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'Blue food revolution' to tackle climate change and malnutrition

Date:
September 16, 2021
Source:
University of California - Santa Barbara
Summary:
An unprecedented review of the aquatic foods sector has uncovered how fisheries and aquaculture can play a greater role in delivering healthy diets and more sustainable, equitable and resilient food systems around the world.
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An unprecedented review of the aquatic foods sector has uncovered how fisheries and aquaculture can play a greater role in delivering healthy diets and more sustainable, equitable and resilient food systems around the world.

Five peer-reviewed papers in the journal Nature highlight the opportunities to leverage the vast diversity of aquatic, or "blue," foods in the coming decades to address malnutrition, lower the environmental footprint of the food system, and provide livelihoods.

"People are trying to make more informed choices about the food they eat, in particular the environmental footprint of their food," said Ben Halpern, a marine ecologist at UC Santa Barbara's Bren School of Environmental Science & Management, who with colleagues examined the environmental sustainability of aquatic foods, the potential for the growth of small-scale producers and the climate risks that face aquatic food systems. "For the first time we pulled together data from hundreds of studies on a wide range of seafood species to help answer that question. Blue foods stack up really well overall and provide a great option for sustainable food."

The research projects that global demand for blue foods will roughly double by 2050, and will be met primarily through increased aquaculture production rather than by capture fisheries.

Investing in innovation and improving fisheries management could increase consumption even more and have profound effects on malnutrition. For instance, a "high growth" modeling scenario showed that increasing supply by 15.5 million tons (8%), causing a drop in prices, would reduce cases of nutrient deficiencies by 166 million, especially among low-income populations.

"Small-scale fishers -- the individuals and small boats that fish in places all around the world -- are a huge part of the global seafood system and are incredibly diverse in who they are and how they fish," said Halpern, who also directs the National Center for Ecological Analysis & Synthesis at UCSB. "That diversity creates both opportunities and challenges for sustainably managing the oceans. We unpacked this diversity to help guide better management."

Blue foods were found to rank more highly than terrestrial animal-source foods in terms of their nutritional benefits and potential for sustainability gains.

Many blue food species are rich in important nutrients. Compared to chicken, trout has approximately 19 times more omega-3 fatty acids; oysters and mussels have 76 times more vitamin B-12 and five times more iron; and carps have nine times more calcium.

"For the first time we got to see what more aquatic food production would mean for human health globally," said Bren School marine ecologist and assistant researcher Christopher Free, who with fellow UCSB marine scientist Jacob Eurich co-authored a study that examines the nutritional potential of blue foods. "What we project is that by making aquatic foods cheaper to the consumer, there's likely going to be a shift away from land-based foods like chicken, beef and dairy. I think what made us really excited is knowing that aquatic food could be a useful solution to combating malnutrition, and really showing that comprehensively for the first time."

The nutritional benefits of blue foods are especially important for women, who were found to benefit more than men from increased consumption in nearly three times the number of countries studied.

On average, the major species produced in aquaculture, such as tilapia, salmon, catfish and carp, were found to have environmental footprints comparable to chicken, the lowest-impact terrestrial meat. Small pelagic species like sardines and anchovies, bivalves and seaweeds all already offer lower stressors than chicken.

Further investments to improve the sector's efficiency and reduce its environmental footprint can have sector-wide benefits, including for less commonly raised species like European bass, weakfish, flatfish, sea breams and milkfish.

The research found that blue food systems facing the highest risk from climate change are also typically located in those regions where people rely on them most and where they are least equipped to respond and adapt to climate hazards.

"Climate change is creating all sorts of risks to humanity, including to our food," Halpern said. "Blue foods are no different and in fact face some unique risks from things like acidifying and warming waters. But not all foods are equally vulnerable to these risks -- in our work we show where, how and why different blue foods face different risks from climate change."

These five papers are the first in a series produced by the Blue Food Assessment (BFA), a group of more than 100 leading researchers led by Stanford University's Center for Ocean Solutions & Center on Food Security and the Environment, the Stockholm Resilience Centre at Stockholm University and EAT.

"Blue foods are much more diverse than typically thought, and so too are the many communities of small-scale fishers who are often overlooked despite providing the majority of blue food people eat," said Beatrice Crona, co-chair of the BFA and deputy science director at the Stockholm Resilience Centre.

