The Large-Scale Effect of Forest Cover on Long-Term Streamflow Variations in Mediterranean Catchments of Central Chile

Forest ecosystems play an important role in hydrological processes as surface and subsurface runoff, as well as the storage of water at the catchment scale. Therefore, it is important to have a greater understanding of the effects of forests in the long-term water balance of Mediterranean catchments...

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Published inSustainability Vol. 14; no. 8; p. 4443
Main Authors Pizarro, Roberto, Valdés-Pineda, Rodrigo, Garcia-Chevesich, Pablo A., Ibáñez, Alfredo, Pino, Juan, Scott, David F., Neary, Daniel G., McCray, John E., Castillo, Miguel, Ubilla, Patricio
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.04.2022
Subjects
Afforestation
Catchment scale
Catchments
Climate
Climate change
Dry season
Drying
Ecosystems
Environmental policy
Evaluation
Forest ecosystems
Forest watersheds
Forests
Global warming
Hydrologic cycle
Hydrologic data
Hydrology
Land use
Land use management
Maximum flow
Minimum flow
Plantations
Rainy season
Runoff
Scale effect
Statistical tests
Stream discharge
Stream flow
Summer
Sustainability
Temporal variations
Terrestrial ecosystems
Water balance
Water storage
Winter
Chile
Southern Hemisphere
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Summary:Forest ecosystems play an important role in hydrological processes as surface and subsurface runoff, as well as the storage of water at the catchment scale. Therefore, it is important to have a greater understanding of the effects of forests in the long-term water balance of Mediterranean catchments. In this sense, this study evaluates the effect of native forests, forest plantations, and the combination of both, on long-term streamflow variations in central Chile, an unusual area of Mediterranean climate characterized by a well-marked annual cycle with dry summers and wet winters. Thus, the temporal pattern of monthly streamflow was evaluated for mean flow (Qmean), maximum flow (Qmax), and minimum flow (Qmin) in 42 large-scale (>200 km2) Mediterranean catchments. Each series of monthly streamflow data was QA/QC, and then evaluated using the Mann–Kendall’s non-parametric statistical test to detect temporal variations between 1994 and 2015. In addition to the previous analysis, the monthly series were grouped into wet seasons (April–September) and dry seasons (October–April), to determine if there were any significant differences within the annual hydrological cycle. The areas covered with native and forest plantations and their relative changes were evaluated for each catchment through streamflow variations and forest cover indicators. Results revealed that streamflow variations are positive and significant when more forest cover exists. The intra-catchment relationships assessed for both species revealed the significant role of native forests and mixed masses as key ecosystems for the long-term conservation of summer streamflow in Mediterranean catchments of central Chile. These findings encourage an urgent need to create highland afforestation programs on degraded areas of central Chile, to maximize water storage in a region that is quickly drying out due to unsustainable water and land use management practices and the effects of global warming.
ISSN:2071-1050
2071-1050
DOI:10.3390/su14084443