Road vehicles produce a significant amount of all air pollution. Vehicles with petrol and diesel engines produce about half of their emissions from their
exhaust gas, and the other half from
non-exhaust emissions (tire and brake wear and erosion or disturbance of the road surface).
NOx as viewed from the
World Trade Center in 1988 Mono-
nitrogen oxides NO and NO2 (
NOx) (whether produced this way or naturally by
lightning) react with
ammonia, moisture, and other compounds to form
nitric acid vapor and related particles. Small particles can penetrate deeply into sensitive lung tissue and damage it, causing premature death in extreme cases. Inhalation of NO species increases the risk of
lung cancer and colorectal cancer. and inhalation of such particles may cause or worsen respiratory diseases such as
emphysema and
bronchitis and heart disease. In a 2005
U.S. EPA study the largest emissions of came from on road motor vehicles, with the second largest contributor being
non-road equipment which is mostly gasoline and diesel stations. When oxides of nitrogen (NOx) and
volatile organic compounds (VOCs) react in the presence of sunlight, ground level
ozone is formed, a primary ingredient in
smog. A 2005 U.S. EPA report gives road vehicles as the second largest source of VOCs in the U.S. at 26% and 19% are from non road equipment which is mostly gasoline and diesel stations.
Ozone Ozone is beneficial in the upper atmosphere, but at ground level ozone irritates the
respiratory system, causing coughing, choking, and reduced lung capacity. It also has many negative effects throughout the ecosystem.
Carbon monoxide (CO) satellite computer image of carbon monoxide March 2010
Carbon monoxide poisoning is the most common type of fatal air poisoning in many countries.
Carbon monoxide is colorless, odorless and tasteless, but highly toxic. It combines with
hemoglobin to produce
carboxyhemoglobin, which blocks the transport of oxygen. At concentrations above 1000ppm it is considered immediately dangerous and is the most immediate health hazard from running engines in a poorly ventilated space. In 2011, 52% of carbon monoxide emissions were created by mobile vehicles in the U.S.
Hazardous air pollutants (toxics) Chronic (long-term) exposure to
benzene (
C6H6) damages
bone marrow. It can also cause excessive bleeding and depress the
immune system, increasing the chance of
infection. Benzene causes leukemia and is associated with other blood cancers and pre-cancers of the blood.
Particulate matter (PM10 and PM2.5) The
health effects of inhaling
airborne particulate matter have been widely studied in humans and animals and include
asthma,
lung cancer, cardiovascular issues, premature
death. Because of the size of the particles, they can penetrate the deepest part of the lungs. A 2011 UK study estimates 90 deaths per year due to passenger vehicle PM. In a 2006 publication, the
U.S. Federal Highway Administration (FHWA) state that in 2002 about 1% of all PM10 and 2% of all PM2.5 emissions came from the exhaust of on-road motor vehicles (mostly from
diesel engines). In Chinese, European, and Indian markets, both diesel and gasoline vehicles are required to have a
tailpipe filter installed, while the United States has mandated it for diesel only. In 2022, British testing specialist Emissions Analytics estimated that the 300 million or so gasoline vehicles in the US over the subsequent decade would emit around 1.6 septillion harmful particles.
Carbon dioxide (CO2) Carbon dioxide is a
greenhouse gas. Motor vehicle CO2 emissions are part of the anthropogenic contribution to the growth of CO2 concentrations in the atmosphere which according to the vast majority of the scientific community is causing
climate change. Motor vehicles are calculated to generate about 20% of the European Union's man-made CO2 emissions, with passenger cars contributing about 12%. ==Pollution reduction==