Scientific Data (Jul 2024)

Mapping global land conversion pressure to support conservation planning

  • James Oakleaf,
  • Christina Kennedy,
  • Nicholas H. Wolff,
  • Drew E. Terasaki Hart,
  • Peter Ellis,
  • David M. Theobald,
  • Brandie Fariss,
  • Karl Burkart,
  • Joseph Kiesecker

DOI
https://doi.org/10.1038/s41597-024-03639-9
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 10

Abstract

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Abstract Proactively identifying where land conversion might occur is critical to targeted and effective conservation planning. Previous efforts to map future habitat loss have largely focused on forested systems and have been limited in their consideration of drivers of loss. We developed a 1-km resolution, global map of land conversion pressure from multiple drivers, referred to as the conversion pressure index (CPI). The CPI combines past rates of anthropogenic change, as measured by temporal human modification maps, with suitability maps for potential future expansion by large-scale development. The CPI thus offers a new way to measure a cumulative gradient of anthropogenic pressure as opposed to categorical land cover change. We find that nearly 23% of land across 200 countries have relatively high conversion pressure, potentially impacting over 460 million ha of intact natural lands. We illustrate how this information can be used to identify areas for proactive conservation to avoid future loss and ensure that national commitments under the Kunming-Montreal Global Biodiversity and Paris Agreement Climate Frameworks are upheld.