Mapping a conservation research network to the Sustainable Development Goals
Copyright policy )Mapping a conservation research network to the Sustainable Development Goals
AbstractThe United Nations Sustainable Development Goals (SDGs) provide a global blueprint to end extreme poverty, reduce inequality, and protect the planet. Progress toward these goals is falling short. Achieving the SDGs requires coordination among government, private industry, and nongovernmental organizations to align the actions of multiple sectors with SDG targets. Adapting an approach used by industry sectors, we mapped the Smithsonian Institution Working Land and Seascapes network to the SDGs. The network of programs aims to foster healthy and productive ecosystems through collaborations with diverse stakeholders. Across the network, we identified clear and measurable contributions to 16 of the 17 SDGs and specifically mapped past and current activities to 76 of the 169 targets, thereby demonstrating how conservation actions can contribute to achieving the SDGs, beyond SDGs 14 and 15. We also identified the need for clear results chain and greater capacity to achieve the SDGs and then provide examples of how different sectors can increase complementarity of their actions. By mapping activities to the SDGs, different sectors can increase alignment and strengthen collective contributions towards common global goals.
- Smithsonian Conservation Biology Institute United States
- Imperial College London United Kingdom
- Smithsonian Tropical Research Institute Panama
- Smithsonian Environmental Research Center United States
- Smithsonian Institution Archives United States
Economics, FOS: Political science, Sustainable Development Goals, FOS: Mechanical engineering, Engineering, Sustainable development, Government (linguistics), Business, mapping, Environmental resource management, Political science, QH540-549.5, Environmental planning, Global and Planetary Change, Global Analysis of Ecosystem Services and Land Use, Species Distribution Modeling and Climate Change Impacts, Ecology, Geography, Ecological Modeling, Mechanical engineering, FOS: Philosophy, ethics and religion, global goals, Sustainability, Physical Sciences, 330, Blueprint, Complementarity (molecular biology), Environmental economics, FOS: Law, QH1-199.5, 333, Genetics, working landscapes, Poverty, Biology, Economic growth, Habitat Suitability, General. Including nature conservation, geographical distribution, Linguistics, Philosophy, well‐being, FOS: Biological sciences, Environmental Science, FOS: Languages and literature, biodiversity conservation, Drivers and Impacts of Tropical Deforestation, Law
Economics, FOS: Political science, Sustainable Development Goals, FOS: Mechanical engineering, Engineering, Sustainable development, Government (linguistics), Business, mapping, Environmental resource management, Political science, QH540-549.5, Environmental planning, Global and Planetary Change, Global Analysis of Ecosystem Services and Land Use, Species Distribution Modeling and Climate Change Impacts, Ecology, Geography, Ecological Modeling, Mechanical engineering, FOS: Philosophy, ethics and religion, global goals, Sustainability, Physical Sciences, 330, Blueprint, Complementarity (molecular biology), Environmental economics, FOS: Law, QH1-199.5, 333, Genetics, working landscapes, Poverty, Biology, Economic growth, Habitat Suitability, General. Including nature conservation, geographical distribution, Linguistics, Philosophy, well‐being, FOS: Biological sciences, Environmental Science, FOS: Languages and literature, biodiversity conservation, Drivers and Impacts of Tropical Deforestation, Law
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