Impacts of forests and forestation on hydrological services in the Andes: A systematic review

•Exotic tree plantations were more studied than forestation with Andean species.•Forestation reduced downstream water supply in most Andean regions.•Forestation on degraded soils enhanced hydrological regulation.•Forestation on degraded soils strongly increased mitigation of water erosion.•Exotic tr...

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Bibliographic Details
Published in:Forest ecology and management 2019-02, Vol.433, p.569-584
Main Authors: Bonnesoeur, Vivien, Locatelli, Bruno, Guariguata, Manuel R., Ochoa-Tocachi, Boris F., Vanacker, Veerle, Mao, Zhun, Stokes, Alexia, Mathez-Stiefel, Sarah-Lan
Format: Article
Language:English
Subjects:
Environmental Sciences
Global Changes
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Summary:•Exotic tree plantations were more studied than forestation with Andean species.•Forestation reduced downstream water supply in most Andean regions.•Forestation on degraded soils enhanced hydrological regulation.•Forestation on degraded soils strongly increased mitigation of water erosion.•Exotic tree plantations must be avoided on well-conserved high elevation grasslands. Several Andean countries have planned to restore forest cover in degraded land to enhance the provision of multiple ecosystem services in response to international commitments such as the Bonn Challenge. Hydrological services, e.g. water supply, hydrological regulation and erosion mitigation, are particularly important to sustain the life of more than fifty million Andean people. While rapid and important forest cover changes have occurred during recent decades, critical information on the impact of forestation on hydrological services has not yet been synthesized in the context of Andean ecosystems. We define forestation as the establishment of forest by plantation or natural regeneration on areas that either had forest in the past or not. To help improve decision-making on forestation in the Andes, we reviewed the available literature concerning the impacts of forestation on water supply, hydrological regulation and mitigation of erosion and landslides. We also examined available data on the most relevant hydrological processes such as infiltration, evapotranspiration and runoff in forest stands. Hydrological services from native forests were also included as a reference state for comparing processes and services provided by forestation. Following systematic review protocols, we synthesized 155 studies using different methods, including meta-analyses and meta-regressions. Results show that forestation has had clear impacts on degraded soils, through reducing water erosion of soils and risk of moderate floods, increasing soil infiltration rate by 8 and topsoil organic matter (SOM). We found that 20 years of tree plantation was sufficient to recover infiltration rate and sediment yield close to the levels of native forests whereas SOM, soil water storage and surface runoff of native forests could not be recovered by forestation in the time scales examined. The benefits in terms of hydrological regulation are at the expense of a reduction in total water supply since forest cover was associated with higher water use in most Andean regions. Forestation with native species was underrepresent
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2018.11.033