Communications Earth & Environment (Aug 2023)

Uncertainty in land-use adaptation persists despite crop model projections showing lower impacts under high warming

  • Edna J. Molina Bacca,
  • Miodrag Stevanović,
  • Benjamin Leon Bodirsky,
  • Kristine Karstens,
  • David Meng-Chuen Chen,
  • Debbora Leip,
  • Christoph Müller,
  • Sara Minoli,
  • Jens Heinke,
  • Jonas Jägermeyr,
  • Christian Folberth,
  • Toshichika Iizumi,
  • Atul K. Jain,
  • Wenfeng Liu,
  • Masashi Okada,
  • Andrew Smerald,
  • Florian Zabel,
  • Hermann Lotze-Campen,
  • Alexander Popp

DOI
https://doi.org/10.1038/s43247-023-00941-z
Journal volume & issue
Vol. 4, no. 1
pp. 1 – 13

Abstract

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Abstract Climate change is expected to impact crop yields and alter resource availability. However, the understanding of the potential of agricultural land-use adaptation and its costs under climate warming is limited. Here, we use a global land system model to assess land-use-based adaptation and its cost under a set of crop model projections, including CO2 fertilization, based on climate model outputs. In our simulations of a low-emissions scenario, the land system responds through slight changes in cropland area in 2100, with costs close to zero. For a high emissions scenario and impacts uncertainty, the response tends toward cropland area changes and investments in technology, with average adaptation costs between −1.5 and +19 US$05 per ton of dry matter per year. Land-use adaptation can reduce adverse climate effects and use favorable changes, like local gains in crop yields. However, variance among high-emissions impact projections creates challenges for effective adaptation planning.