Land (Jan 2022)

Preliminary Model-Based Evaluation of Water Conservation Strategies in a Semi-Arid Urban Zone

  • Marcelino Antonio Zúñiga-Estrada,
  • Liliana Lizárraga-Mendiola,
  • Carlos Alfredo Bigurra-Alzati,
  • Sergio Esteban Aldana-Alonso,
  • Jorge Santiago Ramírez-Núñez,
  • Gabriela A. Vázquez-Rodríguez

DOI
https://doi.org/10.3390/land11010101
Journal volume & issue
Vol. 11, no. 1
p. 101

Abstract

Read online

The U.S. Environmental Protection Agency stormwater management model was applied to a semi-arid urban micro watershed. The sub-catchment’s current features were modeled as scenario A, while the insertion of a set of LID technologies (rain barrels, bioretention cells, permeable pavement, and infiltration trenches) was represented as scenario B. A third scenario (C), considering only the most feasible LID technologies, was also modeled. All the scenarios were evaluated under two representative storm events (30 and 9 mm in two consecutive days, and 39 mm of rainfall in one day) occurred during the sampling performed in this study. Water quality was also simulated for a 30-mm storm event and compared against field assessment results after a real 30-mm storm event. Through the model, the inefficiency of current evacuation methods after 30- and 39-mm storm events was demonstrated. Simulation of scenario B showed that LID technologies could satisfactorily diminish peak flows generated by the selected storm events as well as runoff-conveyed pollution, while the realistic scenario allowed a lower but satisfactory hydrological performance and almost the same runoff quality than scenario B. This preliminary study could contribute to spread awareness about the benefits of LID technologies in semi-arid urban areas of the developing world.

Keywords