Life Cycle Assessment of Urine Diversion and Conversion to Fertilizer Products at the City Scale

Hilton, Stephen P.; Keoleian, Gregory A.; Zhou, Bowen; Love, Nancy G.

doi:10.1021/acs.est.0c04195

Cited by 56 publications

(33 citation statements)

References 116 publications

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“…This also makes sense from an environmental point of view. Whereas a number of life cycle assessments have consistently shown that urine source separation is environmentally beneficial, [45][46][47][48][49] this is strongly dependent on the ability to off-set synthetic fertilizer 45 and the ability to produce a fertilizer product with low nitrogen emissions during spreading. 50 We thus observe three positive aspects of urine source separation with respect to the SDGs.…”

Section: Urine Source-separation As An Enabling Technology To Reach the Water-related Sdgsmentioning

confidence: 99%

The potential contribution of urine source separation to the SDG agenda – a review of the progress so far and future development options

Larsen

Gruendl²,

Binz

2021

Environ. Sci.: Water Res. Technol.

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Section: Urine Source-separation As An Enabling Technology To Reach the Water-related Sdgsmentioning

confidence: 99%

The potential contribution of urine source separation to the SDG agenda – a review of the progress so far and future development options

Larsen

Gruendl²,

Binz

2021

Environ. Sci.: Water Res. Technol.

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“…Human excreta are the primary source of essential nutrients in domestic wastewater. Urine contains an estimated 50% of P and 80% of N present in domestic wastewater while accounting for less than 1% of wastewater volume [ 7 ]. Source-separation of urine for fertilizer production can reduce the environmental impact compared to synthetic fertilizers [ 7 , 8 ].…”

Section: Introductionmentioning

confidence: 99%

“…Urine contains an estimated 50% of P and 80% of N present in domestic wastewater while accounting for less than 1% of wastewater volume [ 7 ]. Source-separation of urine for fertilizer production can reduce the environmental impact compared to synthetic fertilizers [ 7 , 8 ]. Hilton et al [ 7 ] assessed that fertilizer production from source-separated urine could reduce greenhouse gas emissions by 47%, energy consumption by 41%, eutrophication potential by 64%, and freshwater use by 50% compared to synthetic fertilizer use.…”

Section: Introductionmentioning

confidence: 99%

Root-Associated Bacterial Community Shifts in Hydroponic Lettuce Cultured with Urine-Derived Fertilizer

et al. 2021

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Recovery of nutrients from source-separated urine can truncate our dependency on synthetic fertilizers, contributing to more sustainable food production. Urine-derived fertilizers have been successfully applied in soilless cultures. However, little is known about the adaptation of the plant to the nutrient environment. This study investigated the impact of urine-derived fertilizers on plant performance and the root-associated bacterial community of hydroponically grown lettuce (Lactuca sativa L.). Shoot biomass, chlorophyll, phenolic, antioxidant, and mineral content were associated with shifts in the root-associated bacterial community structures. K-struvite, a high-performing urine-derived fertilizer, supported root-associated bacterial communities that overlapped most strongly with control NPK fertilizer. Contrarily, lettuce performed poorly with electrodialysis (ED) concentrate and hydrolyzed urine and hosted distinct root-associated bacterial communities. Comparing the identified operational taxonomic units (OTU) across the fertilizer conditions revealed strong correlations between specific bacterial genera and the plant physiological characteristics, salinity, and NO3-/NH4+ ratio. The root-associated bacterial community networks of K-struvite and NPK control fertilized plants displayed fewer nodes and node edges, suggesting that good plant growth performance does not require highly complex ecological interactions in hydroponic growth conditions.

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“…Conducting our study in the New England and the Upper Midwest regions enabled us to consider how both geographic location and scale of implementation will influence patterns of adoption. Several recent studies have addressed the value of urine reclamation to achieve sustainability goals, including completing nutrient cycles and reducing greenhouse gas emissions (see Hilton et al, 2021;Legrand et al, 2020;Simha & Ganesapillai, 2017). Other site-specific social studies conducted across the globe on urine diversion have emphasized different facets of the complex risks and understandings caught up in both the technological implementation and agricultural reuse of human urine.…”

Section: Introductionmentioning

confidence: 99%

“…The wider project of which our work is part explores how human urine has the potential to complete the nutrient cycle (preventing nutrient pollution and supporting sustainable agriculture) while also reducing greenhouse gas emissions (Hilton et al, 2021). 1 From the wastewater perspective, urine contributes approximately 75% of the nitrogen and 50% of the phosphorus in domestic wastewater (Vinnerås, 2006), nutrients which are rarely removed before their discharge into waterways, resulting in nutrient pollution that contributes to harmful algal blooms.…”

Section: Introductionmentioning

confidence: 99%

Nested risks and responsibilities: Perspectives on fertilizer from human urine in two U.S. regions

Schreiber

Opperman

Hardin

et al. 2021

J. Agric. Food Syst. Community Dev.

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This paper reports on social research investigating perceptions concerning the diversion of urine from the waste stream and its use as fertilizer in two study regions, New England and the Upper Midwest. We hypothesized that discomfort or disgust might affect acceptance of such a shift in human “waste” management. However, our findings suggest that a more significant concern of those potentially involved in this process may be distrust of how economic interests influence scientific and technical information. Both physical risks (to the environment and public health) and socio-political risks (to fragile farm economies and consumer communities) play out at individual, household, regional, and global scales. We describe the intersection of these complex understandings as nested risks and responsibilities that must inform the future of urine reclamation. Our respondents' shared concern about environmental risks has already galvanized communities to take responsibility for implementing closed-loop alternatives to current agricultural inputs and waste management practices in their communities. Attention to these nested understandings of both risk and responsibility should shape research priorities and foster participatory approaches to urine nutrient reclamation, including strategies for education, planning, regulation, technology design, and agricultural application.

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Life Cycle Assessment of Urine Diversion and Conversion to Fertilizer Products at the City Scale

Cited by 56 publications

References 116 publications

The potential contribution of urine source separation to the SDG agenda – a review of the progress so far and future development options

The potential contribution of urine source separation to the SDG agenda – a review of the progress so far and future development options

Root-Associated Bacterial Community Shifts in Hydroponic Lettuce Cultured with Urine-Derived Fertilizer

Nested risks and responsibilities: Perspectives on fertilizer from human urine in two U.S. regions

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