Reactive Barriers for Renaturalization of Reclaimed Water during Soil Aquifer Treatment

Valhondo, Cristina; Carrera, Jesús; Martinez-Landa, Lurdes; Wang, Jingjing; Amalfitano, Stefano; Levantesi, Caterina; Díaz˗Cruz, M. Silvia

doi:10.3390/w12041012

Cited by 23 publications

(13 citation statements)

References 98 publications

(129 reference statements)

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“…This offers a range of redox conditions and adds sorption sites that facilitate biodegradation and retard the transport of pollutants through the system ( Valhondo et al, 2018 ), but the efficiency and capacity to remove environmentally harmful pollutants are uncertain and will depend on the type of barrier, pollutant ( Modrzyński et al, 2021 ), and the operation of the system. The addition of reactive barriers has shown promising results for the removal of organic micropollutants and for reducing the number of pathogens in the treated water ( Schaffer et al, 2015 ; Valhondo et al, 2020a ; Modrzyński et al, 2021 ). With respect to nitrogen (N) removal, reactive barriers can also support denitrification for the removal of nitrate ions ( Beganskas et al, 2018 ; Grau-Martínez et al, 2018 ).…”

Section: Introductionmentioning

confidence: 99%

Nitrogen Removal Capacity of Microbial Communities Developing in Compost- and Woodchip-Based Multipurpose Reactive Barriers for Aquifer Recharge With Wastewater

et al. 2022

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Global water supplies are threatened by climate changes and the expansion of urban areas, which have led to an increasing interest in nature-based solutions for water reuse and reclamation. Reclaimed water is a possible resource for recharging aquifers, and the addition of an organic reactive barrier has been proposed to improve the removal of pollutants. There has been a large focus on organic pollutants, but less is known about multifunctional barriers, that is, how barriers also remove nutrients that threaten groundwater ecosystems. Herein, we investigated how compost- and woodchip-based barriers affect nitrogen (N) removal in a pilot soil aquifer treatment facility designed for removing nutrients and recalcitrant compounds by investigating the composition of microbial communities and their capacity for N transformations. Secondary-treated, ammonium-rich wastewater was infiltrated through the barriers, and the changes in the concentration of ammonium, nitrate, and dissolved organic carbon (DOC) were measured after passage through the barrier during 1 year of operation. The development and composition of the microbial community in the barriers were examined, and potential N-transforming processes in the barriers were quantified by determining the abundance of key functional genes using quantitative PCR. Only one barrier, based on compost, significantly decreased the ammonium concentration in the infiltrated water. However, the reduction of reactive N in the barriers was moderate (between 21 and 37%), and there were no differences between the barrier types. All the barriers were after 1 year dominated by members of Alphaproteobacteria, Gammaproteobacteria, and Actinobacteria, although the community composition differed between the barriers. Bacterial classes belonging to the phylum Chloroflexi showed an increased relative abundance in the compost-based barriers. In contrast to the increased genetic potential for nitrification in the compost-based barriers, the woodchip-based barrier demonstrated higher genetic potentials for denitrification, nitrous oxide reduction, and dissimilatory reduction of nitrate to ammonium. The barriers have previously been shown to display a high capacity to degrade recalcitrant pollutants, but in this study, we show that most barriers performed poorly in terms of N removal and those based on compost also leaked DOC, highlighting the difficulties in designing barriers that satisfactorily meet several purposes.

