2020
DOI: 10.3389/frwa.2020.00022
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Linking Hydrobiogeochemical Processes and Management Techniques to Close Nutrient Loops in an Arid River

Abstract: In this study, we explored opportunities to optimize food-energy-water (FEW) resources by closing nutrient loops in aridland rivers. We evaluated source and sink behavior of nitrogen as nitrate (NO 3-N) in three connected channels associated with an irrigation network, i.e., man-made delivery and drain canals, and the main stem of the Rio Grande river near Albuquerque, New Mexico, USA. All three channels are located downstream of a large wastewater treatment plant that is the main contributor of nutrients to t… Show more

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Cited by 6 publications
(9 citation statements)
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“…Therefore, a better understanding of the temporal variability in nutrient uptake capacity of the receiving streams, and especially of the biogeochemical processes prevailing during low ow conditions, is important for improving the management of urban streams impacted by point-sources. In this context, our study conveys with the perspective of current studies suggesting management strategies for WWTP-receiving streams (i.e., Bicknell et al 2020). In particular, our study suggests that it is critical to design WWTP operation procedures taking into account both the dilution and the bioreactive capacity of receiving streams for an integrated management of water resources and their quality in urban landscapes, especially under water scarcity conditions.…”
Section: Discussionmentioning
confidence: 56%
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“…Therefore, a better understanding of the temporal variability in nutrient uptake capacity of the receiving streams, and especially of the biogeochemical processes prevailing during low ow conditions, is important for improving the management of urban streams impacted by point-sources. In this context, our study conveys with the perspective of current studies suggesting management strategies for WWTP-receiving streams (i.e., Bicknell et al 2020). In particular, our study suggests that it is critical to design WWTP operation procedures taking into account both the dilution and the bioreactive capacity of receiving streams for an integrated management of water resources and their quality in urban landscapes, especially under water scarcity conditions.…”
Section: Discussionmentioning
confidence: 56%
“…The contribution of the WWTP uent to the ow of the receiving stream was highly variable (from < 1 to 100%) depending on the period of the year. This pattern is typically observed in many other intermittent streams across arid and semiarid regions (Arnon et al 2015;Martí et al 2010;Bicknell et al 2020), because their hydrologic regime is characterized by extreme events (i.e., oods and droughts). This nding explains the strong temporal shifts in the impact that WWTP e uent inputs have on the receiving streams of these regions as shown in our study.…”
Section: Discussionmentioning
confidence: 71%
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“…The impact of the WWTP effluent in the study stream was dramatic for both physical and chemical variables, especially during summer and autumn when the dilution factor was well below the 40% threshold. WWTP effluent contribution to the receiving stream highly varied (from 0 to 100%) during the year, which it is common for intermittent streams across arid and semiarid regions (Arnon et al 2015;Martí et al 2010;Bicknell et al 2020), because extreme events (i.e., floods and droughts) characterize the hydrologic regime. During high flow conditions (i.e., winter and spring), landscape features and upstream conditions strongly influence stream physical and chemical characteristics, whereas these characteristics become increasingly determined by WWTP effluent inputs as the dilution capacity of the receiving stream decreases due to upstream flow reduction (i.e., summer) (Keller et al 2014).…”
Section: Discussionmentioning
confidence: 99%
“…However, understanding variation in in-stream nutrient processing over time in rivers that receive WWTP effluent inputs is essential for management of freshwater resources in urban landscapes. This is especially true for landscapes with water scarcity, such as the Mediterranean region, where the dilution capacity of receiving streams can vary from 0% to > 95% (Martí et al 2010;Bicknell et al 2020), encompassing large seasonal changes in both water mean residence time and stream nutrient concentrations downstream of WWTP effluent inputs. In this context, we aimed to assess the temporal variability and controlling factors of nutrient uptake in a Mediterranean stream with an intermittent hydrologic regime receiving WWTP effluent inputs.…”
Section: Introductionmentioning
confidence: 99%