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1. Gender identities, water insecurity, and risk: Re‐theorizing the connections for a gender‐inclusive toolkit for water insecurity research

   https://doi.org/10.1002/wat2.1685  

   Brewis, Alexandra ; DuBois, L. Zachary ; Wutich, Amber ; Adams, Ellis Adjei ; Dickin, Sarah ; Elliott, Susan J. ; Empinotti, Vanessa Lucena ; Harris, Leila M. ; Ilboudo Nébié, Elisabeth ; Korzenevica, Marina ( August 2023 , WIREs Water)

   Informed by decades of literature, water interventions increasingly deploy “gender‐sensitive” or even “gender transformative” approaches that seek to redress the disproportionate harms women face from water insecurity. These efforts recognize the role of gendered social norms and unequal power relations but often focus narrowly on the differences and dynamics between cisgender (cis) men and women. This approach renders less visible the ways that living with water insecurity can differentially affect all individuals through the dynamics of gender, sexuality, and linked intersecting identities. Here, we first share a conceptual toolkit that explains gender as fluid, negotiated, and diverse beyond the cis‐binary. Using this as a starting point, we then review what is known and can be theorized from current literature, identifying limited observations from water‐insecure communities to identify examples of contexts where gendered mechanisms (such as social norms) differentiate experiences of water insecurity, such as elevating risks of social stigma, physical harm, or psychological distress. We then apply this approach to consider expanded ways to include transgender, non‐binary, and gender and sexual diversity to deepen, nuance and expand key thematics and approaches for water insecurity research. Reconceptualizing gender in these ways widens theoretical possibilities, changes how we collect data, and imagines new possibilities for effective and just water interventions.

   This article is categorized under:

   Human Water > Value of Water

   Engineering Water > Water, Health, and Sanitation

   Human Water > Water as Imagined and Represented

   Human Water > Methods

    

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2. MAD water: Integrating modular, adaptive, and decentralized approaches for water security in the climate change era

   https://doi.org/10.1002/wat2.1680  

   Wutich, Amber ; Thomson, Patrick ; Jepson, Wendy ; Stoler, Justin ; Cooperman, Alicia D. ; Doss‐Gollin, James ; Jantrania, Anish ; Mayer, Alex ; Nelson‐Nuñez, Jami ; Walker, W. Shane ; et al ( July 2023 , WIREs Water)

   Centralized water infrastructure has, over the last century, brought safe and reliable drinking water to much of the world. But climate change, combined with aging and underfunded infrastructure, is increasingly testing the limits of—and reversing gains made by—this approach. To address these growing strains and gaps, we must assess and advance alternatives to centralized water provision and sanitation. The water literature is rife with examples of systems that are neither centralized nor networked, yet meet water needs of local communities in important ways, including: informal and hybrid water systems, decentralized water provision, community‐based water management, small drinking water systems, point‐of‐use treatment, small‐scale water vendors, and packaged water. Our work builds on these literatures by proposing a convergence approach that can integrate and explore the benefits and challenges of modular, adaptive, and decentralized (“MAD”) water provision and sanitation, often foregrounding important advances in engineering technology. We further provide frameworks to evaluate justice, economic feasibility, governance, human health, and environmental sustainability as key parameters of MAD water system performance.

   This article is categorized under:

   Engineering Water > Water, Health, and Sanitation

   Human Water > Water Governance

   Engineering Water > Sustainable Engineering of Water

    

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3. An overview of the hydrology of non‐perennial rivers and streams

   https://doi.org/10.1002/wat2.1504  

   Shanafield, Margaret ; Bourke, Sarah A. ; Zimmer, Margaret A. ; Costigan, Katie H. ( February 2021 , WIREs Water)

   Non‐perennial rivers and streams are ubiquitous on our planet. Although several metrics have been used to statistically group or compare streamflow characteristics, there is currently no widely used definition of how many days or over what reach length surface flow must cease in order to classify a river as non‐perennial. At the same time, the breadth of climate and geographic settings for non‐perennial rivers leads to diversity in their flow regimes, such as how often or how quickly they go dry. These rivers have a rich and expanding body of literature addressing their ecologic and geomorphic features, but are often said to be ignored by hydrologists. Yet there is much we do know about their hydrology in terms of streamflow generation processes, water losses, and variability in flow. We also know that while they are prevalent in arid regions, they occur across all climate types and experience a diverse set of natural and anthropogenic controls on streamflow. Furthermore, measuring and modeling the hydrology of these rivers presents a distinct set of challenges, and there are many research directions, which still require further attention. Therefore, we present an overview of the current understanding, methodologic challenges, knowledge gaps, and research directions for hydrologic understanding of non‐perennial rivers; critical topics in light of both growing global water scarcity and ever‐changing laws and policies that dictate whether and how much environmental protection these rivers receive.

