Beneath Solar Panels, the Seeds of Opportunity Sprout
Low-Impact Development of Solar Installations Could Be Win-Win-Win for Food, Water, and Renewable Energy
On a humid, overcast day in central Minnesota, a dozen researchers crouch in the grass between rows of photovoltaic (PV) solar panels. Only their bright yellow hard hats are clearly visible above the tall, nearly overgrown prarie grasses--which are growing exactly as expected.
Bent over white, square frames, some of the researchers catalog the number and type of native plants growing on a square foot of land. Others press double-forked meters into the ground, measuring the soil moisture below the solar panels and in open ground. Nearby, beekeepers check on the health of local hives.
Their research is part of an ongoing study to quantify the benefits of a new approach to solar installations: low-impact solar development.
By 2030, utility-scale solar installations could cover almost 2 million acres of land in the United States. Traditional solar development would monopolize this land for just one use: energy production.
Low-impact solar development, on the other hand, might also improve soil health, retain water, nurture native species, produce food, and provide even lower-cost energy to local communities.
To better understand the benefits of--and barriers to--low-impact solar development, the Innovative Site Preparation and Impact Reductions on the Environment (InSPIRE) project brings together researchers from the U.S. Department of Energy's (DOE's) National Renewable Energy Laboratory (NREL), Argonne National Laboratory, universities, local governments, environmental and clean energy groups, and industry partners. The project is funded by DOE's Solar Energy Technologies Office.
Traditionally, large solar installations are deployed on land that is first leveled, removing much of the topsoil and vegetation. After the mounting racks and solar panels are installed, the ground is covered in gravel or turf grass. With low-impact solar development, the ground may also be leveled in some places, but the topsoil is preserved. After the panels are installed, native and other beneficial vegetation--often friendly to bees and other pollinators--is planted.
A greener way to go green--NREL Analyst Jordan Macknick and Jake Janski of Minnesota Native Landscapes survey the Aurora Solar Project's low-impact installation (left). Compare that to a traditional solar installation at Ft. Carson Army Base in Colorado Springs, Colorado (right).
The deep roots of native vegetation retain more water than turf grass and gravel during heavy storms and periods of drought. They also help retain topsoil and improve soil health over time, even in "brownfield" areas with polluted soils.
Perhaps most importantly, native and flowering vegetation provides a habitat for native species, especially pollinators and other beneficial insects that can improve yields at nearby farms.
"One surprising thing is how rapidly and significantly pollinator-friendly solar has taken off in the states," said Jordan Macknick, NREL's lead energy-water-land analyst and principal investigator for the InSPIRE project. "Every state we work with wants more information on pollinator-friendly solar."
At several InSPIRE sites, local beekeepers and university and national laboratory researchers are tracking their bees' visits to the pollinator-friendly vegetation under the solar panels. The goal is to determine how vegetation at solar sites can benefit insect populations and to understand the extent to which pollinator-friendly solar installations can boost crop yields at surrounding farms.
The low-impact approach also benefits solar developers. For example, skipping the removal of topsoil reduces site preparation expenses. As prices continue to fall for solar panels and other hardware, nonhardware costs (including site preparation) will soon account for 20% of total utility-scale solar costs. Native vegetation, if selected appropriately, also requires less ongoing maintenance than traditional gravel or turf grass approaches, as there is less of a need for mowing or spraying.
Flourishing vegetation can even boost energy production from solar panels. Warmer temperatures can reduce the efficiency with which PV cells convert sunlight into electricity. The ground shading and increased evaporation provided by a healthy layer of undergrowth can actually cool solar panels, increasing their energy output.
Low-impact solar development, including native and pollinator-friendly vegetation practices, provides numerous, stacked benefits in the form of ecosystem services, operational efficiency, and positive stakeholder relations." --Marcus Krembs, director of sustainability, Enel Green Power North America (which is hosting three InSPIRE test sites in Minnesota)
So, why isn't low-impact solar development more widely adopted?
"In a risk-averse industry, this is perceived as a risky practice because there haven't been any studies and there isn't any data to say that this works or that there can be benefits to the solar project," said Macknick. "That's why we are doing the first systematic and robust research on low-impact solar development--to see what works and to quantify costs and benefits."
Low-Impact Solar Saves More Than Soil
At the Minnesota test site, Macknick and his colleagues have planted nine different seed mixes and are studying their impact on temperatures, soil moisture levels, energy production, and maintenance over several years. At sites in six other states, representing the country's diverse climates, similar research is underway.
To ensure research stays abreast of current industry practices, an InSPIRE stakeholder group called ASTRO (Agriculture and Solar Together: Research Opportunities) brings together researchers, solar developers, and government agencies to share the latest data and best practices. Ultimately, InSPIRE's research should yield actionable suggestions for the solar industry, answering questions such as "What seed mixes do we plant to minimize maintenance costs in certain climates?" or "How frequently do we mow?"
At InSPIRE's Massachusetts, Arizona, and Oregon sites, the team is testing a particular low-impact approach that adds food to the mix: agrivoltaics. Growing agricultural crops under the shade of solar panels uses water much more efficiently while shielding plants from the worst of the midday heat.
Agrivoltaics probably won't be feasible for large-scale, single-crop farms that rely on heavy machinery. But preliminary results already suggest it can significantly boost the yields of certain plants in hotter-than-average years. At the Arizona site, cherry tomato yields are doubled and require less water when grown in the shade of solar panels.
The solar energy generation also offers farmers a steady, additional source of income--a valuable assurance in a potentially volatile agriculture industry.
For states and municipalities with limited farmland, agrivoltaics offers another benefit. Gerry Palano, an energy program coordinator for the Massachusetts Department of Agriculture, has been working with cities and farmers to ensure new solar projects strike a balance between meeting the state's renewable energy goals and maintaining local agriculture.
It doesn't have to be an either-or choice. For all our agriculturally productive land, let's help PV developers and farmers plan out these solar projects so that farmers can get under the arrays and continue to work the land for the next 20 or 30 years." --Gerry Palano, energy program coordinator, Massachusetts Department of Agriculture
Agrivoltaics could help offset the impacts of extreme weather by reducing water use, increasing food yields, and limiting the negative effects of heat on solar panels.
Low-impact solar development does require additional up-front planning and expenditures, but--according to the data gathered by InSPIRE researchers so far--offers surprisingly robust benefits over time.
Perhaps most importantly, low-impact solar development can make solar projects more responsive to the priorities and concerns of local communities.
"We will only achieve widespread PV deployment rates if communities are comfortable dedicating some of their land to solar development. Demonstrating the effectiveness of low-impact, pollinator-friendly practices helps communities realize they can guide development in ways that capture multiple benefits beyond energy production." --Megan Day, urban and regional planner, NREL
Low-impact solar development isn't the only agricultural technology NREL is exploring. See how the Wells Fargo Innovation Incubator (IN2) program, managed by NREL, addresses agricultural technology in the food, energy, and water landscape.
--Story by Harrison Dreves. Photos by Dennis Schroeder. Video by Josh Bauer.