Abstract
Deforestation and forest degradation are major contributors to recent increases in atmospheric greenhouse gas concentrations and changes to the world's hydrological cycle. For instance most of the European countries, the industrial process emissions are typically 1-2% of total emissions in the world. In Ethiopia, the current contribution is very low as compare to a global scale, but will more than double from 150 MtCO 2 e to 400 Mt CO 2 e in 2030. Realizing the threat of global warming, reducing Emissions from Deforestation and Degradation (REDD+) both the Kyoto Protocol in 1992 and Paris climate change agreement in 2012 were built. To upon these commitments Ethiopia has adopted a new, sustainable development model by initiating the Climate-Resilient Green Economy (CRGE) for achieving the following four pillars: i) Improving crop and livestock production while reducing emissions; ii) Protecting and reestablishing forests; iii) Expanding electricity generation from renewable sources v) Use of modern and energy-efficient technologies. Among many climate smart Agriculture practice in Ethiopia, Agroforestry is the one which is inclusive others agricultural practicing. The aims of this paper were to reviews the possible opportunities to raise the potential environmental role of agroforestry in supporting the climate smart agriculture in Ethiopia.Studies on indigenous agroforestry systems in southeastern Ethiopia indicated that, the average total biomass carbon stock were, Coffee accounted for 11 % and Enset 9% of total biomass C on average of which trees accounting for 39–93 % of the total biomass carbon stock. On the other hands, SOC stocks (0–60cm) were 109–253 Mg ha −1 in the indigenous agroforestry systems. Various agroforestry systems practice in different parts of Ethiopia has also contributed to biodiversity conservation. One of the oldest indigenous agroforestry systems that were practiced in Hararghe highlands of eastern Ethiopia is the retaining of scattered apple-ring Acacia ( Faidherbia albida (Delile).Therefore, an Agroforestry practice provides both provisioning and regulating services and there by contributing to the mitigation of global climate changes. Keywords , Agroforestry, climate change, climate smart DOI : 10.7176/JBAH/9-8-02 Publication date : April 30 th 2019
Highlights
IntroductionCountries will revisit their current pledges by 2020 and, ideally, strengthen their emissions reduction targets for 2030
Out of the 150 Mt CO2, more than 85% of greenhouse gas (GHG) emissions came from the agricultural and forestry sectors followed by power, transport, industry and buildings, which contributed 3% each (Ethiopian CRGE, 2011)
If the current rate of land use conversion continues, GHG emissions from Ethiopia will increase from 150 million Mg CO2e in 2010 to 400 million Mg CO2e in 2030 (Bishaw et al 2013)
Summary
Countries will revisit their current pledges by 2020 and, ideally, strengthen their emissions reduction targets for 2030 To upon these www.iiste.org commitments Ethiopia has adopted a new, sustainable development model by initiating the Climate-Resilient Green Economy (CRGE) for achieving the following four pillars (CRGE, 2011): 1) Improving crop and livestock production practices for higher food security and farmer income while reducing emissions; 2) Protecting and reestablishing forests for their economic and ecosystem services, including as carbon stocks; 3) Expanding electricity generation from renewable sources of energy for domestic and regional markets; 4) Use of modern and energy-efficient technologies in transport, industrial sectors, and buildings. Trees like Cordia Africana, Milletia fruginea, Albezzia gummifera, Ficus spp, and Acacia spp, are among the species that form the upper storey of home gardens
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
