4.7 Article

Enhancing LULC scenarios impact assessment in hydrological dynamics using participatory mapping protocols in semiarid regions

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 803, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2021.149906

Keywords

Agricultural catchments; Hydrology; LULC change; Participatory land use scenarios; SWAT; Semi-arid; Water balance

Funding

  1. MINECO [PCIN-2014-080, PCIN-2014-085]
  2. CEIGRAM (Centro de Estudios e Investigacion para la Gestion de Riesgos Agrarios y Medioambientales)
  3. IMDEA Water Institute

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This study highlighted the importance of considering LULC scenarios in rural catchment hydrology for future water dynamics. By involving stakeholders, a mapping protocol was developed to assess the impact of different scenarios on water balance components. Results showed that allocating permanent land covers such as grassland could help buffer water dynamics, promoting land and water conservation.
Land use and land cover (LULC) scenarios in rural catchment hydrology are crucial to describe the effects of future water dynamics. However, there is a lack of understanding of the effectiveness of including static land covers at the subbasin level to provide inter-annual stability in changing the different water balance components. We developed a step-by-step mapping protocol to extend and enrich the hydrological assessment of future LULC scenarios defined through participatory stakeholder involvement. This novelty included specific allocation of static and dynamic LULC change among the scenarios and then compared the change of water dynamics to the current situation. For this, we quantified the LULC impact on the components of the water balance from three contrasting participatory scenarios implemented with the SWAT model in a rural basin in central Spain. The Land-sharing scenario (LSH) had the highest percentage of permanent grassland and shrubs and no increase of irrigated land compared to baseline. The land-sparing scenario (LSP) intensified agricultural land use close to urban areas, and the land balance scenario (LBA) was intermediate. The LSH increased the aquifer recharge by +1.7% and streamflow by +1.5%, while evapotranspiration and soil water storage decreased by-0.2%. In contrast, the LBA decreased in the riverine flux of-0.5%, an aquifer recharge of-0.6%, a soil water storage of-3.5%, and an evapotranspiration rate of +0.3%. Thus, LSH revealed that the allocation of permanent land cover such as grassland could buffer water dynamics, suggesting that dedicated planning and allocation of permanently vegetated LULC will favour land and water conservation. (c) 2021 Published by Elsevier B.V.

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