Modeling Urban Hydrology and Green Infrastructure Using the AGWA Urban Tool and the KINEROS2 Model

Korgaonkar, Yoganand; Guertin, D. Phillip; Goodrich, David C.; Unkrich, Carl L.; Kepner, William G.; Burns, I. Shea

doi:10.3389/fbuil.2018.00058

Cited by 17 publications

(17 citation statements)

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“…In addition to spatial variation of inputs (land use, slope, soils and rainfall), the spatial variation of outputs (infiltration, runoff, and erosion) can be accommodated (Goodrich et al, 2012). KINEROS has been used to determine the effects of various artificial features such as small detention reservoirs, green infrastructure, and gabion rock detention structures on flood hydrographs and sediment yield (Kennedy et al, 2013;Korgaonkar et al, 2018). In AGWA 3.x the Nogales Watershed was delineated and discretized using a mosaiced 0.6 m digital elevation model (DEM modified from the Santa Cruz County LiDAR dataset).…”

Section: Hydrological Modelingmentioning

confidence: 99%

“…This land-use reclassification allows for a rapid evaluation of the different hydrologic responses to landscape changes and an assessment of maximum benefits to target mitigation activities (Norman et al, 2010a). The implementation of UGI in KINEROS with AGWA 3.x was highly simplified in order to model a large spatial area efficiently using existing model tools (Korgaonkar et al, 2018). While modeling UGI as wetlands has been previously vetted as an appropriate approach, there are important site-specific characteristics that are not captured.…”

Section: Hydrological Modelingmentioning

confidence: 99%

“…Geospatial watershed models address the spatial variation that might occur in a landscape including variations in geology, soils, vegetation, land use/land cover, and precipitation patterns. Best management practices, such as stormwater control, can be input to models to determine the optimal placement for making desired improvements (Avellaneda et al, 2017;Korgaonkar et al, 2018), including for flood mitigation (Zellner et al, 2016), water quality (Korgaonkar et al, 2021) and equity (Garcia-Cuerva et al, 2018). Watershed models of Ambos Nogales have been used to predict impacts of best management practices , identify hotspots of erosion , and situate large rock detention structures (gabions) for optimal flood detention (Norman et al, 2010a,b).…”

Section: Introductionmentioning

confidence: 99%

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Integrating Urban Planning and Water Management Through Green Infrastructure in the United States-Mexico Border

et al. 2022

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Creating sustainable, resilient, and livable cities calls for integrative approaches and collaborative practices across temporal and spatial scales. However, practicability is challenged by institutional, social, and technical complexities and the need to build collective understanding of integrated approaches. Rapid urbanization along the United States-Mexico border, fueled by industrialization, trade, and migration, has resulted in cities confronted with recurrent flooding risk, extended drought, water pollution, habitat destruction and systemic vulnerabilities. The international border, which separates natural and built ecosystems, is both a challenge and an opportunity, making a unique social and institutional setting ideal for testing the integration of urban planning and water management. Our research focuses on fusing multi-functional and multi-scalar green infrastructure to restore ecosystem services through a strategic binational planning process. This paper describes this planning process, including the development and application of both a land suitability analysis and a hydrological model to optimally site green infrastructure in the Nogales, Arizona, United States—Nogales, Sonora, Mexico, cross border region. We draw lessons from this process and stakeholder feedback focused on the potential for urban green infrastructure, to allow for adaptation and even transformation in the face of current and future challenges such as limited resources, underdeveloped governance, bordering, and climate change. In sum, a cross border network of green infrastructure can provide a backbone to connect this transboundary watershed while providing both hydrological and social benefits.

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Section: Hydrological Modelingmentioning

confidence: 99%

Section: Hydrological Modelingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Integrating Urban Planning and Water Management Through Green Infrastructure in the United States-Mexico Border

et al. 2022

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“…Green infrastructure has been proposed, and plans have been developed, for the twin city area over the past 10-20 years (Norman 2005;Norman et al 2008aNorman et al , b, 2010aViani 2019). The use of green infrastructure as a stormwater mitigation tool has been demonstrated to have significant hydrological impacts in other watersheds, and modeling in this region indicates that it could have potential to reduce runoff from flooding events (Norman et al 2008a(Norman et al , b, 2010aKorgaonkar et al 2018;Pennino et al 2016). In 2020, a proposal to develop "Sustainable Strategies for Stormwater and Combined Sewer Overflows Control in Ambos Nogales" was selected for funding by the North American Development Bank (NADBANK), a binational financial institution run by the Federal Governments of the USA and Mexico.…”

