The upgraded 2020 FLAMe has arrived – After an initial round of upgrades, Barb Birrittella and the PSL gang took advantage of the cold winter months to make critical upgrades to the FLAMe to improve its efficiency and stability. This work was supported by our UW2020 award, and we’re excited to put this next generation platform to work this summer.
Awesome new FLAMe nameplate on lid!
New FLAMe-related project – The FLAMe has merged with the long-standing Cascade Project to study the potential use of spatial data to provide reliable indicators of rapid ecological changes in lakes. This study is led by Mike Pace (University of Virginia), Emily Stanley, and Steve Carpenter, and supported by the National Science Foundation. We are using the FLAMe to understand spatial heterogeneity across a gradient of lake productivity in Wisconsin, and to quantify changes in algal patterns during a whole-lake enrichment experiment. Stay tuned for details!
Congratulations Luke Loken! His presentation “Integrating time-series and spatial surveys to assess annual, lake-wide emissions of carbon dioxide and methane from a eutrophic lake“ at the fall meeting of the American Geophysical Union was selected for an Outstanding Student Paper Award. Co-authors on this project are John Crawford, Paul Schramm, Philip Stadler, and Emily Stanley.
FLAMe on the radio – Luke Loken and Emily Stanley talked about the FLAMe and other aspects of water quality in Wisconsin on the Larry Meiller Show. Read more and listen to the broadcast.
On the first day of August, at Hidden Falls Regional Park in St. Paul, Minnesota, Center for Limnology (CFL) graduate student, Luke Loken, boarded an 18-foot-long Boston Whaler and headed upstream. At the Washington Avenue Bridge, the starting line of his research adventure, he pointed the boat downriver, where his final destination lay – only two weeks, 26 lock and dams, and 900 river miles away.
The trip, financed by the United States Geological Survey’s (USGS) “Land Carbon Project,” would be the biggest test yet for a research tool designed by Loken and USGS post doctoral researcher, John Crawford (PhD, 2014). Called the FLAMe, short for “Fast Limnological Automated Measurements,” the contraption consists of a water pump, a series of pipes and tubes and $100,000-worth of sensors. As their boat moved across the surface of the Mississippi, a continuous stream of water would be sucked into the FLAMe and passed over sensors recording everything from turbidity to temperature to nitrate levels, before being discharged back into the river.
“At the heart of the FLAMe are these automated sensors that are commercially available and widely used by limnologists everywhere,” says CFL faculty member, and Loken’s advisor, Emily Stanley. “But what [researchers] usually do is park them on a buoy or put them in a particular place in a stream and they get really good data at that site over time. With the FLAMe, instead of parking these devices in one place, we bring the water to the devices and take the devices everywhere.”
Instead of datasets over long time series, says Stanley, the FLAMe produces maps over large areas. “We don’t have that spatial understanding of our ecosystem in the same way that a terrestrial ecologist does,” she says. “The FLAMe gives us a whole new way of seeing lakes and rivers that we just haven’t had before.”
Part of that new look is now a map of Loken’s journey, showing how the river chemistry and conditions changed as the crew passed through different pools of the river or encountered tributaries flowing into the main channel. Loken was joined for the trek by Crawford, Washington State University postdoc, Steve Powers (Phd, 2012), and a handful of other scientists from the USGS and University of Minnesota.
“We had two main objectives,” says Loken. “One was [to] shoot all the way down the middle of the main navigation channel, lock through the dam and then just keep going. The second was to spend more time in a subset of pools, and head into the backwaters and explore some of the lateral variability of the river.”
The end result of the trip was mountains of data points, one gigantic gas bill and affirmation of the vast possibilities of the FLAMe.
The FLAMe project began early in the summer of 2014 when Loken and Crawford, who was then a graduate student, started thinking about ways to better bring spatial variability into their data collection.
The first version of the FLAMe consisted of about fifty-dollars-worth of PVC pipes and miscellaneous hardware and measured carbon dioxide and methane, the two sensors Crawford already had. But, after a few runs across Lake Mendota, Loken and Crawford put together a map that showed the high variability of gas emissions at any given time. When they showed those maps to CFL faculty, Loken says, “we instantly saw a light bulb going off.” Then, he says, “we started finding the other instruments to go along with it, because if you’re going to measure one thing, you might as well measure all the other things you can.”
That initial success led to requests for FLAMe-collected data on other projects, like CFL director Steve Carpenter’s work on ecosystem regime shifts in northern lakes. And that momentum led to an intense 2015 field season where the FLAMe sampled 84 different lakes and more than a 1,000 miles of rivers.
That’s a lot of ground covered, but the FLAMe is far from a finished project, says Stanely. “We want to take FLAMe to a new level,” she says, “where we can drive the boat and almost see the map [of conditions] as we drive.” But first, “We need to overcome some of the technical hurdles [Loken and other colleagues] exposed this summer by driving all over northern Wisconsin.”
That’s why Stanley and Loken recently collaborated with the UW-Madison’s Physical Sciences Lab, where some of the same engineers who worked on the UW’s vaunted Ice Cube project in Antarctica, took a look at the FLAMe, upgrading it with stainless steel and anodized aluminum components.
With this new, improved version, Loken hopes to do weekly runs on Lake Mendota next year in the hopes of catching dynamics like changing oxygen levels, water chemistry and algal blooms and, essentially, making a movie of the always shifting surface of the lake from spring to fall.
Even with the all-new FLAMe, though, there’s a catch. “It depends on how much gas they let us burn,” he laughs. “We kind of maxed out [our] gas card last summer.”
To read more about the FLAMe, check out this article from UW-Madison Communications.