Ecological Engineering Approaches to Improve Hydraulic Properties of Infilltration Basins Designed for Groundwater Recharge

• Published in: Environmental science & technology Vol. 49
• Main Authors: Gette-Bouvarot, Morgane, Volatier, Laurence, Lassabatère, Laurent, Lemoine, Damien, Simon, Laurent, Delolme, Cécile, Mermillod-Blondin, Florian
• Format: Journal Article
• Language: English
• Published: American Chemical Society 2015
• Subjects: Biodiversity and Ecology; Environmental Sciences
• ISSN: 0013-936X; 1520-5851
• DOI: 10.1021/acs.est.5b01642

Infiltltration systems are increasingly used in urban areas for groundwater recharge. The reduction of sediment permeability by physical and/or biological processes is a major problem in management of infiltration systems often requiring expensive engineering operations for hydraulic performance maintenance. To reduce these costs and for the sake of sustainable development, we proposed to evaluate the ability of ecological engineering approaches to reduce the biological clogging of infiltration basins. A 36-day field-scale experiment using enclosures was performed to test the influences of abiotic (light reduction by shading) and biotic (introduction of the macrophyte Vallisneria spiralis (L.) or the gastropod Viviparus viviparus (Linnaeus, 1758)) treatments to limit benthic biofilm biomass and to maintain or even increase hydraulic performances. We coupled biological characterization of sediment (algal biomass, bacterial abundance, total organic carbon, total nitrogen, microbial enzymatic activity, photosynthetic activity, and photosystem II efficiency) with hydraulic conductivity measurements to assess the e␣ects of treatments on sediment permeability. The grazer Viviparus viviparus significantly reduced benthic biofilm biomass and enhanced hydraulic conductivity. The other treatments did not produce signficant changes in hydraulic conductivity although Vallisneria spiralis affected photosynthetic activity of biofilm. Finally, our results obtained with Viviparus viviparus are promising for the development of ecological engineering solutions to prevent biological fouling in infiltration systems.