A low GHG development pathway design framework for agriculture, forestry and land use.

Agriculture, forestry and other land use (AFOLU) represent 22% of global greenhouse gas emissions. To meet the objectives of the Paris Agreement, the AFOLU sector greenhouse gases must be dramatically reduced and eventually transformed to net negative CO 2 e within this century. The decarbonisation choices will have significant environmental, social and economic impacts, yet few analytical frameworks exist able to account holistically for AFOLU mitigation strategies and their sustainable development impacts in a way that combines advantages of global and national approaches to decarbonisation pathways. This paper proposes a pathway design framework for AFOLU decarbonisation strategies that can help governments set targets across four types of levers (increasing sequestration; improving the emissions efficiency of agriculture; incentivising dietary changes; and displacing fossil fuels with bioenergy) and help them navigate potential synergies and trade-offs with sustainable development objectives (notably food security, biodiversity preservation, poverty alleviation and job creation), in a way that facilitates co-construction and discussion with main stakeholders. • Key drivers of AFOLU decarbonisation include enhancing carbon sequestration, increasing bioenergy production, reducing emission intensity of agriculture and shifting diets. • The AFOLU transformation has trade-off and synergies with SDGs, including food security, biodiversity, and poverty and jobs. • A comprehensive AFOLU pathway must integrate all key drivers and key SDGs to capture the systemic elements of the sector. • We propose a method for designingcomprehensive AFOLU pathways, integrating all key drivers and key SDGs. • The pathway design framework emphasises co-construction and dialogue with key stakeholders. [ABSTRACT FROM AUTHOR]