Biodiversity, agriculture, and human health are inextricably linked, and all are threatened by climate change. Internationally, many groups are taking measures to restore and conserve natural ecosystems, and improve agricultural sustainability.
Measuring the impacts of these real-world, real-time experiments can better allocate resources and design future programs.
As part of a Penn Global Engagement Fund project grant, Heather Huntington is monitoring the impact of a USAID-funded Resilient Ecosystem and Sustainable Transformation of Rural Economies (RESTORE) project, which is carrying out a series of reforestation and sustainable agriculture interventions in Ghana and Côte d’Ivoire from 2023-2027.
The RESTORE interventions are being implemented by Rainforest Alliance and OFI, a subsidiary of Olam International that supplies cocoa to companies including Mars and Nestlé.
As an independent third party, Huntington’s team, in collaboration with Development Alternatives Incorporated and Social Impact, is taking before- and after- measurements to quantify these interventions’ impacts on biodiversity, the livelihoods of farming communities, and human health.
“I work closely with international development programs and donors to evaluate their programs in the field and provide policymakers with information that helps them design better programs,” says Huntington, a professor of practice in the School of Arts & Sciences and associate director of Penn Development Research Lab (PDRI)-DevLab.
“By identifying the mechanisms that link ecosystem, wildlife, and human health and rigorously testing practical interventions, this research will identify the most effective types of interventions for improving health in the context of climate change,” she added.
Turning to cocoa agroforestry
Cocoa is the main export for both Ghana and Côte d’Ivoire, who are together responsible for more than. 60% of the world’s cocoa. Across these countries, cocoa farming has contributed to extensive deforestation and monoculture plantations, both of which are devastating for wildlife and biodiversity.
Cocoa cultivation in West Africa is also commonly done in areas of full sun, but these variants of cocoa trees naturally grow under the canopy of other trees, and require shade to thrive.
As a result, unsustainable cocoa farming practices—such as growing cocoa in full sun without shade trees and lack of proper tree pruning techniques—have hamstrung farmers’ crop yields and livelihoods.
And now, the detrimental effects of full sun on plant survival and crop yield are only worsening with climate warming. Climate change is also shifting rain patterns across West Africa, which is problematic for cocoa farmers because it can lead to hot, humid conditions that promote the growth of tree fungus.
To help restore ecosystems and improve cocoa yields, some farms are turning to cocoa agroforestry, a more sustainable method of cultivation that involves growing cocoa trees underneath a canopy of other trees.
Compared to cocoa monocultures, agroforestry helps maintain biodiversity, improves soil health, and also allows farmers to diversify their streams of income by growing other fruit trees or crops alongside their cocoa.
“With this model you essentially have a little forest on a farmer’s plot with cocoa trees underneath it, and that actually maximizes the farmers’ yields,” Huntington says.
One of RESTORE’s main interventions is to help cocoa farmers in Ghana and Côte d’Ivoire transition to cocoa agroforestry. Other aims include helping to strengthen property rights for these farming communities by tracking and registering trees and delineating village boundaries, and helping people in these communities—particularly women—build alternative and supplemental streams of income such as beekeeping and snail farming.
Off-farm, RESTORE will work to restore native woodlands by replanting forests in the highly degraded areas between and near cocoa farming villages.
Because biodiversity and human health are linked, Huntington’s team is also investigating how a switch to cocoa agroforestry might impact the prevalence of waterborne and zoonotic diseases. Here, Huntington is working with William Pan at Duke University, an expert in zoonotic diseases and global health.
“By integrating these types of indicators, we can see how ecological health intersects with human health,” Huntington says. “For example, if we improve the ecosystem health, that presumably has a lot of flow down into better water quality, and water quality improvements then translate into better outcomes for the people that live in these areas.”
Collecting the data
Huntington envisions three primary periods of data collection: baseline data collection before the interventions take place; an “endline” data collection trip immediately after the interventions have been completed; and a long-term follow-up several years later.
Baseline data collection is planned for January-February 2024, during the cocoa farming off-season. “January is after the harvest, and it’s after the holidays, so it’s a good time to find people and take an hour of their time without it being too much of a of a burden for them,” Huntington says.
Each data collection period is a massive undertaking. Huntington estimates that baseline data collection alone will cost close to $1 million and will involve 3,000 to 4,000 interviews with individual cocoa farmers in each country.
In addition, they will hold community focus group discussions, collect water and forest samples, and establish camera traps to track wildlife. This data collection will be performed by local Ghanaian and Ivorian research firms, whose leaders and trainers will collaborate with the Penn and Duke teams.
As well as providing a “before” picture of the state of biodiversity, forest cover, and community livelihoods, these baseline measurements also help inform how the interventions are carried out.
“Once we’ve analyzed the baseline data, we do a pause and reflect with the implementing partners, and we try to present that in a way so that they can use that information to adapt and adjust any of their programming activities,” Huntington says.
Undergraduate researchers Paavani Arora, a second-year, and Caroline Bach, a third-year, both in the College of Arts and Sciences, will work with the project in collaboration with the Penn Program on Opinion Research and Election Studies (PORES).
“This project will require an interdisciplinary team with expertise in One Health, climate change, economic development, environment and natural resource governance, forest ecology, biodiversity, and zoonotic disease,” Huntington says.
“We hope our multidisciplinary project will create new connections among different schools and departments at Penn, creating fertile grounds for the development of bold new collaborative, impactful projects,” she concluded.
Huntington has already hired several undergraduates to help analyze the baseline data and is also in discussion with researchers from other Penn schools, including the School of Veterinary Medicine and Perelman School of Medicine, about possible collaborations.
Photo courtesy of Heather Huntington.
This article by Liana F. Wait originally appeared in UPenn Today, a publication of the University of Pennsylvania. Reprinted here (with minor edits) by permission.