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Systems methods for analyzing trade-offs between food security and conserving biodiversity

Author

Listed:
  • Benjamin Stuch

    (Kassel University)

  • Joseph Alcamo

    (University of Sussex)

Abstract

The endeavor for greater food security has caused trade-offs between increasing agricultural production and conserving habitat of threatened species. We take a novel approach to analyze these trade-offs by applying and comparing three systems methods (systems diagrams, influence matrices, and land use modeling) in a case study of Uganda. The first two methods were used to scope out the trade-off system and identify the most important variables influencing trade-offs. These variables were agricultural yield, land governance processes, and change in land use and land cover. The third method was used to quantify trade-offs and evaluate policy scenarios to alleviate them. A reference scenario indicated that increasing agricultural production by expanding agricultural land provided food for 79% more people in 2050 (compared to 2005) but with a 48% loss of habitat of threatened species. A scenario assuming strong investments to augment agricultural yield increased the number of people fed in 2050 up to 157%, while reducing the loss of habitat down to 27%. We use a novel “trade-off coefficient” for a consistent comparison of scenario results. A scenario assuming yield improvement and ring-fencing protected areas reduced the trade-off coefficient from − 0.62 in the reference case to − 0.15. This coefficient can be used as a common basis to compare results from different trade-off studies. It was found that the three systems methods are useful, but have limitations as stand-alone tools. Combining the methods into a single methodology increases their collective utility by maximizing the transparency and comprehensiveness and potential stakeholder engagement of a trade-off analysis.

Suggested Citation

  • Benjamin Stuch & Joseph Alcamo, 2024. "Systems methods for analyzing trade-offs between food security and conserving biodiversity," Environment Systems and Decisions, Springer, vol. 44(1), pages 16-29, March.
    • Handle: RePEc:spr:envsyd:v:44:y:2024:i:1:d:10.1007_s10669-023-09909-y
    DOI: 10.1007/s10669-023-09909-y
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    References listed on IDEAS

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    1. Zhengxin Ji & Hejie Wei & Dong Xue & Mengxue Liu & Enxiang Cai & Weiqiang Chen & Xinwei Feng & Jiwei Li & Jie Lu & Yulong Guo, 2021. "Trade-Off and Projecting Effects of Land Use Change on Ecosystem Services under Different Policies Scenarios: A Case Study in Central China," IJERPH, MDPI, vol. 18(7), pages 1-23, March.
    2. Majaliwa Gilbert Jackson Mwanjalolo & Barasa Bernard & Mukwaya Isolo Paul & Wanyama Joshua & Kutegeka Sophie & Nakyeyune Cotilda & Nakileza Bob & Diisi John & Ssenyonjo Edward & Nakangu Barbara, 2018. "Assessing the Extent of Historical, Current, and Future Land Use Systems in Uganda," Land, MDPI, vol. 7(4), pages 1-17, November.
    3. Roshan Sharma & Udo Nehren & Syed Ajijur Rahman & Maximilian Meyer & Bhagawat Rimal & Gilang Aria Seta & Himlal Baral, 2018. "Modeling Land Use and Land Cover Changes and Their Effects on Biodiversity in Central Kalimantan, Indonesia," Land, MDPI, vol. 7(2), pages 1-14, May.
    4. Camila Guerrero-Pineda & Gwenllian D. Iacona & Louise Mair & Frank Hawkins & Juha Siikamäki & Daniel Miller & Leah R. Gerber, 2022. "An investment strategy to address biodiversity loss from agricultural expansion," Nature Sustainability, Nature, vol. 5(7), pages 610-618, July.
    5. Anthony Cole & Will Allen & Margaret Kilvington & Andrew Fenemor & Breck Bowden, 2007. "Participatory modelling with an influence matrix and the calculation of whole-of-system sustainability values," International Journal of Sustainable Development, Inderscience Enterprises Ltd, vol. 10(4), pages 382-401.
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