An emissions‐based view of climate forcing by methane and tropospheric ozone
Citations Over TimeTop 10% of 2005 papers
Abstract
We simulate atmospheric composition changes in response to increased methane and tropospheric ozone precursor emissions from the preindustrial to present‐day in a coupled chemistry‐aerosol‐climate model. The global annual average composition response to all emission changes is within 10% of the sum of the responses to individual emissions types, a more policy‐relevant quantity. This small non‐linearity between emission types permits attribution of past global mean methane and ozone radiative forcings to specific emissions despite the well‐known non‐linear response to emissions of a single type. The emissions‐based view indicates that methane emissions have contributed a forcing of ∼0.8–0.9 W m −2 , nearly double the abundance‐based value, while the forcing from other ozone precursors has been quite small (∼−0.1 for NO x , ∼0.2 for CO + VOCs).
Related Papers
- → Tropospheric ozone evolution between 1890 and 1990(2005)156 cited
- → An assessment of methods for computing radiative forcing in climate models(2015)56 cited
- → The Radiative Forcing Model Intercomparison Project (RFMIP): Experimental Protocol for CMIP6(2016)36 cited
- → Analysis of Vertical Distribution Changes and Influencing Factors of Tropospheric Ozone in China from 2005 to 2020 Based on Multi-Source Data(2022)10 cited
- → How well do integrated assessment models represent non-CO2 radiative forcing?(2015)20 cited