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Section: Introductionmentioning

confidence: 99%

Nitrogen Removal Capacity of Microbial Communities Developing in Compost- and Woodchip-Based Multipurpose Reactive Barriers for Aquifer Recharge With Wastewater

et al. 2022

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“…Water quality improvement is also an objective of soil aquifer treatment systems that intermittently infiltrate recycled water. Valhondo et al [7] tested the use of several types of organic-rich reactive layers placed at the bottom of infiltration basins to enhance water quality improvement during soil passage. Field tests were performed at two sites in Spain.…”

Section: Water Quality Improvementmentioning

confidence: 99%

Managed Aquifer Recharge for Water Resilience

Dillon

Escalante

Megdal

et al. 2020

Water

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Managed aquifer recharge (MAR) is part of the palette of solutions to water shortage, water security, water quality decline, falling water tables, and endangered groundwater-dependent ecosystems. It can be the most economic, most benign, most resilient, and most socially acceptable solution, but frequently has not been implemented due to lack of awareness, inadequate knowledge of aquifers, immature perception of risk, and incomplete policies for integrated water management, including linking MAR with demand management. MAR can achieve much towards solving the myriad local water problems that have collectively been termed “the global water crisis”. This special issue strives to elucidate the effectiveness, benefits, constraints, limitations, and applicability of MAR, together with its scientific advances, to a wide variety of situations that have global relevance. This special issue was initiated by the International Association of Hydrogeologists Commission on Managing Aquifer Recharge to capture and extend from selected papers at the 10th International Symposium on Managed Aquifer Recharge (ISMAR10) held in Madrid, Spain, 20–24 May 2019.

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“…An important group of contaminants to consider are the emergent pollutants, which pose a major concern in the reuse of reclaimed water (WHO 2003;Valhondo et al 2020). The water quality standards from the USA, Italy, México, The Netherlands, Shafdan and Torreele take into account these sorts of pollutants.…”

Section: In Dm 100/2016)mentioning

confidence: 99%

“…To date, only a small number of countries have stepped up with policies concerning environmental and health protection in MAR (Dillon et al 2009). This situation, which often implies a lack of clear rules and water quality standards, can result in a public misperception of MAR or in implementations which have negative impacts on human health and ecosystems (Valhondo et al 2020;WHO 2003). Such concern has been recently tangible in Europe, where some experts presented claims and recommendations to the first draft of the regulation on water reuse (JRC 2017).…”

Section: Introductionmentioning

confidence: 99%

Regulations and guidelines on water quality requirements for Managed Aquifer Recharge. International comparison

Escalante¹,

Casas

Medeiros³

et al. 2020

AS-ITJGW

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Managed Aquifer Recharge (MAR) is a promising set of techniques to cope with a variety of water management-related issues. In recent years MAR implementations have witnessed an expansion and greater social acceptance. Nonetheless, there are still some gaps in the scientific, economic and governance dimensions of MAR which need to be addressed. One of these gaps is the lack in many countries of clear regulations addressing MAR. In this paper eighteen regulations and twelve guidelines on water quality standards from around the world have been reviewed to favour the advancement of the legal framework concerning MAR. The review has demonstrated that the existing MAR regulatory frameworks are implemented at different levels (i.e. from regional to international) and consider different aspects such as planning, permitting and monitoring as well as the risk assessment. Most regulations take into account some of these aspects, but seldom all of them. The detailed study and comparison of the water quality standards enabled to define conclusions regarding the differences in maximum allowable concentrations (MACs). Furthermore, this comparison made visible the different approaches to encompass the variability of MAR systems, and also the natural conditions prevailing in the receiving groundwater body. Based on the review of the selected regulations, their advantages and shortcomings, a series of recommendations are proposed for the development of future legal framework entailing the MAR technique.

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Reactive Barriers for Renaturalization of Reclaimed Water during Soil Aquifer Treatment

Cited by 23 publications

References 98 publications

Nitrogen Removal Capacity of Microbial Communities Developing in Compost- and Woodchip-Based Multipurpose Reactive Barriers for Aquifer Recharge With Wastewater

Nitrogen Removal Capacity of Microbial Communities Developing in Compost- and Woodchip-Based Multipurpose Reactive Barriers for Aquifer Recharge With Wastewater

Managed Aquifer Recharge for Water Resilience

Regulations and guidelines on water quality requirements for Managed Aquifer Recharge. International comparison

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