Citas bibligráficas
Escobar, E., (2019). Impacts of future climate change on water ecosystem services in the watershed of river Homem (Northwest Portugal) [Universidade do Porto]. https://renati.sunedu.gob.pe/handle/sunedu/2229994https://hdl.handle.net/10216/121239
Escobar, E., Impacts of future climate change on water ecosystem services in the watershed of river Homem (Northwest Portugal) []. PT: Universidade do Porto; 2019. https://renati.sunedu.gob.pe/handle/sunedu/2229994https://hdl.handle.net/10216/121239
@mastersthesis{renati/2384,
title = "Impacts of future climate change on water ecosystem services in the watershed of river Homem (Northwest Portugal)",
author = "Escobar Juipa, Emanuel Nestor",
publisher = "Universidade do Porto",
year = "2019"
}
The watershed of river Homem, in northwest Portugal, is an important water source for hydropower production, agricultural and urban use, and tourism activities, as well as for biodiversity conservation. Climate change is expected to alter the water cycle. In fact, climate models project an increase in temperature and a decrease in precipitation, affecting water resources and the provision of ecosystem services, in particular at the local level. The general objective of this study, performed in the watershed of river Homem, was to evaluate how future climate change may influence water resources, in order to support decision-making for watershed management. Two specific objectives were addressed: (i) to assess and map the baseline status of water ecosystem services provision; and (ii) to simulate how future climate change will potentially affect the provision of ecosystem services. Modelling exercises can be useful tools to forecast climate change impacts on ecosystem services provision. The Soil and Water Assessment Tool (SWAT) was calibrated and validated for the local conditions of Homem watershed (against daily and monthly discharge and monthly reservoir volumes). Future climate projections (2020-2050) were forced in SWAT, based on four regional climate models and two climate change scenarios (RCP 4.5 and 8.5), to be compared with the historical reference period (1970-2000). Our results confirmed that SWAT has a good performance in quantifying local water dynamics to support estimates of water ecosystem services. Climate change can affect the provision of water services in the focal watershed by reducing the quantity of water by 7% under RCP 8.5, also decreasing the high and low flows during wet and dry months, respectively. Reservoir volume may decrease and severely reduce hydropower production potential, mainly in summer. Soil erosion may increase by 76% (0.26 t/ha year), although still below the threshold of 1t/ha year established as tolerable rate (i.e. compensated by soil formation). These results are of high relevance for building adaptation strategies to reduce climate changes impacts, especially taking into consideration the current European Union focus on nature-based solutions. Overall, our results emphasize the need to evaluate the impacts of climate change at the local level to support strategies for sustainable watershed management.
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