CO2–based vehicle taxes

Ireland introduced changes to its vehicle tax system in July 2008. Higher taxes are now placed on vehicles which emit higher levels of carbon.

A recent study has investigated how these fiscal policies influence the demand for new cars and how effective these changes are in reducing CO2 emissions.

The results suggest there will be an overall reduction in CO2 emissions of 3.6-3.8 per cent but with an annual loss of 191 million Euros in tax revenues. By 2010 emissions from the transport sector in Ireland will rise by 180 per cent if reduction measures are not put in place.

The EU has proposed a Council Directive (COM(2005)261final)1 on passenger car related taxes. One of the main benefits of such changes would be reduced CO2 emissions through taxes based partly on carbon emitting potential of a vehicle. This is to encourage consumers to buy more fuel-efficient vehicles. Using a car choice model the researchers predicted the impact of the tax changes. They compared the Irish car tax system in 2007 with a number of different tax scenarios especially the vehicle registration tax (VRT) and annual circulation tax (ACT) changes of July 2008. Under the new system VRT and ACT are applied to categories of vehicles with larger more polluting vehicles being charged higher rates of tax.

For example vehicles which produced less than 120g of CO2 per kilometre are taxed 100 Euros. At the other end of the scale vehicles which emit over 226g of CO2 per kilometre are taxed 2000 Euros. The results suggest that the change to a carbon-based ACT and VRT will lower CO2 exhaust emissions by 3.8 per cent from petrol vehicles and by 3.6 per cent from diesel vehicles.

Consumers are more likely to purchase more fuel-efficient cars with a 7 per cent shift to smaller petrol vehicles and a 2 per cent shift to smaller diesel vehicles. In addition a switch of 6 per cent from petrol to diesel cars would occur. The study suggests the price of fuel through fuel taxes has little short-term influence on the type of new vehicles purchased as would be expected. For example between May 2007 and May 2008 the average price of petrol in Ireland increased by 7.8 per cent to 1.249 Euros but estimated CO2 emissions fell by only 0.3 per cent as a result. In the longer-term further reductions in CO2 emissions may occur if higher fuel prices limit the average journey distances. With consumers encouraged to choose more fuel-efficient vehicles revenues from both ACT and VRT will be lower: a loss of 181 million Euros from VRT 7 million Euros from ACT and a fuel tax loss of 3 million Euros.

However the reduction in CO2 emissions would contribute to Ireland's Kyoto obligations. The study suggests that a reduction of 0.16 million tonnes (Mt) in CO2 emissions from transport would fulfill 32 per cent of Ireland's national commitment to reduce 0.5 Mt of carbon by 2012. In addition there could be improvements to public health: the study suggests that cutting vehicle CO2 emissions can also reduces other harmful exhaust emissions. However the researchers suggest the size of this benefit and the effect of greater NOx emissions from more diesel vehicles needs further investigation.

The researchers suggest that further modifications to the ACT and VRT tax systems could reduce the shortfall of tax revenues and optimise CO2 emission reductions. If even higher taxes were placed on larger vehicles that produce more CO2 emissions predicted losses in tax revenues could fall by 64 per cent from 191 million Euros to 65 million Euros. This would result in a further reduction of CO2 emissions (from 0.16 Mt to 0.23 Mt of CO2).

http://ec.europa.eu/taxation_customs/taxation/other_taxes/passenger_car/index_en.htm �

Source: Giblin S. and McNabola A. (2009). Modelling the impacts of a carbon emission-differentiated vehicle tax system on CO2 emissions intensity from new vehicle purchases in Ireland. Energy Policy. 37:1404-1411. Contact: [email protected]��

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