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The Projected Impact of a Neighborhood-Scaled Green-Infrastructure Retrofit

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  • Manasvini Thiagarajan

    (Department of Landscape Architecture and Urban Planning, Texas A&M University, College Station, TX 77843, USA)

  • Galen Newman

    (Department of Landscape Architecture and Urban Planning, Texas A&M University, College Station, TX 77843, USA)

  • Shannon Van Zandt

    (Department of Landscape Architecture and Urban Planning, Texas A&M University, College Station, TX 77843, USA)

Abstract

Climate change and its related factors are increasing the frequency of hurricanes, coastal storms, and urban flooding. Recovery from disasters can be slow, with jurisdictions failing to rebuild better, wasting time and money without improving resilience for the next disaster. To help attenuate floods and mitigate their impact, Low-Impact Development (LID) and the incorporation of green infrastructure (GI) is gaining in popularity. LID includes more natural methods of absorbing, redirecting, retaining, and filtering water through GI installations such as rain gardens, detention ponds, and the reduction of impervious surfaces. LID is, however, primarily implemented and evaluated only on a local scale; few studies have assessed the broader impact of GI on a larger scale. In fact, most performance calculators that evaluate the effects of GI are only useful at the site scale. Further, most GI advocates propose its use in new developments without much attention to retrofitting existing suburban development. This article seeks to determine what the potential effects of retrofitting an existing suburban neighborhood with GI for flood protection at a larger scale could be, using Sugar Land, Texas, United States as a case site. First, low-impact facilities are proposed and schematically designed at a site scale for a typical single-family lot. The volume of rainfall that can be retained on site, due to each incorporated feature, was then derived using the Green Values National Stormwater Management Calculator. Using these data, the total volume of rainfall that could be retained if all residential sites in Sugar Land incorporated similar facilities was then projected. The results show that Sugar Land has the capacity to annually capture 56 billion liters of stormwater if all residential properties use LID. Additional benefits of the use of GI include reduced heat (37%), improved aesthetics and property values (20%), increased recreational opportunities (18%), improved water quality (12%), improved air quality (5%), increased green collar jobs (4%), reduced damage from harmful gas emissions (3%), and increased energy savings (1%), thereby surpassing conventional stormwater management techniques.

Suggested Citation

  • Manasvini Thiagarajan & Galen Newman & Shannon Van Zandt, 2018. "The Projected Impact of a Neighborhood-Scaled Green-Infrastructure Retrofit," Sustainability, MDPI, vol. 10(10), pages 1-13, October.
  • Handle: RePEc:gam:jsusta:v:10:y:2018:i:10:p:3665-:d:175430
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    References listed on IDEAS

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    1. Vassilios Tsihrintzis & Rizwan Hamid, 1997. "Modeling and Management of Urban Stormwater Runoff Quality: A Review," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 11(2), pages 136-164, April.
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    Cited by:

    1. Tolessa Deksissa & Harris Trobman & Kamran Zendehdel & Hossain Azam, 2021. "Integrating Urban Agriculture and Stormwater Management in a Circular Economy to Enhance Ecosystem Services: Connecting the Dots," Sustainability, MDPI, vol. 13(15), pages 1-19, July.
    2. Sami Towsif Khan & Fernando Chapa & Jochen Hack, 2020. "Highly Resolved Rainfall-Runoff Simulation of Retrofitted Green Stormwater Infrastructure at the Micro-Watershed Scale," Land, MDPI, vol. 9(9), pages 1-18, September.
    3. Sara Prybutok & Galen Newman & Kayode Atoba & Garett Sansom & Zhihan Tao, 2021. "Combining Co$ting Nature and Suitability Modeling to Identify High Flood Risk Areas in Need of Nature-Based Services," Land, MDPI, vol. 10(8), pages 1-12, August.
    4. Aline Pires Veról & Ianic Bigate Lourenço & João Paulo Rebechi Fraga & Bruna Peres Battemarco & Mylenna Linares Merlo & Paulo Canedo de Magalhães & Marcelo Gomes Miguez, 2020. "River Restoration Integrated with Sustainable Urban Water Management for Resilient Cities," Sustainability, MDPI, vol. 12(11), pages 1-36, June.
    5. Jennifer Morash & Amy Wright & Charlene LeBleu & Amanda Meder & Raymond Kessler & Eve Brantley & Julie Howe, 2019. "Increasing Sustainability of Residential Areas Using Rain Gardens to Improve Pollutant Capture, Biodiversity and Ecosystem Resilience," Sustainability, MDPI, vol. 11(12), pages 1-18, June.
    6. Aamir Mehmood Shah & Gengyuan Liu & Fanxin Meng & Qing Yang & Jingyan Xue & Stefano Dumontet & Renato Passaro & Marco Casazza, 2021. "A Review of Urban Green and Blue Infrastructure from the Perspective of Food-Energy-Water Nexus," Energies, MDPI, vol. 14(15), pages 1-24, July.
    7. Galen Newman & Garett T. Sansom & Siyu Yu & Katie R. Kirsch & Dongying Li & Youjung Kim & Jennifer A. Horney & Gunwoo Kim & Saima Musharrat, 2022. "A Framework for Evaluating the Effects of Green Infrastructure in Mitigating Pollutant Transferal and Flood Events in Sunnyside, Houston, TX," Sustainability, MDPI, vol. 14(7), pages 1-16, April.
    8. Woodruff, Sierra & Bae, Jinhyun & Sohn, Wonmin & Newman, Galen & Tran, Tho & Lee, Jessica & Wilkins, Chandler & Van Zandt, Shannon & Ndubisi, Forster, 2022. "Planning, development pressure, and change in green infrastructure quantity and configuration in coastal Texas," Land Use Policy, Elsevier, vol. 114(C).
    9. Neil Cuthill & Mengqiu Cao & Yuqi Liu & Xing Gao & Yuerong Zhang, 2019. "The Association between Urban Public Transport Infrastructure and Social Equity and Spatial Accessibility within the Urban Environment: An Investigation of Tramlink in London," Sustainability, MDPI, vol. 11(5), pages 1-18, February.

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