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Home Science News Climate

Targeted tropical forest restoration can reduce water losses from deforestation

July 15, 2026
in Climate
Reading Time: 2 mins read
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Targeted tropical forest restoration can reduce water losses from deforestation

Targeted tropical forest restoration can reduce water losses from deforestation

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Tropical forest restoration is being marketed worldwide as a nature-based climate solution, but a crucial question has lingered: can rebuilding forests undo the water-cycle disruption caused by deforestation? A new study in Nature Climate Change suggests the answer is more nuanced—and in some regions, more optimistic—than conventional assumptions.

Using large-scale analyses that explicitly track forest gain and forest loss, researchers compared how deforestation changes key hydrological fluxes with how restoration brings those fluxes back. The focus went beyond rainfall totals, targeting evapotranspiration (water returned to the atmosphere by plants and soils) and precipitation recycling (moisture that returns as rain).

The headline result is “hydrological asymmetry.” Forest loss reduces evapotranspiration and weakens precipitation inputs, but forest gain does not simply mirror that decline. Instead, new forests increase evapotranspiration and precipitation more strongly than forest loss diminishes them.

The team attributes this imbalance to the rapid growth of young forests, whose fast leaf area development can accelerate water uptake and vapor transfer. In parallel, restored landscapes appear to boost moisture recycling—effectively feeding regional rains through enhanced evapotranspiration that later falls as precipitation downwind.

This mechanism has practical consequences for how much restoration is needed to counteract deforestation’s water impacts. In South America, compensating for lost hydrological function requires restoring roughly 43–63% of the degraded forest area. In Africa, the corresponding target is higher—about 53–83%—reflecting stronger sensitivity to the timing, extent, and climate setting of restoration.

Yet the same strategy does not translate cleanly to all tropics. In Southeast Asia, climatic constraints limit how much reforestation can recover water fluxes, implying that simply planting more trees may not restore the same hydrological outcome.

The study also finds that current climate models struggle to reproduce these asymmetric responses. A likely reason is inadequate representation of vegetation dynamics—especially age-dependent traits that change forest water behavior as stands mature.

Overall, the results argue for reframing forest-based climate solutions through hydrological resilience rather than carbon alone. Restoration strategies, the authors contend, should be spatially targeted and mechanism-informed to maximize co-benefits for both climate mitigation and water security.

Subject of Research: Tropical forest restoration and hydrological impacts of deforestation
Article Title: Targeted tropical forest restoration can offset deforestation-induced water flux losses.
Article References: Ma, S., Zhou, S., Ellison, D. et al. Targeted tropical forest restoration can offset deforestation-induced water flux losses. Nat. Clim. Chang. (2026). https://doi.org/10.1038/s41558-026-02709-7
Image Credits: AI Generated
DOI: https://doi.org/10.1038/s41558-026-02709-7
Keywords:

Tags: deforestation water impactsevapotranspirationforest gain and loss comparisonforest growth and water dynamicshydrological asymmetrylandscape hydrologynature-based climate solutionsprecipitation recyclingregional moisture feedbacksregional rainfall enhancementtropical forest restorationwater-cycle disruption
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