By Sarah Derouin for Mongabay.
Broadcast version by Mark Moran for Iowa News Service reporting for the Solutions Journalism Network-Public News Service Collaboration

American agroforestry initiatives got a big boost of funding in 2022 from the U.S. Department of Agriculture (USDA), which allocated $60 million to help farmers transition toward this style of climate-friendlier farming, as part of the Partnership for Climate-Smart Commodities program.

The Nature Conservancy (TNC) is leading the multi-partner effort, allocating money to farmers across 30 states. Dubbed the Expanding Agroforestry Project, it will provide technical assistance and funding to farmers for planting new agroforestry acres on their land. The goal is to plant 12,140 new hectares (30,000 acres) of agroforestry across the U.S.

Recently, Mongabay checked in to see how agroforestry efforts were progressing and whether funds were making their way to farmers. After the first application cycle, farmers in 21 states submitted more than 200 applications to the program, representing about 20% of the agroforestry acreage goals.

Like agroforestry itself, the application, training and distribution of funds take some time to get off the ground — the first incentive payments are anticipated to be disbursed in the summer and fall of 2024.

Expanding Agroforestry Project

The Expanding Agroforestry Project is part of the USDA’s larger Partnerships for Climate-Smart Commodities program — a $3.1 billion effort to fund projects to fight climate change while supporting landowners. Agroforestry practices are effective at capturing carbon while providing additional commodities and land benefits to farmers.

Above and below ground, agroforestry systems typically capture 2–5 metric tons of CO2 per acre per year. Nate Lawrence, ecosystem scientist for the Savanna Institute, expanded on the science of measuring such figures during a recent podcast.

As the lead administrator of the grant, TNC is “processing $36 million … in incentive payments directly to enrolled producers,” Audrey Epp Schmidt, the agroforestry program manager at The Nature Conservancy, explained in an email.

The remaining $24 million will support the expansion of project partner organizations, including adding staff capacity for the agroforestry work. These funds will also bolster measurement, monitoring, reporting and verification activities and develop market opportunities for agroforestry commodities, she said.

With the influx of federal funding, TNC created a five-year program to provide growers with technical help and funding to support agroforestry efforts. To get the word out, the project partners launched a communication effort that included emails, social media posts and virtual presentations, along with in-person events on farms.

“Producers typically want to hear directly from other producers, so we encourage farmer-to-farmer networks to help drive adoption whenever possible,” Epp Schmidt said.

TNC’s goal is to attract at least 200 farmers to the program, with at least 50 of those being underserved producers, said Epp Schmidt. The USDA defines underserved producers as farmers who are new, have limited financial resources, are socially disadvantaged (either by race or gender) or are military veterans.

Epp Schmidt said the program includes the adoption of alley cropping, silvopasture and windbreak projects.

Alley cropping means planting rows of trees or shrubs within crops, while windbreaks are planted on the edges of fields (stopping or slowing wind erosion while adding biodiversity). Silvopasture is an agroforestry practice that integrates trees, pasture, forage plants and livestock into a single system. She noted the program is focused on adding new fruit, nut, timber and biodiversity-supporting trees that are ecologically suitable for the project site.

Agroforestry enhances biodiversity on farms by breaking up large expanses of the same crop, called monocropping. By planting trees, shrubs and understory plants, farmers can attract beneficial insects, fungi and wildlife to their land, bolstering pollinators and potentially reducing the need for insecticides.

After being accepted to the program, farmers are matched with a technical assistance staff member — each region has its own partner organization — to support developing an agroforestry plan for the farmers’ land.

The program subsidizes the cost of tree planting, providing $36 million in incentive payments directly to producers. Wendy Johnson, a farmer at Jóia Food & Fiber Farm and active agroforestry practitioner in Iowa, said she heard about the program in its early stages and thought it was an important step forward for agroforestry support.

Johnson, who has planted more than 6,000 trees on her farm, is not able to apply for funding from the project — her trees are already in the ground. But she said learning about the program was “really exciting because it’s finally providing a dollar amount that would help with maintenance costs, too.”

She knows that young trees need a lot of care in the early years before they are fully established. “Maintenance is huge, and I can’t stress that enough,” she said. “You can’t just plant a tree and let it go — it also needs shelter and it needs care for the first three years … otherwise that investment is lost.”

Johnson noted that on her own farm, the planted saplings coincided with record drought — and regular watering of the seedlings is a time- and labor-intensive endeavor. Such issues are only likely to amplify due to the worsening impacts of climate change.

Committing to years of maintenance and switching part of a farm to more diversified land use may take a leap of faith. It can also mean farmers have to accept a risk to their profitability, often lasting for years.

“These are complex, perennial systems, and that involves a temporal mindset,” said John Munsell, forest management extension specialist at Virginia Tech. He added that an adaptive management plan will help farmers adjust in the eight-plus years between planting and maturity of trees and shrubs.

