Green is good: establishing a green infrastructure can help protect an area's natural waterways.A linked system of trails, green ways, parks and other open space areas makes any community a better place to live. Waterways The list of waterways is a link page for any river, canal, estuary or firth. International waterways
These environmental features foster greater value for a region. A well-planned system of open space helps to attract new businesses and reduce pollution. Traditional maintenance costs are reduced because protected green areas don't require the same high level of maintenance as many traditional parks. By protecting our riparian riparian adj. referring to the banks of a river or stream. (See: riparian rights) corridors, traditional infrastructure cost is reduced, because there's less damage to that infrastructure from degradation of a waterway waterway, natural or artificial navigable inland body of water, or system of interconnected bodies of water, used for transportation, may include a lake, river, canal, or any combination of these. . Ecological restoration of park waterways and surrounding lands is most beneficial for a region when accomplished in several ways: through a holistic approach holistic approach A term used in alternative health for a philosophical approach to health care, in which the entire Pt is evaluated and treated. See Alternative medicine, Holistic medicine. to watershed management that extends beyond municipal boundaries; by using bio-stabilization with natural materials to repair damage; and by establishing preventive measures for development, improving the community at large. Let's look at each of these topics. Holistic Approach Municipal storm water management has undergone many changes in the last decade. Historically, rapid urbanization of many small watersheds has led to vast changes in the way water is channeled. Streams respond to land-use changes by incision incision /in·ci·sion/ (in-sizh´un) 1. a cut or a wound made by cutting with a sharp instrument.incis´ional 2. the act of cutting. in·ci·sion n. 1. of the channel bottom, which causes the banks to be undercut, uprooting vegetation. Stream banks begin falling into the channel, and sediment problems develop, seriously polluting pol·lute tr.v. pol·lut·ed, pol·lut·ing, pol·lutes 1. To make unfit for or harmful to living things, especially by the addition of waste matter. See Synonyms at contaminate. 2. the water. Property losses occur as the channel form changes and directly impacts parks, residences, businesses and municipalities. In an effort to solve these stream problems, "hard" engineering solutions such as piping, digging new channels, lining channels with concrete and other methods have been the traditional approach. Evidence shows that a hard fix in one location often leads to a problem in another location. Hard fixes frequently are prone to failure as the channel continues to change. In addition, hard engineering solutions will eliminate the important aesthetic and critical biological functions of a stream. Alternative methods of storm water management include a non-structural, holistic approach that reduces the problems of traditional approaches. A community or region needs to take a comprehensive look at its waterways. Ideally, this will happen before an area is developed. However, a non-structural, holistic approach has application on a watershed that has already urbanized. Ecological restoration of a waterway should be based on its geographic boundaries or divisions, rather than on various municipal boundaries. Addressing or attempting to solve storm water-management issues based on political subdivisions forces the problem and shifts costs to another entity. Communities in a region need to unite to address the issues related to wetlands, streams and rivers, and decide how to protect those areas. Together, the group can identify waterways within the municipalities that can become a vital link in an open space system. A holistic approach looks at the land use changes occurring in a water-shed and manages those changes in an ecologically sensitive manner. A holistic approach also means that waterways need to be examined at both the macro-level and micro-level. At a macro-level, protecting flood-plains and ecologically sensitive areas as part of a big river system has immense benefits to a community and region, as does protecting riparian corridors of a smaller stream. On a micro-level, on-site storm water, erosion and sediment control directly benefit our creeks and streams. By looking at the big picture instead of just runoff Runoff The procedure of printing the end-of-day prices for every stock on an exchange onto ticker tape. Notes: If the "tape is late" then it can take a long time to print off all the closing prices. control or flood control, other benefits of a holistic approach to storm water management become apparent. In addition to riparian features, communities should review bluff lines, steep slopes and other areas that may need protecting. By protecting our creeks, streams and rivers and related features such as wetlands and other ecologically sensitive areas, an attractive, sustainable green infrastructure can be established that's highly beneficial to the region as a whole. Benefits of Biostabilization Biostabilizing stream banks, introducing best-management practices, protecting existing river corridors and establishing new corridors are all methods that can be used in place of or in conjunction with traditional engineering solutions to address problems occurring in watersheds that have been impacted by urbanization. A water channel is in a constant state of change. The rate of change varies greatly with the conditions of the watershed. Hundreds of years ago, the rate of change in stream channels was relatively slow, caused only by minor erosion of stream banks. Stream systems established a dynamic equilibrium dy·nam·ic equilibrium n. See equilibrium. that functioned within a limited range of natural events, flow and sediment loads. A major storm or flood event periodically would upset the balance, but the channel would adjust rapidly and again reach equilibrium. With increasing development and urbanization, the rate of change in water channels has increased drastically. Shallow channels have become deeply incised incised /in·cised/ (in-sizd´) cut; made by cutting. , cutting new channels through the headwater head·wa·ter n. The water from which a river rises; a source. Often used in the plural. Noun 1. headwater - the source of a river; "the headwaters of the Nile" areas where none previously existed. In a non-urban, forested setting, most precipitation is absorbed where it falls, and is slowly released into the stream channel. In an urban setting, however, most precipitation isn't absorbed, and flooding results from the excess storm water that has no place to go. Storm-water management techniques used to consist of