Published in Tech Today
by John Gagnon, promotional writer
Scientists at Tech are known for their expertise in lake restoration and management, much of it applied to pristine Lake Superior. Now two researchers, an old hand and a budding scholar, are working on a small UP lake that is nearly choked to death.
Iron Mountain’s Crystal Lake, once a place for swimming and fishing on the southwest side of the city, doesn’t live up to its name anymore. A beautiful little lake has become a blight.
“People didn’t know where to begin to address the situation,” says graduate researcher Jarron Hewitt, a master’s student in environmental engineering. As part of a Senior Design project when he was an undergraduate, he and his fellow students helped out.
This 50-acre lake is fed by groundwater and has no natural inlets or outlets; but it receives storm-water discharges, which have proved to be its nemesis.
Storm water often has high levels of coliform bacteria from fecal pollution originating from animal waste (dogs and geese) and, potentially, humans. Following storm-water discharges, coliform levels in the lake exceed public-health standards for swimming.
Storm water also carries phosphorous-rich lawn fertilizer that stimulates algae growth. In the winter, when the lake freezes over, algae die off, sink to the bottom, decompose and turn into muck. “The history of the lake is in the muck,” Hewitt says, and there’s a lot of it–11 feet and counting. Historically, the lake was 20 feet deep; now it is 9 feet deep. The difference is muck. Core samples show that almost all of it is dead algae and other plant material, which, in the process of decomposing, use up oxygen. Telltale, then: lots of dead fish–mostly perch, bullheads, and minnows–in the spring. “The lake can’t provide a healthy environment for fish in its current state,” Hewitt says.
The charge for him and his fellow Senior Design students was: assess the condition of the lake and propose ways to restore it to beauty and “beneficial uses”–like recreation. The students started their inquiry in January and came up with three recommendations:
* Divert storm water, the source of the coliforms and fertilizer, from the lake.
* Aerate the lake to make sure there’s more oxygen for fish.
* Dredge the lake to get rid of the muck that recyles phosphorous and consumes oxygen.
Hewitt, who works under the guidance of Professor Marty Auer, is now refining the project on his own and coming up with an engineering plan to restore the lake. The work will be the basis for what Auer calls “a shovel-ready” restoration plan. “You can’t look for money unless you have a plan,” Auer says. So Hewitt is addressing more design detail and estimating the cost of the three fixes.
Hewitt is getting a taste not only of research and engineering, but also the shaping of public policy. He outlines the issue for public discourse this way: how good do you want your lake to be? “What we would like them to do is a complete restoration of the lake,” Hewitt says.
However, he confronts a reality of all enterprise: money to do the job. The biggest job, dredging, would cost several million dollars. It’s not an all-or-nothing situation. One possibility is to dredge part of the lake to improve the beach area. Also, diverting storm water would start the fix.
Auer’s time in this effort is pro bono; Hewitt needs to find money. “He’s bootstrapping this,” Auer says. “He’s supporting himself by delivering pizzas.”
Tech got involved with this issue when a Tech alumnus, who is a consulting engineering working with the City of Iron Mountain, asked Auer for help. “They’re a neighbor,” Auer says. “They’re part of our regional community. So it’s appropriate that we help them.”
He likes the job of mentoring students like Hewitt. “It’s huge for me. It’s what keeps me in it. Bringing experience to bear in partnership with students is really exciting and rewarding. It’s a great part of my job.”
He deflects attention, though, and says Hewitt “is the face of this project” who has “carried a lot of the responsibility,” including working with the city council and other civic leaders.
For his part, Hewitt is excited to help the people of Iron Mountain perhaps improve their community. Back in his hometown of Gwinn, before he ever came to Tech, he never imagined such a “hands-on, real-world opportunity.”
“I feel like I’m giving something back,” he says.
In late August, Hewitt and Auer visited Fergus Falls, Minnesota, to assess another lake severely polluted by storm water.
Auer is energized by these opportunities—what he calls “the excitement of being in a chase and pursuing mysteries.” He likens them to Sherlock Holmes, who, on learning of a new mystery, said, “Come quickly, Watson, the game is afoot.”
These days, then, Auer is inclined to say, “Come quickly, Hewitt….”