   This article is categorized under:

   Science of Water > Science of Water

    

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4. Coping strategies for individual and household‐level water insecurity: A systematic review

   https://doi.org/10.1002/wat2.1477  

   Venkataramanan, Vidya ; Collins, Shalean M. ; Clark, Kathleen A. ; Yeam, Julia ; Nowakowski, Virginia G. ; Young, Sera L. ( August 2020 , WIREs Water)

   Household water insecurity is a complex socioecological challenge with a range of consequences for health and wellbeing. Understanding individual and household‐level coping strategies, i.e., responses or adaptations to manage water insecurity, can shape future research and development practice. We therefore (a) systematically describe the characteristics and contexts of 173 studies documenting coping strategies and (b) classify the types of strategies within four domains of water insecurity: access, use, quality, and reliability. Most studies were from Sub‐Saharan Africa or South Asia. In the domain of access, the most common coping strategies were building infrastructure, and storing, purchasing, and sharing water. For use, changing food consumption, agricultural practices, and hygiene were most frequently mentioned. For quality, water treatment was the most common strategy. To ensure water reliability, people most frequently reported changing routines or relocating their homes altogether. Our review provides a useful framework to understand coping strategies, but more research is needed to address three gaps in particular. First, we recommend more representative exploration of the range of coping strategies, particularly in middle‐ and high‐income countries. Second, the links between coping with water insecurity and a range of other nutritional, social, financial, and health outcomes need to be better understood to address overall household wellbeing. Third, we recommend the development of a metric to quantify individual and household‐level water insecurity‐related coping strategies. This line of inquiry can enable practitioners to design and implement context‐specific interventions that leverage preexisting strategies to improve experiences of water insecurity.

   This article is categorized under:

   Human Water > Water Governance

   Engineering Water > Planning Water

    

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5. Aquatic ecosystem metabolism as a tool in environmental management

   https://doi.org/10.1002/wat2.1521  

   Jankowski, Kathi Jo ; Mejia, Francine H. ; Blaszczak, Joanna R. ; Holtgrieve, Gordon W. ( March 2021 , WIREs Water)

   Recent advances in high‐frequency environmental sensing and statistical approaches have greatly expanded the breadth of knowledge regarding aquatic ecosystem metabolism—the measurement and interpretation of gross primary productivity (GPP) and ecosystem respiration (ER). Aquatic scientists are poised to take advantage of widely available datasets and freely‐available modeling tools to apply functional information gained through ecosystem metabolism to help inform environmental management. Historically, several logistical and conceptual factors have limited the widespread application of metabolism in management settings. Benefitting from new instrumental and modeling tools, it is now relatively straightforward to extend routine monitoring of dissolved oxygen (DO) to dynamic measures of aquatic ecosystem function (GPP and ER) and key physical processes such as gas exchange with the atmosphere (G). We review the current approaches for using DO data in environmental management with a focus on the United States, but briefly describe management frameworks in Europe and Canada. We highlight new applications of diel DO data and metabolism in regulatory settings and explore how they can be applied to managing and monitoring ecosystems. We then review existing data types and provide a short guide for implementing field measurements and modeling of ecosystem metabolic processes using currently available tools. Finally, we discuss research needed to overcome current conceptual limitations of applying metabolism in management settings. Despite challenges associated with modeling metabolism in rivers and lakes, rapid developments in this field have moved us closer to utilizing real‐time estimates of GPP, ER, and G to improve the assessment and management of environmental change.

   This article is categorized under:

   Water and Life > Nature of Freshwater Ecosystems

   Water and Life > Conservation, Management, and Awareness

    

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