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1. Optimizing Investments in Alternative Water Infrastructure for Urban Food Production in Water Stressed Cities

   https://doi.org/10.1029/2024WR039025  

   Zhong, Qing; Tong, Daoqin; Crosson, Courtney; Zhang, Yinan; Bhushan, Rashi (February 2025, Water Resources Research)

   Abstract Urban agriculture has significant potential to address food security and nutritional challenges in cities. However, water access for urban food production poses a major challenge in the face of climate change and growing global freshwater scarcity, particularly in arid and semi‐arid areas. To support sustainable urban food production, this study focuses on a hybrid urban water system that integrates two important alternative water resources: a decentralized system of rainwater harvesting (RWH) and a centralized reclaimed water system. A new spatial optimization model is developed to identify the best investment strategy for deploying these two alternative water infrastructures to expand urban food production. The model is applied to the case study in Tucson, Arizona, a semi‐arid city in U.S. Southwest, to address food deserts in the region. Results show that 72%–96% of the investment is allocated to rainwater tanks deployment across all investment scenarios, with the proportion of investment in rainwater harvesting increasing as total investment rises. However, rainwater contributes only about 18%–27% of the total food production. The results of our case study indicate that expanding the reclaimed water network is more effective for urban food production and is also more cost‐efficient compared to implementing rainwater tanks. The new model can be applied to other regions, taking into account factors such as crop types, climate, soil conditions, infrastructure configurations, costs, and other site‐specific variables. The study provides valuable insights for planning urban water systems that incorporate alternative water sources under different investment scenarios. 

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2. Understanding the Impact of Institutions on Climate‐Adaptive Policy Designs: A Study of Collective Action Inference in Urban Water Systems

   https://doi.org/10.1111/psj.70060  

   Deslatte, Aaron; Adams, Jeffery A; Cheema, Faisal; Barnes, Jesse L; Koebele, Elizabeth A; Alonso_Vicario, Sara (August 2025, Policy Studies Journal)

   Feedback is ubiquitous in complex systems and critical to the process of designing public policies to solve problems such as climate adaptation. However, well‐known cognitive and institutional constraints can impact information feedback processes, limiting a system's ability to incorporate feedback into policy designs. This study analyzes the role that institutions play in regulating feedback in coupled infrastructure systems (CIS) to support the development of climate‐adaptive policies. Focusing on urban water systems, we ask:how do multilevel institutions governing information processing influence urban water systems' climate‐adaptive policy responses?Using the CIS framework, we develop a theoretical argument for policy design based on the cognitive model of active inference. Drawing on hydrological, administrative, media, interview, and institutional data, we trace two urban water systems' policy design processes over a decade. We find that successive waves of state‐level changes to water planning rules prompted more “exploratory” information processing during the study period. Moreover, an urban water utility's ownership type (public vs. investor‐owned) influenced how expected climate impacts were incorporated into policy designs. These findings provide insight into how institutional arrangements shape policy designs and suggest ways such arrangements may be altered to enable adaptive responses in the face of environmental uncertainty. 

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3. A Multi-Pronged approach to Reducing Legionella Risks

   Hamilton, Kerry (November 2023, American Public Health Association Annual Meeting)

   Session co-presenters: Weir M, Mitchell J, Fung D, Ross K, Hannapel L, Edens C. Session: Legionella in the Built Environment: Emerging research, practices, and policies. American Public Health Association (APHA), Atlanta, GA, November 12, 2023. 

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4. Energy use for urban water management by utilities and households in Los Angeles

   https://doi.org/10.1088/2515-7620/ab5e20  

   Porse, Erik; Mika, Kathryn B.; Escriva-Bou, Alvar; Fournier, Eric D.; Sanders, Kelly T.; Spang, Edward; Stokes-Draut, Jennifer; Federico, Felicia; Gold, Mark; Pincetl, Stephanie (January 2020, Environmental Research Communications)

   Abstract Reducing energy consumption for urban water management may yield economic and environmental benefits. Few studies provide comprehensive assessments of energy needs for urban water sectors that include both utility operations and household use. Here, we evaluate the energy needs for urban water management in metropolitan Los Angeles (LA) County. Using planning scenarios that include both water conservation and alternative supply options, we estimate energy requirements of water imports, groundwater pumping, distribution in pipes, water and wastewater treatment, and residential water heating across more than one hundred regional water agencies covering over 9 million people. Results show that combining water conservation with alternative local supplies such as stormwater capture and water reuse (nonpotable or indirect potable) can reduce the energy consumption and intensity of water management in LA. Further advanced water treatment for direct potable reuse could increase energy needs. In aggregate, water heating represents a major source of regional energy consumption. The heating factor associated with grid-supplied electricity drives the relative contribution of energy-for-water by utilities and households. For most scenarios of grid operations, energy for household water heating significantly outweighs utility energy consumption. The study demonstrates how publicly available and detailed data for energy and water use supports sustainability planning. The method is applicable to cities everywhere. 

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5. Advancing a Net Zero Urban Water Future in the US Southwest: Governance and Policy Challenges and Future Needs

   Crosson, Courtney; Bhushan, Rashi (May 2024, Online www.netzerowater.org)

   This policy brief synthesizes the findings from a three-day workshop held at University of Arizona in April 2023, focused on identifying the governance and policy challenges to a NZUW future in the Southwest US. The workshop involved water managers, non-governmental organizations, and academics from across the Southwest, and was part of a four-year National Science Foundation Research Coordination Network (RCN) grant under the Dynamic and Integrated Socio-Environmental Systems (DISES) Program. The ultimate purpose of this DISES-RCN is to define and examine the viability and value of pursuing a NZUW approach in arid and semi-arid urban scenarios of Albuquerque, Denver, Los Angeles, and Tucson, all serviced by the Colorado River. A NZUW approach meets the needs of a given community with a locally available and sustainable water supply, without detriment to interconnected systems or long-term water supply (1). It is an integrative approach that uses progressive targets and a quantitative assessment framework to adapt to challenges created by multiple drivers of change in the urban water system. The findings detailed in this policy brief have been published in a recent ACS ES&T Water article titled “Advancing a Net Zero Urban Water Future in the United States Southwest: Governance and Policy Challenges and Future Needs” (2). This RCN is spearheaded by the University of Arizona, Colorado School of Mines, Colorado State University, University of New Mexico, and University of California Los Angeles, in collaboration with Tucson Water, Denver Water, Albuquerque Bernalillo County Water Utility Authority, and Los Angeles Department of Water and Power. The NZUW research network aims to improve the sustainability, resilience, and adaptation of urban water systems impacted by the Colorado river crisis and the recent reductions in their water allocations imposed by the Bureau of Reclamation (3). 

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