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Environmental impact of roads

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Title: Environmental impact of roads  
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Subject: Environmental impact of irrigation, Roads, Human impact on the environment, Population ethics, Mitigation banking
Collection: Environmental Impact by Source, Roads, Transport and the Environment
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Environmental impact of roads

Air pollution along Pasadena Highway in Los Angeles, United States

The environmental impact of roads (both positive and negative) include the local effects of highways (public roads) such as on noise, water pollution, habitat destruction/disturbance and local air quality; and the wider effects which may include climate change from vehicle emissions. The design, construction and management of roads, parking and other related facilities as well as the design and regulation of vehicles can change the impacts to varying degrees.


  • Air quality 1
    • Negative impacts 1.1
    • Positive impacts 1.2
  • Noise 2
    • Negative impacts 2.1
    • Positive impacts 2.2
  • Water pollution 3
  • Habitat fragmentation 4
  • Facilitation of poaching of flora and fauna 5
  • Recycling 6
  • See also 7
  • References 8

Air quality

Roads can have both negative and positive effects on air quality.

Negative impacts

  1. ^ "How nitrogen oxides affect the way we live and breathe". Environmental protection agency. Archived from the original on 2008-07-16. Retrieved 2008-12-10. 
  2. ^
  3. ^ Omaye ST. (2002). "Metabolic modulation of carbon monoxide toxicity". Toxicology 180 (2): 139–150.  
  4. ^
  5. ^ "Traffic-related Air Pollution near Busy Roads". American Journal of Respiratory and Critical Care Medicine Vol 170. pp. 520-526. 2004. 
  6. ^ "Road Dust - Something To Sneeze About." Science Daily, 1999-11-30. Sand applied to icy roads can be ground up by traffic into fine particulates and contribute to air pollution.
  7. ^ "Tirana Outer Ring Road: Environmental and Social Impact Assessment Study". Bernard Engineers & Brenner Engineers. 2009. Retrieved 2010-04-27. 
  8. ^ "£371 million A3 improvements will go ahead" (Press release).  
  9. ^ "FAQs for the North West Relief Road". Shropshire Council. 2010. Retrieved 2010-05-14. 
  10. ^ United States. National Research Council. Washington, DC. "Urban Stormwater Management in the United States." October 15, 2008. pp. 5, 110.
  11. ^ G. Allen Burton, Jr., Robert Pitt (2001). Stormwater Effects Handbook: A Toolbox for Watershed Managers, Scientists, and Engineers. New York: CRC/Lewis Publishers.   Chapter 2.
  12. ^ Charles Seawell and Newland Agbenowosi (1998)."Effects of Road Deicing Salts on Groundwater Systems." Virginia Polytechnic Institute, Department of Civil Engineering.
  13. ^ University of Minnesota (2009). "U of M research finds most road salt is making it into the state's lakes and rivers." 2009-02-10.
  14. ^ a b Forman, R.T.T.; Alexander, L.E. (1998). "Roads and their major ecological effects". Annual Review of Ecology and Systematics 29: 207–31.  
  15. ^ a b c Primack, R.B. (2004). A Primer of Conservation Biology (3rd ed). Massachusetts, U.S.A.: Sinauer Associates, Inc. pp. 84–89.  
  16. ^ Philip Clarke, G.; White, P.C.L.; Harris, S (1998). "Effects of roads on badger Meles meles populations in south-west England". Biological Conservation (Elsevier Ltd.) 86 (2): 117–124.  
  17. ^ Roads and forests
  18. ^ Sianipar, C.P.M.; Dowaki, K. (2014). "Eco-burden in pavement maintenance: Effects from excess traffic growth and overload". Sustainable Cities and Society 12: 31–45.  
  19. ^ a b User Guidelines for Waste and Byproduct Materials in Pavement Construction. Federal Highway Administration. 2012-04-23. 
  20. ^ "Survey finds growth in recycled materials for asphalt". Construction and Demolition Recycling. February 5, 2014. 


