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Nature-based solutions for managing the urban surface runoff: an application of a constructed floating wetland

Jucimara Andreza Rigotti, Lúcia Ribeiro Rodrigues, Joana Postal Pasqualini

2020Limnetica20 citationsDOIOpen Access PDF

Abstract

Nature-based solutions for managing the urban surface runoff: an application of a constructed floating wetlandUrban surface runoff strongly contributes to the degradation of river ecosystems.Innovative and nature-based solutions have been applied to face such environmental problems.In this regard, constructed wetlands -a low-cost green treatment technology -represent a successful example of a solution that results in social and environmental benefits.Constructed floating wetlands (CFW) is a relatively new water treatment technique that consists of emergent macrophytes planted on floating structures.The CFW has been tested for the treatment of wastewater and stormwater runoff.However, few studies assess the system's capability over short periods of retention time and its performance under hydraulic shock-loading.This research reports the performance of CFW applied to treatment of simulated urban surface runoff.The removal efficiency of total nitrogen (TN) and total phosphorus (TP) was investigated for two macrophyte species: Typha domingensis and Schoenoplectus californicus.Total organic carbon, wet biomass, chlorophyll-a, dissolved oxygen (DO), pH, oxygen reduction potential (ORP), conductivity, temperature and turbidity were also measured.A commercial floating structure without growth medium was employed.The experiment utilized batch mesocosms, first with a seven-day retention time and second, under hydraulic shock-loading with 24, 2, and 4 h retention times.Differences between treatments and controls were analysed by PERMANOVA and ANOSIM tests.The results for a seven-day batch indicated that T. domingensis was more efficient than S. californicus (removal efficiency of TP = 47 %, TN = 78 % and TP = 11 %, TN = 30 %, respectively).There was a significant difference in nutrient removal for retention times of 24 h and 4 h for T. domingensis.No significant nutrient removal was noticed for S. californicus when the retention time was less than seven days.

Topics & Concepts

Surface runoffWetlandUrban runoffEnvironmental scienceHydrology (agriculture)Environmental engineeringSurface waterEnvironmental planningComputer scienceWater resource managementStormwaterEngineeringEcologyGeotechnical engineeringBiologyConstructed Wetlands for Wastewater TreatmentUrban Stormwater Management Solutions