量化德国陆路交通排放的气候影响

Quantifying the climate impact of emissions from land-based transport in Germany

Transportation Research Part D Transport and Environment · 2017
被引 34
ABS 3

中文导读

针对区域交通排放对全球气候影响难以检测的问题,提出结合三维化学气候模型、气溶胶气候响应函数和零维气候响应模型的新方法,并应用于德国交通排放评估,发现其导致全球地表温度上升约0.01K,且CO2是主要贡献者。

Abstract

Although climate change is a global problem, specific mitigation measures are frequently applied on regional or national scales only. This is the case in particular for measures to reduce the emissions of land-based transport, which is largely characterized by regional or national systems with independent infrastructure, organization, and regulation. The climate perturbations caused by regional transport emissions are small compared to those resulting from global emissions. Consequently, they can be smaller than the detection limits in global three-dimensional chemistry-climate model simulations, hampering the evaluation of the climate benefit of mitigation strategies. Hence, we developed a new approach to solve this problem. The approach is based on a combination of a detailed three-dimensional global chemistry-climate model system, aerosol-climate response functions, and a zero-dimensional climate response model. For demonstration purposes, the approach was applied to results from a transport and emission modeling suite, which was designed to quantify the present-day and possible future transport activities in Germany and the resulting emissions. The results show that, in a baseline scenario, German transport emissions result in an increase in global mean surface temperature of the order of 0.01 K during the 21st century. This effect is dominated by the CO2 emissions, in contrast to the impact of global transport emissions, where non-CO2 species make a larger relative contribution to transport-induced climate change than in the case of German emissions. Our new approach is ready for operational use to evaluate the climate benefit of mitigation strategies to reduce the impact of transport emissions.

气候变化环境科学气候模型温室气体交通排放