See also

In 2012, US asphalt plants used an estimated 68.3 million tons of reclaimed asphalt pavement, 1.86 million tons of recycled asphalt shingles, and over 1 million tons of other recycled materials to produce new asphalt.[20]

Common examples of waste products used in road building include coal fly ash (used to make concrete stronger), asphalt shingles and shredded tires (used in asphalt pavement), ground glass and steel mill slag (used as aggregates).[19]

Asphalt pavement is one of the most recycled materials in the United States. It is estimated that over 80% of asphalt pavement removed from roadways is reused as construction aggregate. It can be mixed into new pavement or used as a subbase or fill material. Similarly, concrete from road or building demolition can be an excellent source of aggregate.[19]

Materials removed from a road can be reused in construction within the same project[18] or in other locations. Road construction can also use waste materials from other industries.


Similarly, the construction of roads in forested areas has also promoted illegal logging as it becomes easier for illegal loggers to transport the wood.[17]

Roads that run through forests that house edible animals may encourage or facilitate poaching. Especially in poor areas, the construction of roads has promoted not only poaching for personal consumption but also for sale (for consumption or as a pet) to third parties.

Facilitation of poaching of flora and fauna

Another negative effect is the amount of space roads take up. When cutting through forests, they prevent the growth of many trees as trees can not grow through paved roads. On unpaved roads, vehicle tires and foot traffic compact soil and prevent plant growth. As trees take up CO2 and as they also house animals, this increases the environmental damage inflicted.

Habitat fragmentation may also divide large continuous populations into smaller more isolated populations.[14] These smaller populations are more vulnerable to genetic drift, inbreeding depression and an increased risk of population decline and extinction.[15]

Roads can act as barriers or filters to animal movement and lead to habitat fragmentation.[14] Many species will not cross the open space created by a road due to the threat of predation[15] and roads also cause increased animal mortality from traffic.[16] This barrier effect can prevent species from migrating and recolonising areas where the species has gone locally extinct as well as restricting access to seasonally available or widely scattered resources.[15]

Map indicating the amount of roads per 100 km² of land area for each country

Habitat fragmentation

De-icing chemicals and sand can run off into roadsides, contaminate groundwater and pollute surface waters.[12] Road salts (primarily chlorides of sodium, calcium or magnesium) can be toxic to sensitive plants and animals.[13] Sand can alter stream bed environments, causing stress for the plants and animals that live there.

Urban runoff from roads and other impervious surfaces is a major source of water pollution.[10] Rainwater and snowmelt running off of roads tends to pick up gasoline, motor oil, heavy metals, trash and other pollutants. Road runoff is a major source of nickel, copper, zinc, cadmium, lead and polycyclic aromatic hydrocarbons (PAHs), which are created as combustion byproducts of gasoline and other fossil fuels.[11]

Water pollution

New roads can divert traffic away from population centres thus relieving the noise pollution. A new road scheme planned in Shropshire, UK promises to reduce traffic noise in Shrewsbury town centre.[9]

Positive impacts

Speed bumps, which are usually deployed in built-up areas, can increase noise pollution. Especially if large vehicles use the road and particularly at night.

Road noise can be a nuisance if it impinges on population centres, especially for roads at higher operating speeds, near intersections and on uphill sections. Noise health effects can be expected in such locations from road systems used by large numbers of motor vehicles. Noise mitigation strategies exist to reduce sound levels at nearby sensitive receptors. The idea that road design could be influenced by acoustical engineering considerations first arose about 1973.

Negative impacts

Motor vehicle traffic on roads will generate noise.


A new section of road being built near Hindhead, UK, to replace a four-mile section of the A3 road, and which includes the new Hindhead Tunnel, is expected by the government to deliver huge environmental benefits to the area including the removal of daily congestion, the elimination of air pollution in Hindhead caused by the congestion, and the removal of an existing road which crosses the environmentally sensitive Devil's Punchbowl area of outstanding natural beauty. (UTC)[8]

The construction of new roads which divert traffic from built-up areas can deliver improved air quality to the areas relieved of a significant amount of traffic. The Environmental and Social Impact Assessment Study carried out for the development of the Tirana Outer Ring Road estimated that it would result in improved air quality in Tirana city centre.[7]

Positive impacts

. global warming concentrations in the atmosphere and therefore to 2 and motor vehicle emissions are an important contributor to the growth of COgreenhouse gas is non-toxic to humans but is a major Carbon dioxide [6] reactions.allergic kicked up by vehicles may trigger Road dust [5] health effects are greater near the road than at some distance away from the road.respiratory Concentrations of air pollutants and adverse [4].benzene and various other hazardous air pollutants including [3]Carbon monoxide [2]

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