"Few, if any, countries are developing their blue food sector to provide ecological, economic, and health benefits to its full potential," said Rosamond Naylor, BFA co-chair and founding director of the Center on Food Security and the Environment at Stanford University. "This assessment aims to provide the scientific foundation for decision-makers to evaluate trade-offs and implement solutions that will make blue foods an instrumental part of an improved food system from local to global scales."

"The BFA assessment emphasizes the enormous diversity of blue foods, all of which carry important nutritional, cultural, economic and environmental value," said Fabrice DeClerck, EAT science director. "To realize its potential, policymakers should put in place better governance, including participation of small producers, women and other marginalized groups, better stewardship of the natural resources on which blue foods rely; and investment in building resilience to climate change."

"We are nine fishing seasons away from the deadline for achieving the 2030 Sustainable Development Goals so the urgency is high," said Jim Leape,co-director of the Stanford Center for Ocean Solutions. "This research can help policymakers, companies, financiers, fishers and consumers capitalize on the immense potential of blue foods to help achieve those goals."

More than 2,500 species or species groups of fish, shellfish, aquatic plants and algae are caught or cultivated globally for food, providing livelihoods and incomes for more than 100 million and sustenance for one billion.


Story Source:

Materials provided by University of California - Santa Barbara. Original written by Sonia Fernandez. Note: Content may be edited for style and length.


Journal References:

  1. Jessica A. Gephart, Patrik J. G. Henriksson, Robert W. R. Parker, Alon Shepon, Kelvin D. Gorospe, Kristina Bergman, Gidon Eshel, Christopher D. Golden, Benjamin S. Halpern, Sara Hornborg, Malin Jonell, Marc Metian, Kathleen Mifflin, Richard Newton, Peter Tyedmers, Wenbo Zhang, Friederike Ziegler, Max Troell. Environmental performance of blue foods. Nature, 2021; 597 (7876): 360 DOI: 10.1038/s41586-021-03889-2
  2. Rebecca E. Short, Stefan Gelcich, David C. Little, Fiorenza Micheli, Edward H. Allison, Xavier Basurto, Ben Belton, Cecile Brugere, Simon R. Bush, Ling Cao, Beatrice Crona, Philippa J. Cohen, Omar Defeo, Peter Edwards, Caroline E. Ferguson, Nicole Franz, Christopher D. Golden, Benjamin S. Halpern, Lucie Hazen, Christina Hicks, Derek Johnson, Alexander M. Kaminski, Sangeeta Mangubhai, Rosamond L. Naylor, Melba Reantaso, U. Rashid Sumaila, Shakuntala H. Thilsted, Michelle Tigchelaar, Colette C. C. Wabnitz, Wenbo Zhang. Harnessing the diversity of small-scale actors is key to the future of aquatic food systems. Nature Food, 2021; DOI: 10.1038/s43016-021-00363-0
  3. Michelle Tigchelaar, William W. L. Cheung, Essam Yassin Mohammed, Michael J. Phillips, Hanna J. Payne, Elizabeth R. Selig, Colette C. C. Wabnitz, Muhammed A. Oyinlola, Thomas L. Frölicher, Jessica A. Gephart, Christopher D. Golden, Edward H. Allison, Abigail Bennett, Ling Cao, Jessica Fanzo, Benjamin S. Halpern, Vicky W. Y. Lam, Fiorenza Micheli, Rosamond L. Naylor, U. Rashid Sumaila, Alessandro Tagliabue, Max Troell. Compound climate risks threaten aquatic food system benefits. Nature Food, 2021; DOI: 10.1038/s43016-021-00368-9

Cite This Page:

University of California - Santa Barbara. "'Blue food revolution' to tackle climate change and malnutrition." ScienceDaily. ScienceDaily, 16 September 2021. <www.sciencedaily.com/releases/2021/09/210916173440.htm>.
University of California - Santa Barbara. (2021, September 16). 'Blue food revolution' to tackle climate change and malnutrition. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2021/09/210916173440.htm
University of California - Santa Barbara. "'Blue food revolution' to tackle climate change and malnutrition." ScienceDaily. www.sciencedaily.com/releases/2021/09/210916173440.htm (accessed December 21, 2024).

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