research project <br />looked at the way sediment moved <br />within the stream. The stream was <br />constructed with. a flat bottom, but <br />over a short time that changed. To <br />the delight of the researchers, the <br />artificial flow created sand bars on <br />the inside of bends and deep pools on <br />the outside, the same behavior as a <br />natural stream. <br />"The river is continually moving <br />sediment, and the question of how <br />much it is moving and where it is put- <br />ting it is important in streams of all <br />sizes," Lightbody said. <br />' FACETS March 2009 <br />