Extension Agent Introduces Global Positioning Technology to Native American Students
New Mexico State University
By Jane Moorman, New Mexico State Staff
November 7, 2006
GALLUP – How much radioactive contamination remains in the soil 27 years after a spill of tailings from a uranium mill’s disposal pond was the question Fort Wingate High School students sought to answer when they began a mapping project last month.
Through a program coordinated by New Mexico State University’s Cooperative Extension Service office in Gallup, students used Geiger counters, Global Positioning System (GPS) receivers and Geographic Information Systems (GIS) computer software to map the area of McKinley County that was contaminated when a uranium mill’s disposal pond dam broke near Church Rock in July 1979.
The milling of uranium ore from nearby mines produced an acidic slurry of ground waste rock and fluid, called tailings, that was pumped to the tailings disposal ponds. When the dam breached, 93 million gallons of tailings and pond water was released into Pipeline Canyon arroyo and the Rio Puerco. The dam was repaired shortly after its failure, according to a September 2003 U.S. Environmental Protection Agency report. Cleanup of the spill was conducted according to criteria imposed by state and federal agencies, including the EPA, at the time.
Since the closure of the milling operation in 1982, remediation efforts have been under way, but many people are still not aware of the danger the mill and tailings spill have left behind.
“We found several spots in the dam area that still have radioactive poison levels that are hazardous to people’s health,” said Renee Cleveland, a student who is compiling the mapping data for a science fair project that she also plans to present to the Church Rock community leaders.
“There are three or four houses around the mine area. People live there despite the uranium spill impact. People know about the spill, but I don’t think they know how bad it was. I want them to know the level of danger that is in the area. The soil is contaminated, and when dust blows from that area, people can breathe the radioactive particles into their lungs, which can lead to cancer.”
Cleveland, a senior at the Bureau of Indian Affairs boarding school, says the GPS/GIS mapping project has increased her interest in a career in health science.
After a two-week training in the GPS and GIS programs by NMSU Extension 4-H agent Richard Ng and training with the Geiger counters by Mansel Nelson of Northern Arizona University in Flagstaff, who provided the Geiger counters, the students were ready to proceed with their mapping project.
Students in Tish Sherrin’s science careers class took Geiger counter readings at 369 spots from the former dam area and an area approximately five miles downstream. As each sample was taken, they marked the location with the GPS receiver. Later, they plotted the locations on an aerial photograph with the GIS computer program.
“The mapping program has brought science alive for our students,” Sherrin said. “Our students are going to remember they used this equipment. And some may find a career in this area of technology because of this Extension Service project.”
McKinley County’s innovative program began in April 2005 after the county’s 4-H program received a grant from the Cooperative State Research, Education and Extension Service’s Economic and Community Systems.
“This program was developed in collaboration with the Environment Service Research Institution, which introduced the project concept to us,” said Ng.
With the grant, Ng purchased 20 GPS receivers and computer software licenses for 25 computers.
“Our goal was to get the Native American youth interested in science, mathematics and technology,” Ng said. “There is associate degree training available in the GPS technology and many career applications.”
With that goal in mind, Ng and teachers at Fort Wingate, Ramah and Gallup high schools have introduced the state-of-the-art technology to 150 students.
The students at Fort Wingate participated in other projects besides the uranium spill mapping. The projects included plotting the locations of graves in the Fort Wingate Mexican War Cemetery, determining arroyo riparian conditions, mapping and addressing of homes in Fort Wingate and developing hiking trails in the McGaffey area.
Darnell Willie, a student participating in mapping the Fort Wingate houses, said he was surprised at all the ways GPS mapping can be used, especially by the fire and rescue services. As a high school senior, Willie said he would like to get more education in this area of technology.
Thomascina Becenciti, one of the students to create a hiking trail, said she learned that with a GPS receiver, “you can’t get lost in the woods. The GPS tells you which way to go to reach your destination or starting point.”
Sherrin plans to use the Extension Service program during the spring of 2007 to map soil conditions in areas where chemicals have been used to remove the non-native salt cedar. “We want to determine the extent of soil pollution and the effect on other vegetation in the area,” she said. “We will take soil samples from various locations while recording the locations with the GPS.”
Students at Ramah High School mapped cross country trails as well as charted grave sites at the community’s cemetery.
“The students gave a presentation to the high school geography classes and presented the final product to the Ramah Town Hall,” Ng said.
At Gallup High School, students mapped a hiking and mountain biking trail for the city of Gallup.
“When the students were told that they were doing projects for the greater good of the community, they took to the task at hand seriously and yet had fun because they were outside of the classroom conducting hands-on projects and applying what they had learned in the classroom,” Ng said. “I think we introduced the students to many potential careers through these projects.”