Environmental impact of transport

Environmental Impact of Transport

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(middle)The transportation sector is a major source of greenhouse gas emissions (GHGs) in the United States. An estimated 30 percent of national GHGs are directly attributable to transportation—and in some regions the proportion is even higher. Transportation methods are the greatest contributing source of GHGs in the U.S., accounting for 47 percent of the net increase in total U.S. emissions since 1990.[1]

(bottom)As listed above direct impacts such as noise and carbon monoxide emissions create direct and harmful effects on the environment, along with indirect impacts. The indirect impacts are often of higher consequence which lead to the misconception that it’s the opposite, since it is frequently understood that initial effects cause the most damage. For example, particulates which are the outcome of incomplete combustion done by an internal combustion engine, are not linked with respiratory and cardiovascular problems since they contribute to other factors not only to that specific condition. Even though the environmental impacts are usually listed individually there are also cumulative impacts. The synergetic consequences of transport activities. They take into account of the varied effects of direct and indirect impacts on an ecosystem. Climate change is the sum total impact of several natural and human made factors. 15% of global CO2 emissions are attributed to the transport sector.[2]

Shipping

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Discharges of sewage into our water bodies can come from many sources, including waste water treatment facilities, runoff from livestock operations, and vessels. These discharges have the potential to impair water quality, adversely affecting aquatic environments and increasing the risks to human health. While sewage discharges have potentially wide-ranging impacts on all aquatic environments, the impacts may be especially problematic in marinas, slow-moving rivers, lakes and other bodies of water with low-flushing rates. Environmentally this creates invasive species that often not drive other species to their extinction and cause harm to the environment and local businesses.[3]

Emissions from ships have a much more significant environmental impacts; many ships go internationally from port to port, are not seen for weeks contributing to air and water pollution on its voyage. Emission of greenhouse gases displaces the amount of gas that allows for UV-rays through the ozone. Sulfur and nitrogen compounds emitted from ship will oxidize in the atmosphere to form sulfate and nitrate. Emissions of nitrogen oxides, carbon monoxide, and volatile organic compounds (VOC) will lead to enhanced surface ozone formation and methane oxidation, depleting the ozone. The effect of the international ship emission on the distribution of chemical compounds like NOx, CO, O3, OH, SO2, HNO3, and sulfate is studied using a global chemical transport model (CTM), the Oslo CTM2. In particular, the large-scale distribution and diurnal variation of the oxidants and sulfur compounds are studied interactively. Meteorological data (winds, temperature, precipitation, clouds, etc.) used as input for the CTM calculations are provided by a weather prediction model.[4]

Mitigation of Environmental Impact

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When changing how we use the road systems and how they factor into the amount of pollution they contribute, using existing roads is key for changing the current layout of our road system. When deciding to construct mitigation work, steps should be taken to install permanent and temporary access roads as needed to support drilling/development and production phases of the project, but minimize the number and length of such roads. For drilling activities, using old or two-track road access rather than constructing a higher quality access road. Develop a traffic management plan for site access roads and for use of main public roads. Develop and implement measures to control off-highway vehicle traffic off of newly constructed access roads. Limit traffic to roads and portions of rights-of-way indicated specifically for the project. Instruct and require all personnel and contractors to adhere to speed limits to ensure safe and efficient traffic flow. Encourage project employees to carpool to work sites. Limit construction vehicle traffic on public roadways to off-peak commuting times to minimize impacts on local commuters. Restore roads to equal or better condition than before project construction after the heavy construction period is complete. Lastly Controling dust along unsurfaced roads, especially near residences and farm fields may help prevent mixture of plants that can lead to disputes over patents.[5]

Self Involvement

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Mitigation does not entirely involve large scale changes such as road construction, but everyday people can contribute. Walking, cycling trips, short or non-commute trips, can be an alternate mode of transportation when traveling short or even long distances. A multi-modal trip involving walking, a bus ride, and bicycling may be counted solely as a transit trip. Economic evaluations of transportation investments often ignore the true impacts of increased vehicular traffic—incremental parking, traffic accidents, and consumer costs—and the real benefits of alternative modes of transport. Most travel models do not account for the negative impacts of additional vehicular traffic that results from roadway capacity expansion, and overestimate the economic benefits of urban highway projects. Transportation planning indicators, such as average traffic speeds, congestion delays, and roadway level of service, measure mobility rather than accessibility.[6]

 
Ballast water discharge from other sides of the world cause a certain type of pollution different from an emission type pollution as it introduces invasive species that can literally cause domestic species to go extinct.
  1. ^ EPA, U., Office, responsible, R. org, & spelled, content. State and local. Retrieved March 25, 2016, from https://www3.epa.gov/statelocalclimate/state/topics/transportation.html
  2. ^ Rodrigue, J.-P. (1998). The environmental impacts of transportation. Retrieved March 25, 2016, from https://people.hofstra.edu/geotrans/eng/ch8en/conc8en/ch8c1en.html
  3. ^ EPA,OW,OWOW,OCPD, US. "Vessel Sewage Discharges: Homepage". www.epa.gov. Retrieved 2016-04-14.{{cite web}}: CS1 maint: multiple names: authors list (link)
  4. ^ Endresen, Øyvind; Sørgård, Eirik; Sundet, Jostein K.; Dalsøren, Stig B.; Isaksen, Ivar S. A.; Berglen, Tore F.; Gravir, Gjermund (2003-09-16). "Emission from international sea transportation and environmental impact". Journal of Geophysical Research: Atmospheres. 108 (D17): 4560. doi:10.1029/2002JD002898. ISSN 2156-2202.
  5. ^ Indian Affairs, T. Transportation mitigation measures. Retrieved March 25, 2016, from http://teeic.indianaffairs.gov/er/oilgas/mitigation/transport/index.htm
  6. ^ "Transportation Solutions | Reimagine!". www.reimaginerpe.org. Retrieved 2016-04-14.