Biophysical suitability, economic pressure and land-cover change: A global probabilistic approach and insights for REDD+

Bernardo B. N. Strassburg, Agnieszka E. Latawiec, Anna Creed, Nga Nguyen, Gilla Sunnenberg, Lera Miles, Andrew Lovett, Lucas Joppa, Ralph Ashton, Jörn P. W. Scharlemann, Felipe Cronenberger, Alvaro Iribarrem

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Abstract

There has been a concerted effort by the international scientific community to understand the multiple causes and patterns of land-cover change to support sustainable land management. Here, we examined biophysical suitability, and a novel integrated index of “Economic Pressure on Land” (EPL) to explain land cover in the year 2000, and estimated the likelihood of future land-cover change through 2050, including protected area effectiveness. Biophysical suitability and EPL explained almost half of the global pattern of land cover (R 2 = 0.45), increasing to almost two-thirds in areas where a long-term equilibrium is likely to have been reached (e.g. R 2 = 0.64 in Europe). We identify a high likelihood of future land-cover change in vast areas with relatively lower current and past deforestation (e.g. the Congo Basin). Further, we simulated emissions arising from a “business as usual” and two reducing emissions from deforestation and forest degradation (REDD) scenarios by incorporating data on biomass carbon. As our model incorporates all biome types, it highlights a crucial aspect of the ongoing REDD + debate: if restricted to forests, “cross-biome leakage” would severely reduce REDD + effectiveness for climate change mitigation. If forests were protected from deforestation yet without measures to tackle the drivers of land-cover change, REDD + would only reduce 30 % of total emissions from land-cover change. Fifty-five percent of emissions reductions from forests would be compensated by increased emissions in other biomes. These results suggest that, although REDD + remains a very promising mitigation tool, implementation of complementary measures to reduce land demand is necessary to prevent this leakage.
Original languageEnglish
Pages (from-to)129-141
Number of pages10
JournalSustainability Science
Volume9
Issue number2
Early online date3 May 2013
DOIs
Publication statusPublished - Apr 2014

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