Knowledge for better food systems

Showing results for: Climate change: Mitigation

Climate mitigation mitigation involves actions aimed at limiting the amount of greenhouse gases in the atmosphere. This may consist in reducing anthropogenic emissions or by increasing the capacity of carbon sinks. Food systems contribute some 20-30% of total global anthropogenic greenhouse gas emissions and their impacts will need to be addressed if substantial global climate change mitigation is to be achieved. In agriculture, management and breeding methods for mitigation of climate change are being developed for all regions. However, not only technological change, but also changes in demand (away from emission intensive foods such as meat and dairy), and in enabling socio-economic structures and the governance framework will influence the amount of GHGs emitted in the future. In the food system, there is scope to develop new practices which deliver multiple win-wins – for example, that function both as climate change adaptation and as mitigation strategies (e.g. climate resilient crops that also bind more carbon in the soil) or that deliver non environmental benefits – for example where shifts to lower environmental impact diets also improve nutritional wellbeing.

11 February 2019

This report outlines the outcomes of the 4 per 1000 Africa Symposium on Soils for Food Security and Climate, which discussed the links between soil health and climate in Africa.

11 February 2019

This report from Food and Agriculture Organisation of the United Nations and the Global Dairy Platform shows the global dairy sector’s greenhouse gas emissions and outlines the measures the sector could take to contribute to climate change mitigation.

Image: herbert2512, Sheep flock of, Pixabay, Pixabay license
11 February 2019

This paper uses economic models to calculate the extent to which both supply-side and demand-side measures could reduce non-CO2 greenhouse gas emissions from the agricultural sector, depending on carbon price.

Image: edward musiak, coconut farm, Flickr, Creative Commons Attribution-ShareAlike 2.0 Generic
10 December 2018

This paper performs a cost-benefit analysis for various climate-smart agriculture practices on farms in Vietnam, Nicaragua and Uganda, including switching annual to perennial crops (e.g. coconut), crop rotations, using organic fertiliser and intercropping maize and beans.

Image: USDA, Alley cropping, Flickr, Creative Commons Attribution 2.0 Generic
10 December 2018

So-called natural climate solutions in the United States (such as changing management of forests, grassland and agricultural land) could create annual emissions savings equivalent up to 21% of current US emissions according to this paper.

3 December 2018

The US Global Change Research Programme has published the second volume of its Fourth National Climate Assessment, which examines the human welfare, societal, and environmental impacts of climate change and variability across many sectors, including agriculture.

6 November 2018

This report by the RISE Foundation (Rural Investment Support for Europe), co-authored by FCRN member Elisabet Nadeu, outlines the environmental and health impacts of livestock production and consumption in the EU. The report suggests that there is a “safe operating space” for livestock production, defined at the lower bound by the provision of nutrition to humans and the maintenance of permanent pasture habitats, and defined at the upper boundary by climate impacts and nitrogen and phosphorus emissions.

29 October 2018

A recording of the launch of the report “Negative Emissions Technologies and Reliable Sequestration: A Research Agenda” can be viewed here, hosted by the National Academies of Sciences, Engineering, and Medicine. The video is around one hour long and includes an overview of the report’s findings and a question-and-answer session.

22 October 2018

The report “Missing pathways to 1.5°C: The role of the land sector in ambitious climate action”, by the Climate Land Ambition and Rights Alliance, assesses greenhouse gas mitigation pathways that use “low-risk” land-based solutions that protect natural ecosystems and respect human rights. The report aims to provide an alternative to the IPCC’s mitigation pathways, many of which rely on mitigation approaches such as bioenergy with carbon capture and storage (BECCS).

16 October 2018

The Intergovernmental Panel on Climate Change (IPCC) has released a special report on keeping climate change to 1.5°C. The report says, “Limiting global warming to 1.5°C would require rapid, far-reaching and unprecedented changes in all aspects of society.”

Image: JD Hancock, Apple Earth, Flickr, Creative Commons Attribution 2.0 Generic
16 October 2018

A combination of measures including a shift towards plant-based diets, halving food waste and technological changes in agriculture (such as more efficient fertiliser application, feed additives and changes in irrigation) could significantly reduce the food system’s environmental impacts relative to 2050 projections and potentially even reduce impacts below today’s levels, according to a new paper.

Image: Vieve Forward, Tractor spreading fertilizer(?) near Down Barn, Geograph, Creative Commons Attribution-ShareAlike 2.0 Generic
2 October 2018

The cost-effectiveness of different methods of cutting agricultural greenhouse gas emissions is often calculated using marginal abatement cost curves (MACCs). FCRN member Dominic Moran of the University of Edinburgh has quantified the uncertainties in calculating MACCs for Scottish agricultural mitigation options, including improving land drainage, improving the timing of nitrogen application, and using controlled release fertilisers. The paper suggests that policymakers may wish to exclude options that have a high uncertainty, as they may not always be as cost-effective as the MACC suggests.

Image: trf57, Sheep New Zealand, Pixabay, CC0 Creative Commons
12 September 2018

New Zealand’s Parliamentary Commissioner for the Environment has released a report exploring how much and over what timescale the climate is affected by methane emissions from livestock. It focused on two questions. First,if methane emissions from livestock were held at current levels or followed business-as-usual trajectories, what would their contribution to future warming be? Second, what reduction in methane emissions from livestock would be needed so that they cause no additional contribution to warming?

Image: C.G. Newhall, Pyroclastic flows at Mayon Volcano, Philippines, 1984, Wikimedia Commons, Public domain
20 August 2018

A recent paper uses data from volcanic eruptions to estimate the effects that geoengineering with sulphate aerosols would have on agricultural production. It concludes that the damage that geoengineering would do to maize, soy, rice and wheat outputs (because of reduction in sunlight reaching the crops) would have roughly the same magnitude as the benefits of the cooling it would provide.

Image: Pixabay, Dominoes barricade, CC0 Creative Commons
20 August 2018

Researchers have warned that a cascade of positive feedback loops could push global temperatures into a “Hothouse Earth” state for millennia, even if human greenhouse gas emissions are reduced. Some systems, such as ice sheets, forests and permafrost, could pass a temperature tipping point beyond which they rapidly become net contributors to climate change. If one is set off, the warming produced could trigger the remaining tipping points, like a line of dominoes.

17 July 2018

The Centre for Ecoliteracy, a Californian non-profit, has produced a free interactive guide to understanding food and climate change, covering both how climate change affects the food system and how the food system contributes to climate change.

Image: Lamiot, Coppice short rotation willow, Wikimedia Commons, Creative Commons Attribution 3.0 Unported
10 July 2018

In a guest post for Carbon Brief, Professor Pete Smith of the University of Aberdeen discusses recent research on how climate mitigation through negative emissions could affect biodiversity, through changes in land use. He argues that bioenergy with carbon capture and storage (BECCS) should be implemented sooner rather than later, because of the risk of not meeting climate mitigation targets if BECCS is left until later in the century and because a study estimated that natural land loss could be lower if BECCS is deployed earlier in the century.

Pages