Hydrological implications of large-scale afforestation in tropical biomes for climate change mitigation

Rising interest in large-scale afforestation and reforestation as a strategy for climate change mitigation has recently motivated research efforts aiming at the identification of areas suitable for the plantation of trees. An often-overlooked aspect of agroforestry projects for carbon sequestration is their impact on water resources. It is often unclear to what extent the establishment of forest vegetation would be limited by water availability, whether it would engender competition with other local water uses or induce water scarcity. Here we use global water models to study the hydrologic constraints and impacts of afforestation in tropical biomes. We find that 36% of total suitable and available afforestation areas are in areas where the rain alone can meet just up to the 40% of total plant water requirement. Planting trees will substantially increase water scarcity and possible dispossession (green water grab) especially in dryland regions of Africa and Oceania. Moreover, the combination of tree restoration and irrigation expansion to rainfed agricultural areas is expected to further exacerbate water scarcity, with about half of the global suitable areas for tree restoration experiencing water scarcity at least 7 months per year. Thus, the unavailability of water can overall limit climate change adaptation strategies.This article is part of the theme issue 'Ecological complexity and the biosphere: the next 30 years'.

Automated summary

The study focuses on the hydrological constraints and impacts of afforestation in tropical biomes, and finds that planting trees may lead to water scarcity, especially in dryland regions of Africa and Oceania. It also suggests that the combination of tree restoration and irrigation expansion could exacerbate water scarcity.