These high-flying Indiana high schools bring cutting-edge precision technologies to the classroom
Farming isn’t what it used to be, and neither is agricultural education. Pop your head into an Integrated Technology in Agriculture Systems course, for example, and you’ll hear teachers and students engaged in conversations about field and fertility maps, photosynthesis rates from their drone scouting or ways to program a precision planter for optimal planting rates. Students get hands-on experience with the latest in precision farming technologies – lessons that help guide their future and allow them to contribute on their farms.
Innovative agricultural curriculum like this is a reality for North Newton and South Newton high schools in Indiana. Fueled by a public-private grant of more than $454,000, eager agriculture students have cutting-edge precision agriculture technology at their fingertips.
This is exciting stuff! Especially for students who prefer to get their noses out of a textbook and get their hands on their coursework. And it’s all smiles when the day’s lesson involves going outside to pilot a drone. Can you imagine? A class that lets you go outside and fly a drone!
More than just drones
Of course, drones garner a lot of attention wherever they go. So any class that offers the opportunity to fly drones is certain to turn a lot of heads. The students enjoy learning with them, too. But Justin DeYoung and Jacob Kessler, seniors at North Newton High School and members of the North Newton FFA, say the program is much more. “I get a lot of questions about flying the drone,” DeYoung says. “You quickly learn that it’s only a tool that’s part of a bigger precision agriculture program.”
In addition to several drones added to the program, the schools have purchased two utility vehicles, as well as many components for site-specific farming. “We are using the bigger drone to map out fertility rates in the field,” Kessler says. “We can fly the other drone over the field throughout the growing season to monitor growth and to look for wet spots in the field, or even to look at photosynthesis rates.”
Yet, that’s only a small part of the program. There’s also the data generated throughout the growing season. Not unlike what some of their parents or grandparents are doing on their own fields, students are making decisions to help them farm better.
“I get a lot of questions from my grandpa about what we’re learning in class,” DeYoung says. “I can contribute right away because of what I’m learning.”
The program is also steering students into future careers in precision agriculture. Students from South Newton are involved in internships with a dealership and cooperative, and they’re putting what they learn to work.
“I go from the classroom to my internship at Peterson Ag Service where I’m using the exact same skills,” says Madelyn Cobb, a senior and South Newton FFA member.
John McGraw, also a senior and South Newton FFA member, says the hands-on learning experience is invaluable. “We’re not just reading about these new technologies. We get to use them every day, and that is giving me experience I can’t really get anywhere else,” he says.
Participating students also use the program as a springboard for their future education. “Precision agriculture is definitely a part of my future educational plans,” says senior Evan Stiltz from South Newton.
For FFA Alumni member Noah Poynter, drone technology is a fact of everyday farm life. A freshman at Purdue University, Poynter uses drone technology on the family farm in Putnam County, Ind. “Information we collect from drones is very valuable to a farming operation,” he says.
The rapidly expanding technology, Poynter says, will only continue to grow as a necessary tool. “Multiple types of maps can be made from one drone flight, two of the most popular being NDVI (normalized difference vegetation index) and topography maps,” he says. “Drones are showing their value in nearly every aspect of today’s agriculture. This unique experience provided to these students will be very beneficial as the technology becomes even more powerful.”
Funding the future
The grant that Newton schools received is part of a program implemented by the Indiana Works Councils, which allocated $4.3 million to schools throughout the state for its innovative career and technical education (CTE) curriculums. Grants are designed to encourage innovative and collaborative career and technical training opportunities to the state’s high school students.
Once Newton school administrators learned about the program, the brainstorming began. “We started to think about how we could leverage our agricultural education program and design something that would allow us to benefit from the grant,” says Darrell Allen, ag instructor at South Newton High School in Kentland. “The idea of making drones a part of our program came up, and we went to work.” Together, the two schools developed a comprehensive program that incorporated the latest in precision agriculture technology.
Once they developed the program’s framework, the real work began: securing the grant. The grant matched local funds up to three to one, but first the schools needed to secure initial local investments. So they approached their county administrators. “That’s not an easy task, given the tight budgets,” Allen says. “We expected a few thousand dollars to help us move forward with the grant process. But when the county administrators heard our proposal, they provided us with $115,000 to move ahead. We were floored.”
Their dedication paid off. The schools were awarded the full grant match in 2015, turning that initial seed money into a full $445,000 that is being shared equally between the two schools. In addition to the precision agricultural program, future curricula will include agritourism and aquaponics.
“The grant has allowed our program to grow in an entirely new direction,” explains Ron DeYoung, ag instructor at North Newton High School in Morocco. “It’s exciting to be able to offer our students the latest in agricultural technology that will provide them educational experiences and will benefit them far into the future.”
The first year of the program got off to a fast start when three students from South Newton participated in the agBOT Challenge, a yearly competition aimed at students to help develop the software and machinery that is in agriculture’s future. The students used information gathered from the new curriculum to fabricate an unmanned crop seeder. That same seeder now sits at South Newton and is instrumental as students further incorporate its functions into their studies.
Expanding the program
When the staff and administrators first met to develop the program, they focused on how it could be devised so other schools could replicate it, even with a smaller budget. “Our original idea had us purchasing a larger tractor to use in the program,” Allen says. “But then we thought that, to reach a broader audience, we needed to ensure the program could be repeated.” So, the schools purchased smaller equipment that would likely fit into more budgets.
“We’ve received calls from around the country asking about the program,” Allen says. “We hope the success we’ve seen will continue in other schools.”
Follow the FAA Rules
It’s important to point out that drones aren’t toys that you fly around in your living room. They are complex vehicles that come with their own set of rules and regulations from the Federal Aviation Administration (FAA).
A great resource is knowbeforeyoufly.org, a website that provides detailed information on drone use. Full FAA rules and regulations are available at faa.gov. Here are four items that are particularly important to know.
You don’t have to be a pilot to fly a drone recreationally, but you do need a remote pilot airman certificate for commercial use. (Part 107 of the FAA Small Unmanned Aircraft Regulations outlines additional rules for commercial drone use.)
You may not fly a drone higher than 400 feet, and it must remain below any surrounding obstacles when possible.
You must keep the drone away from manned aircraft.
You must keep the drone in your line of sight.