Assessment of Future Land Use/Land Cover Scenarios on the Hydrology of a Coastal Basin in South-Central Chile

Land use and land cover (LULC) change is one of the clearest representations of the global environmental change phenomenon at various spatial and temporal scales. Chile is worldwide recognized to have areas dedicated to non-native forest plantations that specifically in coastal range show high envir...

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Bibliographic Details
Published in:Sustainability 2022-12, Vol.14 (24), p.16363
Main Authors: Pereira, Camila Orellana, Escanilla-Minchel, Rossana, González, Alejandra Cortés, Alcayaga, Hernán, Aguayo, Mauricio, Arias, Miguel Aguayo, Flores, Alejandro N
Format: Article
Language:English
Subjects:
Aquatic resources
Aquifers
Basins
Biodiversity
Chile
Classification
Climate change
Decision making
Environmental aspects
Environmental changes
Evapotranspiration
Forestry
Forests
Groundwater
Groundwater flow
Groundwater recharge
Hydrologic models
Hydrology
Land cover
Land use
Landsat
Management
Markov chains
Methods
Moisture content
Natural resources
Percolation
Plantations
Satellite imagery
Sediments
Soil erosion
Soil water
Sustainability
Sustainable development
Water balance
Water balance (Hydrology)
Water flow
Water resources
Water shortages
Water storage
Water transfer
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Summary:Land use and land cover (LULC) change is one of the clearest representations of the global environmental change phenomenon at various spatial and temporal scales. Chile is worldwide recognized to have areas dedicated to non-native forest plantations that specifically in coastal range show high environmental and economic deterioration, questioning the sustainability of the forestry industry. Currently, there are no studies in Chile that reveal the real effects of the LULC change on the water balance at basin or sub-basin scales associated with future scenarios, which might contribute to territorial decision-making and reveal the real magnitude of the effects of these dynamics. In this study, in order to study LULC dynamics in a coastal basin in South-Central Chile, we assessed and analyzed the effects of future LULC change scenarios on the hydrological processes by generating future synthetic land cover maps from Landsat (Landsat 5 TM and Landsat 8 OLI) image datasets. The hydrological model Soil Water Assessment Tool (SWAT) was calibrated and validated, using hydroclimatic time series, to simulate discharges and other hydrological components over those future LULC scenarios. The LULC future scenarios were projected using combined Markov chain analysis (CA–Markov) and cellular automata algorithms for the near (2025), middle (2035) and far (2045) future. The results revealed that the effects on the different components of the water balance of the basin are not as significant except in the soil water transfer in percolation (increase 72.4%) and groundwater flow (increase 72.5%). This trend was especially observed in sub-basins with non-native forest plantations that dominated land cover in the year 2035, in which an increase of 43.6% in percolation and groundwater flows resulted in increased aquifer recharge and water storage, mainly offset by a decrease of 27% in the evapotranspiration. This work demonstrates the importance of evaluating the impacts of the dynamics of LULC on the hydrological response of a coastal basin, and also on how the land use governance and policy are closely linked to that of water resources.
ISSN:2071-1050
2071-1050
DOI:10.3390/su142416363