Simulating the Impact of Land Use Change on Contaminant Transferal during Flood Events in Houston, Texas

IF 1.3 0 ARCHITECTURE

Landscape Journal Pub Date : 2022-01-18 DOI:10.3368/lj.40.2.79

Rui Zhu, Galen D. Newman, Kayode O. Atoba

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引用次数: 4

Abstract

Many studies have evaluated the impacts of urbanization on runoff and non-point source pollutants, few studies have combined hydrologic and water quality simulation models with spatial analyses to assess these impacts at the neighborhood scale, thereby exposing any environmental inequalities. This study applies the Long-Term Hydrologic Impact Assessment (L-THIA) model in Houston, TX, to estimate the current and future urban runoff and nonpoint pollutants for 88 Houston super-neighborhoods. We use hotspot analysis to explore the effects of land use changes on runoff and pollutant loads under different socioeconomic conditions. Comparing current land uses with the predicted 2045 Houston land uses shows that runoff and non-point source pollutants in all Houston super-neighborhoods would worsen by 55%, on average. Particularly, nitrogen, phosphorous, and nickel would have the greatest increase (76.88%, 60.29%, and 59.23%, respectively). Bacterial pollutants, including fecal coliform and fecal strep, are projected to increase by more than 60%. Results also show that disadvantaged communities tend to experience increased flood risk and are likely to face more public health problems from contaminant exposure, compared with advantaged communities. To reduce these risks, prevention and mitigation efforts should be diverted toward improving green infrastructure. Advocacy planning is needed to empower marginalized neighborhoods to combat inequitable effects related to land use change.

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模拟休斯顿洪水期间土地利用变化对污染物转移的影响

许多研究评估了城市化对径流和非点源污染物的影响，很少有研究将水文和水质模拟模型与空间分析相结合，在社区范围内评估这些影响，从而暴露出任何环境不平等。本研究应用德克萨斯州休斯顿的长期水文影响评估（L-THIA）模型，估计了88个休斯顿超级社区当前和未来的城市径流和非点污染物。我们使用热点分析来探讨不同社会经济条件下土地利用变化对径流和污染物负荷的影响。将目前的土地利用与预测的2045年休斯顿土地利用进行比较表明，休斯顿所有超级社区的径流和非点源污染物平均将恶化55%。特别是，氮、磷和镍的增幅最大（分别为76.88%、60.29%和59.23%）。细菌污染物，包括粪大肠菌群和粪链球菌，预计将增加60%以上。结果还表明，与优势社区相比，弱势社区往往面临更高的洪水风险，并可能因污染物暴露而面临更多的公共卫生问题。为了减少这些风险，预防和缓解工作应该转向改善绿色基础设施。需要进行宣传规划，以增强边缘化社区的能力，对抗与土地利用变化有关的不公平影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Landscape Journal ARCHITECTURE-

CiteScore

0.90

自引率

0.00%

发文量

期刊介绍： The mission of landscape architecture is supported by research and theory in many fields. Landscape Journal offers in-depth exploration of ideas and challenges that are central to contemporary design, planning, and teaching. Besides scholarly features, Landscape Journal also includes editorial columns, creative work, reviews of books, conferences, technology, and exhibitions. Landscape Journal digs deeper into the field by providing articles from: • landscape architects • geographers • architects • planners • artists • historians • ecologists • poets