intercepting storm water runoff by a curb and gutter In typography, the space between two columns. , and directing it to an inlet. Once the runoff entered the inlet, it flowed underground inside a pipe until discharged into a channel. The absorption potential of the watershed was eliminated, and the system's ability to slow the flow of water was reduced. The ultimate result was that the overall volume of water entering a channel was increased, and the time it took to reach the channel was greatly decreased. The impact on channels has been damaging, making them prone to frequent flash flooding. Ecological restoration of the natural functions of waterways can be achieved in a non-structural, green way by identifying areas that need to be protected or restored, and determining how to create the most natural habitat. Biostabilization and other non-structural measures can be used to reduce the volume and rate of runoff, and stabilize channels to prevent or slow the rate of further degradation, ultimately leading to property damage. Within existing parks, wetland, wet meadow A wet meadow is a semi-wetland meadow which is saturated with water throughout much of the year. Wet meadows may occur because of poor drainage or the receipt of large amounts of water from rain or melted snow. They may also occur in riparian zones. , prairie and forest areas can be re-established. Creeks, for example, can be revived by daylighting For the restoration of culverted streams to above-ground channels, see . Daylighting is the practice of placing windows, or other transparent media, and reflective surfaces so that, during the day, natural light provides effective internal illumination. or removing the existing storm-sewer pipe, an approach that's most effective for small channels in headwater areas. Head cutting can be stabilized to create all attractive riparian corridor. To reduce the amount of storm water flow in a park setting, curbs can be eliminated from parking lots and the amount of hard surface parking reduced. Water can be directed into small detention areas and allowed to infiltrate infiltrate /in·fil·trate/ (in-fil´trat) 1. to penetrate the interstices of a tissue or substance. 2. the material or solution so deposited. in·fil·trate v. 1. into the ground, maintaining the variable source flow of the natural system. Open channels or gravel and rock-filled drainage structures can be used to collect water and allow it to infiltrate. Minimizing the amount of grading will reduce compaction of soil, increasing its infiltration infiltration /in·fil·tra·tion/ (in?fil-tra´shun) 1. the pathological diffusion or accumulation in a tissue or cells of substances not normal to it or in amounts in excess of the normal. 2. infiltrate (2). capability. In a natural system, storm water enters a stream at multiple points, as opposed to using engineering methods that discharge water in high volumes from a few points at a high rate of speed. By using, this non-structural method, channel damage is reduced and the ecology of the riparian corridor area is protected. Other non-structural methods can be used to improve the stream channel. Preserving and maintaining the meanders that occur in a stream will slow the rate of flow particularly for smaller storm events. Protecting the riverbed vegetation and wetland areas adjacent to the stream will trap the sediment, slow the rate of overland flow and protect the channel top of the bank. Large root wads can be anchored to the bank to trap sediment, absorb energy and deflect de·flect intr. & tr.v. de·flect·ed, de·flect·ing, de·flects To turn aside or cause to turn aside; bend or deviate. [Latin d the flow of water. Erosion-control fabrics and mats made of biodegradable biodegradable /bio·de·grad·a·ble/ (-de-grad´ah-b'l) susceptible of degradation by biological processes, as by bacterial or other enzymatic action. bi·o·de·grad·a·ble adj. materials can be used to stabilize slopes. Layering wrapped earth and combining this with branch packing can stabilize slopes and channel banks. Off line detention areas, which function similar to a flood plain or wetland storage of floodwater flood·wa·ter n. The water of a flood. Often used in the plural. floodwater n → aguas fpl (de la inundación) floodwater n , can be created adjacent to channels to reduce peak flows. Community Benefits Using these and other non-structural storm water management techniques will have multiple community benefits. One of the most significant will be improved water quality. Reducing the amount and rate of runoff will reduce erosion and sediment in the water. Changes in land use surrounding waterways allow them to become part of a greenway system of linked parks and trails for a community, providing a multitude of social, economic, cultural and environmental benefits. As communities work together to look holistically at waterways and associated land, development guidelines can be established that will prevent further damage and protect property values. Local developers should be encouraged to protect these areas. In return, developers can be allowed to build at a higher density for the same economic investment in places that will not damage waterways. Establishing a green infrastructure that protects and nurtures the natural ecology of waterways enhances an entire region's ultimate livability for many years to come, and restores its value. John Hicks
Sir John Richard Hicks (April 8, 1904 – May 20, 1989) was one of the most important and influential economists of the twentieth century. , AICP AICP American Institute of Certified Planners AICP Association of Independent Commercial Producers AICP Association of Islamic Charitable Projects (Philadelphia, PA) AICP Association of Insurance Compliance Professionals , ASLA ASLA American Society of Landscape Architects ASLA Australian School Library Association ASLA Anti-Saloon League of America ASLA American Seminar Leader's Association ASLA Assistance to State and Local Authorities ASLA Arrayed-Segment Loop Antenna , is a group manager for Woolpert LLP's Landscape Architecture and Planning group in St. Louis, Mo. Throughout his career, he has been involved in a wide range of environmental, planning and site-development projects. He has also worked on watershed management, wetland restoration, prairie restoration Prairie Restoration is an ecologically friendly way to restore some of the prairie land that was lost to industry, farming and commerce. For example, the state of Illinois alone once held over 22 million acres (89,000 km²) of prairie land and now a mere 2,000 acres (8 km²) of , mined land reclamation Land reclamation is either of two distinct practices. One involves creating new land from sea- or riverbeds, the other refers to restoring an area to a more natural state (such as after pollution or salination have made it unusable). and coastal-zone management projects. |
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