Munsell said that a program like Expanding Agroforestry can get farmers to take a chance on planting. “This will tip the scale for many,” he said. And while farmers wait for their plantings to mature, Munsell said the agroforestry community can strengthen the market for forest products. “While your hazelnuts are maturing … you have eight years to move into a market space and set things up.”

Launching the program

The initial application cycle of the Expanding Agroforestry Project received 213 applications from producers in 21 states for the incentive payment program, noted Epp Schmidt. Of these, 93% self-reported as underserved farmers. She said these farmers potentially represent more than “6,300 acres of new agroforestry plantings.”

Farmers who are interested in the program can learn more on TNC’s website. There are two application cycles each year, and the next deadline will be in late summer.



Sarah Derouin wrote this article for Mongabay.


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Conservation groups in Maine are calling on the state's congressional delegation to protect federal funding for clean energy technologies.

A new report found the state has benefited from more than $2 billion in clean energy investments stemming from the Inflation Reduction Act and Bipartisan Infrastructure Law.

Jack Shapiro, climate and clean energy program director for the Natural Resources Council of Maine, said many of the programs have helped low-income and rural communities.

"From a cost saving perspective, from an energy independence perspective, from a climate perspective, this is the right path to be on," Shapiro asserted. "We hope that we continue to have federal support to do that."

Shapiro pointed out the state has received millions of additional dollars in climate resilience funding to better prepare for extreme weather events. The Trump administration is reported to be exploring ways to cancel already approved loans for clean energy and redirect those funds toward nuclear power and liquefied natural gas.

Maine has set an ambitious goal of reaching net-zero emissions by 2045 and the state has directed millions of dollars toward offshore wind energy projects, an electric vehicle charging network and electric heat pumps.

Shapiro noted all corners of the state are benefiting from energy investments, including efforts to improve electric grid reliability.

"Power outages are a frequent occurrence and that can be addressed by local energy production, like solar and local energy storage and microgrids," Shapiro outlined. "A number of these investments have gone to support those things as well."

Shapiro added federal funding has also created good-paying jobs. The state's clean energy sector grew three times faster than the state's overall economy between 2016 and 2022 and now employs more than 15,000 people. Gov. Janet Mills has set a goal of 30,000 clean energy workers by 2030.


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Addressing Colorado's rising cost of living and protecting clean air and water are priorities for Democratic Representative Emily Sirota of Denver in the current legislative session.

Sirota recently introduced House Bill 1090 to regulate so-called junk fees charged by landlords.

The bill would protect tenants from getting bills that can add hundreds of dollars to their monthly rent, for things such as valet trash service, internet service, surcharges on rent payments, pest control and more.

"All sorts of additional fees are being added to folks' bill," Sirota pointed out. "We think if landlords want to charge those fees, they should be reflected in the rent."

Some see junk fees as deceptive and unfair trade practices, because landlords advertise one price to lure renters, but the price is not what they will actually have to pay. Industry groups argued fees are necessary to recoup hard costs and added out all fees are listed in black in white before tenants sign their leases.

Sirota has also introduced House Bill 1011, a measure to add guardrails as private equity firms buy up child care operations, firms already disrupting housing and health care markets.

"And really has been to the detriment of consumers in those sectors because their traditional business model is to increase prices or fees and drive down wages," Sirota observed.

The Trump administration has once again abandoned a promise the U.S. made in Paris nearly 10 years ago to combat climate change, and has instead promised to ramp up fossil fuel production and remove environmental protections. Sirota believes state lawmakers still have a role to play.

"We are trying to make sure that Colorado is able to protect its air and water and meet our climate goals, as we see this being unwound federally," Sirota explained.


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By Gabriella Sotelo for Sentient.
Broadcast version by Judith Ruiz-Branch for Illinois News Connection reporting for the Sentient-Public News Service Collaboration

Nitrous oxide (N₂O) emissions from agriculture are not only coming from soil. They’re also flowing through the streams that run alongside farms, a recent study finds. Researchers at the University of Minnesota and University of Illinois discovered more than one-third of regional nitrous oxide emissions were measured from streams.

While often overshadowed by the more widely known greenhouse gases like carbon dioxide and methane, nitrous oxide is the third-largest contributor to greenhouse gas emissions. Nitrous oxide also has an EPA-rated “Global Warming Potential” 273 times that of carbon dioxide (over a 100-year timescale), and is a significant contributor to ozone depletion. This means that even small amounts of nitrous oxide emissions can have a disproportionately large impact on global warming. And the flip side is also true: taking some action, including better manure management and eating less meat, can have a big climate impact for the better.

