Hydrologic investigations of green infrastructure by the Central Midwest Water Science Center

Q4 Environmental Science
Allison A. Atkinson, David C. Heimann, Clinton R. Bailey
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Abstract

First posted October 18, 2023 For additional information, contact: Central Midwest Water Science CenterU.S. Geological Survey405 North Goodwin Urbana, IL 61801Contact Pubs Warehouse The water management system within developed communities includes stormwater, wastewater, and drinking-water sources and sinks. Each water management system component provides critical services that support public health in these areas. Stormwater can be quite variable and difficult to manage in developed communities because the amount of stormwater that must be routed through a developed area depends on changing land cover and variable precipitation. In addition to flooding concerns, stormwater also is a major cause of water contamination in developed communities because it carries contaminants such as trash, bacteria, heavy metals, and sediments to local waterways. Historically, communities have managed stormwater with gray infrastructure such as street gutters, culverts, sewer systems, and tunnels. Although these structures efficiently capture and route stormwater to a local waterway or treatment plant, they do not filter any contaminants. Furthermore, many older communities have combined storm sewer and sanitary sewer systems. These combined systems result in an excessive amount of wastewater to be treated before being released into receiving water or the untreated waters are released directly to receiving waters during storms. Many communities are now incorporating green infrastructure stormwater mitigating solutions—pervious surfaces (allows water through), grassed swales, bioretention basins, and rain gardens—into their stormwater-management systems. Green infrastructure can absorb and filter stormwater where it falls by taking advantage of natural soil and plant storage and filtration capabilities. Thus, green infrastructure projects can potentially reduce the amount of stormwater and the concentration and transport of contaminants. Increasing green infrastructure in a developed community may reduce the requirements for new storm sewer infrastructure, improve the water quality of nearby waterways, and enhance aesthetics. The U.S. Geological Survey has partnered with several cooperators to quantify the effects of green infrastructure projects in several developed communities throughout the central Midwest. As part of these green infrastructure projects, the U.S. Geological Survey Central Midwest Water Science Center and cooperators installed, calibrated, and monitored equipment to measure hydrologic responses (including flooding and water movement) and selected water-quality constituents in developed communities.
中西部水科学中心对绿色基础设施的水文调查
欲了解更多信息,请联系:美国中西部水科学中心。发达社区的水管理系统包括雨水、废水、饮用水源和水槽。每个水管理系统组成部分都提供支持这些地区公共卫生的关键服务。在发达社区,雨水变化很大,很难管理,因为必须流经发达地区的雨水量取决于不断变化的土地覆盖和不断变化的降水。除了洪水问题,雨水也是发达社区水污染的主要原因,因为它将垃圾、细菌、重金属和沉积物等污染物带入当地水道。从历史上看,社区用灰色基础设施如街道排水沟、涵洞、下水道系统和隧道来管理雨水。虽然这些结构有效地捕获并将雨水输送到当地的水道或处理厂,但它们不能过滤任何污染物。此外,许多较老的社区将雨水下水道和卫生下水道系统结合起来。这些组合系统导致大量废水在排放到接收水中之前需要处理,或者在暴风雨期间未经处理的水直接排放到接收水中。许多社区现在正在将绿色基础设施纳入其雨水管理系统,包括透水表面(允许水通过)、草皮洼地、生物保留区和雨水花园。绿色基础设施可以利用天然土壤和植物的储存和过滤能力来吸收和过滤雨水。因此,绿色基础设施项目可以潜在地减少雨水的数量以及污染物的集中和运输。在发达社区增加绿色基础设施可以减少对新的雨水下水道基础设施的需求,改善附近水道的水质,并增强美观。美国地质调查局(U.S. Geological Survey)与几个合作伙伴合作,量化了整个中西部中部几个发达社区的绿色基础设施项目的效果。作为这些绿色基础设施项目的一部分,美国地质调查局中西部水科学中心及其合作者安装、校准和监测设备,以测量发达社区的水文反应(包括洪水和水运动)和选定的水质成分。
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
U.S. Geological Survey Fact Sheet
U.S. Geological Survey Fact Sheet Environmental Science-Water Science and Technology
CiteScore
0.40
自引率
0.00%
发文量
68
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