Section: Local Flood Management Tools and Policymentioning

confidence: 99%

Flood resilience in paired US–Mexico border cities: a study of binational risk perceptions

et al. 2022

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Disastrous floods in the twin cities of Nogales, Arizona, USA, and Nogales, Sonora, Mexico (collectively referred to as Ambos Nogales) occur annually in response to monsoonal summer rains. Flood-related hazards include property damage, impairment to sewage systems, sewage discharge, water contamination, erosion, and loss of life. Flood risk, particularly in Nogales, Sonora, is amplified by informal, “squatter” settlements in the watershed floodplain and associated development and infrastructure. The expected increase in precipitation intensity, resulting from climate change, poses further risk to flooding therein. We explore binational community perceptions of flooding, preferences for watershed management, and potential actions to address flooding and increase socio-ecological resilience in Ambos Nogales using standardized questionnaires and interviews to collect data about people and their preferences. We conducted 25 semi-structured interviews with local subject matter experts and gathered survey responses from community members in Ambos Nogales. Though survey response was limited, expected frequencies were high enough to conduct Chi-squared tests of independence to test for statistically significant relationships between survey variables. Results showed that respondents with previous experience with flooding corresponded with their level of concern about future floods. Additionally, respondents perceived greater flood-related risks from traveling across town and damage to vehicles than from inundation or damages to their homes or neighborhoods. Binationally, women respondents felt less prepared for future floods than men. On both sides of the border, community members and local experts agreed that Ambos Nogales lacks adequate preparation for future floods. To increase preparedness, they recommended flood risk education and awareness campaigns, implementation of green infrastructure, additional stormwater infrastructure (such as drainage systems), enhanced flood early warning systems, and reduction of flood flows through regulations to reduce the expansion of hard surfaces. This study contributes systematic collection of information about flood risk perceptions across an international border, including novel data regarding risks related to climate change and gender-based assessments of flood risk. Our finding of commonalities across both border communities, in perceptions of flood risk and in the types of risk reduction solutions recommended by community members, provides clear directions for flood risk education, outreach, and preparedness, as well as measures to enhance cross-border cooperation.

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“…Apart from water demands, the characteristics of the built environment also co-determine flood risk. Installation of low impact development practices, such as rain gardens, permeable pavement, and riparian buffers, decrease surface runoff and peak flows (Korgaonkar et al, 2018;Hoghooghi et al, 2018).…”

Section: Dimension #6: Planning and Urban Designmentioning

confidence: 99%

Integrated water management recommendations in practice: coexistence of old and new ways in Arizona

2020

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Integrated water management (IWM) is widely regarded as a key strategy in achieving a variety of urban sustainability goals. Despite the promise of this strategy, however, uptake of IWM practices has generally been slow. A central reason for this lies in the divergence of action recommendations in the literature and actual water management praxis. In this paper, we explore how action taken by governments relate (or not) to IWM dimensions found in the literature. We do this by combining a corpus of actions taken by local governments in Arizona with a systematic review of the IWM literature. More precisely, we identify a confined set of IWM action dimensions particularly relevant to current praxis and apply these to water management practices reported by local governments in Arizona. We find that governments in the state systematically use IWM strategies to complement or enhance traditional water management approaches. Uptake differs across management spheres in terms of magnitude and form and is informed by contextual characteristics. Overall, our study indicates that transition may be guided by bottom-up experimentation, context-sensitive selection, and incremental change. This is in contrast to how IWM is often understood in the literature – as sharp shift and break with old traditions.

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Modeling Urban Hydrology and Green Infrastructure Using the AGWA Urban Tool and the KINEROS2 Model

Cited by 17 publications

References 56 publications

Integrating Urban Planning and Water Management Through Green Infrastructure in the United States-Mexico Border

Integrating Urban Planning and Water Management Through Green Infrastructure in the United States-Mexico Border

Flood resilience in paired US–Mexico border cities: a study of binational risk perceptions

Integrated water management recommendations in practice: coexistence of old and new ways in Arizona

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