Aggie Scientists Probe Vital Signs of Ailing Western River Basin
Thursday, Mar. 26, 2015
USU aquatic ecology grad student Nate Mouzon collects data on Nevada's embattled Walker River. With faculty mentor Sarah Null, Mouzon is developing a computer model to prioritize environmental water purchases.
Sarah Null, assistant professor in USU's Department of Watershed Sciences and the USU Ecology Center, is among researchers involved in the Walker Basin Restoration Program. The multi-agency effort is funded by the National Fish and Wildlife Foundation.
Originating in the Sierra Nevada Mountains of eastern California, the 62-mile-long Walker River winds through the arid sagesteppe of west central Nevada, replenishing Topaz Lake, but nearly stopping short of Walker Lake, of which it once served as a principal inflow.
Remnants of prehistoric Lake Lahontan, Walker River and Walker Lake, both namesakes of 19th century explorer Joseph Reddeford Walker, have long been home to the Paiute tribe. Once teeming with Lahontan cutthroat trout and a magnet for migratory loons, the lake is now too salty to support its traditional fishery and waterfowl. The river, lifeline to the lake, is ailing from more than a century of diversion for agriculture, along with prolonged drought.
“We’re observing low stream flows, relatively high temperatures and low dissolved oxygen in the Walker River — this indicates a habitat that isn’t conducive to healthy aquatic life,” says Sarah Null, assistant professor in USU’s Department of Watershed Sciences and the USU Ecology Center.
Null and her students are studying the river as part of the $8.2 million Walker Basin Restoration Program funded by the National Fish and Wildlife Foundation. Initiated in 2009, program coordinators have developed a voluntary water rights acquisition program with willing sellers and an accompanying water leasing program to reduce upstream water use and increase fresh water inflows to Walker Lake.
“Our focus is on researching water quality effects of environmental water purchases in the river,” she says. “Our efforts will contribute to a comprehensive basin-wide strategy that balances the interests of landowners, water-user organizations, Native American tribes and governmental agencies, while trying the reverse the river basin’s decline.”
Null is currently mentoring aquatic ecology master’s student Nate Mouzon, who is developing a novel computer model to analyze collected data on temperature and dissolved oxygen and provide tools and information to prioritize environmental water purchases.
“We have 18 water temperature sensors and 10 dissolved oxygen sensors along miles of river collecting hourly data,” Mouzon says. “The sensors are situated above and below confluences and include agricultural sites.”
Collecting data with such frequency results in huge datasets.
“We have three-to-four years of temperature data and more than a year of dissolved oxygen data,” Null says. “Collecting dissolved oxygen data is a bit more challenging, because so many factors can skew the information. That’s why we collect so much, to correct for errors”
She adds Mouzon is “doing a great job” of managing the data with his computer modeling.
“We have good, solid data that will help with management of key aquatic habitat,” Null says. “The river basin supports a variety of aquatic, riparian and terrestrial animal and plant species and also supports the region’s economy.”
Mouzon says field days in the arid region are long, but he welcomes opportunities to leave his computer and wander the river.
“As a native of Florida, the area seemed fairly harsh at first,” he says. “But it’s also beautiful and, being out in the field, you observe a lot of things that you don’t think about while sitting in front of a computer screen. The landscape is always full of surprises.”
This research is highlighted as part of USU’s Natural Resources Week, “Protect Water, Protect Life.”
- USU Department of Watershed Sciences
- USU Ecology Center
- USU Quinney College of Natural Resources
- USU Year of Water
Contact: Sarah Null, 435-797-1338, email@example.com
Writer: Mary-Ann Muffoletto, 435-797-3517, firstname.lastname@example.org