Big, industrial vessels operating in the oceans usually come to mind when thinking about commercial fishing. But in coastal and inland communities around the world, relatively smaller-scale fishing is a major source of food, nutrition and income for a growing population.
Despite the outsized role of these small-scale fisheries, their value is often poorly measured and ignored in policy and management decisions. A forthcoming report aims to change that, drawing on the expertise of hundreds of researchers, consultants and government staff from around the world—including Duke scholars and students.
Years in the making, Illuminating Hidden Harvests: The contributions of small-scale fisheries to sustainable development details the multifaceted contributions of small-scale fisheries. The report culminates a collaborative research effort led by the Food and Agriculture Organization of the United Nations (FAO), Duke University and WorldFish to better inform governance of these critical resources.
“This report provides perhaps the clearest picture to date of the global importance of small-scale fisheries to sustainable development,” said John Virdin, director of the Ocean and Coastal Policy Program at the Nicholas Institute for Energy, Environment & Sustainability and assistant professor of the practice at the Nicholas School of the Environment. “The data and recommendations in this report can support policy making at all levels and, we hope, empower fishing communities and their advocates to push for productive, sustainable and equitable small-scale fisheries.”
The “Illuminating Hidden Harvests” initiative builds on The Hidden Harvests: The Global Contribution of Capture Fisheries, a 2012 study by FAO, the World Bank, and WorldFish that marked a first attempt to synthesize data on small-scale fisheries. The new report assessed their environmental, economic, gender, nutrition and governance contributions.
Among the highlights of the new report:
The report drew on an array of existing data sources from the national and international levels and includes case studies from 58 countries. An interdisciplinary group of more than 800 experts contributed, including a large contingent from Duke University’s Nicholas School of the Environment, Marine Lab and Nicholas Institute for Energy, Environment & Sustainability.
“More than 25 students, including undergraduates, masters and Ph.D.s, and post-doctoral associates; research scientists; and faculty played a central role in the design and development of this landmark study,” said Xavier Basurto, Bass Chair for Excellence in Research and Undergraduate Education and associate professor of sustainability science at the Nicholas School of the Environment. “This was truly a team effort that showcased the culture of collaboration and ability to work across disciplines we train students to be able to do at Duke.”
Illuminating Hidden Harvests is part of a broader partnership between FAO and Duke to build a scientific evidence base for policy makers to develop strategies and solutions to support small-scale fisheries. This is another example of the Duke strategic vision of building partnerships that address large, challenging issues around the world.
Formalized through a memorandum of understanding in 2020, the partnership capitalizes on the strengths of both organizations. FAO benefits from research methods developed at Duke. Meanwhile, Duke students are able to apply their knowledge to real-word research projects that have a direct global impact on food security.
“The partnership with FAO allows us to connect our faculty and the U.N. effectively to try to eradicate hunger and pursue this noble idea of ending poverty,” said Toddi Steelman, Stanback Dean of the Nicholas School of the Environment, during a virtual event announcing the partnership in October 2020. “It’s a vote of confidence in the importance of multilateral institutions at this time.”
The Illuminating Hidden Harvests: The contributions of small-scale fisheries to sustainable development is available at: https://www.fao.org/3/cc4576en/cc4576en.pdf