The discovery highlights a previously overlooked pathway for nitrous oxide to enter the atmosphere: as agricultural soils undergo the process of nitrification and produce nitrous oxide, the gas is transported via runoff into nearby streams. During the nitrification process, bacteria in soils break down ammonia — in this case from fertilizers — into nitrates that can produce nitrous oxide gas. While this gas may be released immediately from the soil, it can also become trapped in the soil or dissolve in water, only to be carried into streams during rainfall or snowmelt.

 “What we basically found is there [are] other pathways, and this stream emission could be important,” Zhongjie Yu, hydrologist and researcher in the study, tells Sentient.

Traditionally, when researchers consider nitrous oxide emissions from agriculture, they focus on soil. Excess nitrogen from fertilizers accumulates in agricultural soil, where it can be transformed into nitrous oxide, and released directly into the atmosphere. However, this new study suggests that emissions from streams — carrying runoff from agricultural fields — can be just as important, if not more so, in certain regions. Factory farms can be a major driver of this issue, as these operations produce large amounts of waste, composed partly of nitrogen.

When researchers consider initial nitrous oxide emissions, it’s often in the context of fertilizer input to soil. This excess nitrogen accumulates in agricultural soil, and can then lead to the direct release of nitrous oxide into the atmosphere.

Though the study used only the University of Minnesota’s Tall Tower Trace Gas Observator to sample air emissions, Yu and his research team are confident about the data.

“We found that N₂O is emitted from streams, but we believe it’s originally from fertilizer nitrogen. It is just carried by water, and gets emitted from those aquatic systems. It’s not saying it’s a natural source, but it’s still related to fertilizer nitrogen. But it just provides another pathway that N₂O gets lost from some land to the atmosphere.”

Yu also emphasized that agriculture is the dominant source of human-caused nitrous oxide emissions. This study not only challenges the conventional understanding of agricultural emissions, but also underscores a broader issue: agricultural runoff is not just a water quality problem — it is also a major contributor to climate change.

Nitrous Oxide: the Lesser Known Climate Threat

Human activities are significant contributors to nitrous oxide emissions. While other natural sources, such as the ocean, also release nitrous oxide, agricultural practices — particularly fertilizer application — are by far the largest contributor of anthropogenic emissions.

This gas is primarily produced when nitrogen-based fertilizers and manure are applied to agricultural soils. Microbes in the soil convert this nitrogen into nitrous oxide through processes such as nitrification and denitrification. The situation is made worse by the practices of industrial farming, which rely heavily on the use of synthetic fertilizers and animal waste.

Around 12 million tons of nitrogen are applied to crops each year in the United States. An EPA report found that agricultural soil management — like fertilizer use and other practices that boost nitrogen levels in the soil — accounts for nearly 75 percent of the United States’ nitrous oxide emissions. Within the agricultural sector itself, it makes up almost half of all emissions.

These soil management practices are primarily intended to optimize crop production, but much of the land is used for growing farm animal feed and biofuel crops. In 2020, only a small fraction of corn grown in the U.S. — less than two percent — was used for direct human food. Around 31 percent was dedicated to biofuels such as ethanol, while the majority, around 35 percent, went toward feeding livestock. With global meat consumption steadily rising, the demand for animal feed is expected to increase, further driving the need for feed crops like corn — along with higher fertilizer use and a corresponding rise in nitrous oxide emissions.

And now, the source of these emissions isn’t just the soil. Stream emissions can contribute to a much larger portion of annual nitrous oxide emissions than researchers previously thought.

“The high contribution of stream emissions suggests that soil emissions may have been overestimated in current regional nitrous oxide budgets,” Yu writes.

Yu points out that the link between agricultural runoff and stream emissions has often been overlooked in past research. Traditional methods use soil chambers to measure nitrous oxide emissions, a method that places a closed chamber over the soil, in order to capture any gases emitted from it. This approach primarily measures how much nitrous oxide is released directly from the soil, but misses the nitrogen that leaches out of the soil and flows into water systems, where it can then be converted into nitrous oxide and emitted to streams.

The Bottom Line

The source of nitrous oxide emissions from agriculture is more complex than scientists once thought. While traditional efforts to reduce nitrous oxide emissions have focused mainly on fertilizer management and improving soil efficiency, this new discovery emphasizes the importance of looking at the entire agricultural system, including runoff into streams. If the number of factory farms continue to rise, there is likely to be a rise in nitrous oxide pollution, particularly in streams, due to greater fertilizer use and runoff.

Yu mentions that improving water and nutrient management not only benefits water quality, but can also be a crucial tool in reducing greenhouse gas emissions. Fertilizer and manure runoff, especially from factory farms, can carry large quantities of nitrogen into waterways, which may then be converted into nitrous oxide — further complicating efforts to mitigate emissions from agriculture.

“We need to be a little bit careful here, because that water gets leached from surface soil and can end up in streams and rivers, carrying a lot of that greenhouse gas to those systems and having an impact there,” Yu says.


Gabriella Sotelo wrote this article for Sentient.


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