All subjects

Better land management critical in combatting climate change – IPCC report

Land is already under growing human pressure and climate change is adding to these pressures. At the same time, keeping global warming to well below 2ºC can be achieved only by reducing greenhouse gas (GHG) emissions from all sectors including land and food, the Intergovernmental Panel on Climate Change (IPCC) said in its latest report on August 8, 2019.

According to a new paper, sustainable bioenergy production in Europe could be tripled by 2050 and it is agriculture that plays a central role with the potential to become at least as important for energy as forest biomass.
According to a new paper, sustainable bioenergy production in Europe could be tripled by 2050 and it is agriculture that plays a central role with the potential to become at least as important for energy as forest biomass.

The IPCC, the world body for assessing the state of scientific knowledge related to climate change, its impacts and potential future risks, and possible response options, saw the Summary for Policymakers of the Special Report on Climate Change and Land (SRCCL) approved by the world’s governments on August 7, 2019, in Geneva, Switzerland.

It will be a key scientific input into forthcoming climate and environment negotiations, such as the Conference of the Parties of the UN Convention to Combat Desertification (COP14) in New Delhi, India in September and the UN Framework Convention on Climate Change Conference (COP25) in Santiago, Chile, in December.

Governments challenged the IPCC to take the first-ever comprehensive look at the whole land-climate system. We did this through many contributions from experts and governments worldwide. This is the first time in IPCC report history that a majority of authors – 53 percent – are from developing countries, said Hoesung Lee, Chair of the IPCC.

The “Climate Change and Land, an IPCC special report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrial ecosystems” is one of three special reports that the IPCC is preparing during the current Sixth Assessment Report cycle.

The report was prepared under the scientific leadership of all three IPCC Working Groups in cooperation with the Task Force on National Greenhouse Gas Inventories and supported by the Working Group III Technical Support Unit.

Land a critical resource

The report shows that better land management can contribute to tackling climate change, but is not the only solution. Reducing greenhouse gas (GHG) emissions from all sectors is essential if global warming is to be kept to well below 2ºC, if not 1.5ºC.

In 2015, governments backed the Paris Agreement goal of strengthening the global response to climate change by holding the increase in the global average temperature to well below 2ºC above pre-industrial levels and to pursue efforts to limit the increase to 1.5ºC.

Land plays an important role in the climate system. Agriculture, forestry and other types of land use account for 23 percent of human greenhouse gas emissions. At the same time natural land processes absorb carbon dioxide equivalent to almost a third of carbon dioxide emissions from fossil fuels and industry, said Jim Skea, Co-Chair of IPCC Working Group III.

A forest harvest site in Sweden, predominately spruce.

Land must remain productive to maintain food security as the population increases and the negative impacts of climate change on vegetation increase. This means there are limits to the contribution of land to addressing climate change, for instance through the cultivation of energy crops and afforestation. It also takes time for trees and soils to store carbon effectively.

Bioenergy needs to be carefully managed to avoid risks to food security, biodiversity, and land degradation.

IPCC points out that “desirable outcomes will depend on locally appropriate policies and governance systems” and the report finds that the world is best placed to tackle climate change when there is an overall focus on sustainability.

The report shows how managing land resources sustainably can help address climate change. Land already in use could feed the world in a changing climate and provide biomass for renewable energy, but early, far-reaching action across several areas is required. Also for the conservation and restoration of ecosystems and biodiversity said Hans-Otto Pörtner, Co-Chair of IPCC Working Group II.

Desertification and land degradation

When land is degraded, it becomes less productive, restricting what can be grown and reducing the soil’s ability to absorb carbon. This exacerbates climate change, while climate change, in turn, exacerbates land degradation in many different ways.

The choices we make about sustainable land management can help reduce and in some cases reverse these adverse impacts. In a future with more intensive rainfall the risk of soil erosion on croplands increases, and sustainable land management is a way to protect communities from the detrimental impacts of this soil erosion and landslides. However there are limits to what can be done, so in other cases degradation might be irreversible, said Kiyoto Tanabe, Co-Chair of the Task Force on National Greenhouse Gas Inventories.

Drylands and areas that experience desertification are also more vulnerable to climate change and extreme weather events.

Roughly 500 million people live in areas that experience desertification. Drylands and areas that experience desertification are also more vulnerable to climate change and extreme events including drought, heatwaves, and dust storms, with an increasing global population providing further pressure.

The report sets out options to tackle land degradation and prevent or adapt to further climate change. It also examines potential impacts from different levels of global warming.

New knowledge shows an increase in risks from dryland water scarcity, fire damage, permafrost degradation, and food system instability, even for global warming of around 1.5°C. Very high risks related to permafrost degradation and food system instability are identified at 2°C of global warming, said Valérie Masson-Delmotte, Co-Chair of IPCC Working Group I.

Food security

Coordinated action to address climate change can simultaneously improve land, food security, and nutrition, and help to end hunger.  The report highlights that climate change is affecting all four pillars of food security: availability (yield and production), access (prices and ability to obtain food), utilization (nutrition and cooking), and stability (disruptions to availability).

Food security will be increasingly affected by future climate change through yield declines – especially in the tropics – increased prices, reduced nutrient quality, and supply chain disruptions. We will see different effects in different countries, but there will be more drastic impacts on low-income countries in Africa, Asia, Latin America, and the Caribbean said Priyadarshi Shukla, Co-Chair of IPCC Working Group III.

Novel biogas plant feasts on culinary cultivar
Post-harvest chicory roots and endive leaves that do not make the supermarket quality grade serve as feedstock for a biogas plant in Belgium. Using a novel anaerobic digestion (AD) process, the organic waste is converted into biogas to provide heat and power whereas the remaining digestate is used as a fertilser thereby completing the circular loop.

The report records that about one-third of the food produced is lost or wasted. Causes of food loss and waste differ substantially between developed and developing countries, as well as between regions. Reducing this loss and waste would reduce greenhouse gas emissions and improve food security.

Some dietary choices require more land and water and cause more emissions of heat-trapping gases than others. Balanced diets featuring plant-based foods, such as coarse grains, legumes, fruits and vegetables, and animal-sourced food produced sustainably in low greenhouse gas emission systems, present major opportunities for adaptation to and limiting climate change said Debra Roberts, Co-Chair of IPCC Working Group II.

The report finds that there are ways to manage risks and reduce vulnerabilities in the land and the food system. Risk management can enhance communities’ resilience to extreme events, which has an impact on food systems. This can be the result of dietary changes or ensuring a variety of crops to prevent further land degradation and increase resilience to extreme or varying weather.

Reducing inequalities, improving incomes, and ensuring equitable access to food so that some regions, where land cannot provide adequate food, are not disadvantaged, are other ways to adapt to the negative effects of climate change.  There are also methods to manage and share risks, some of which are already available, such as early warning systems.

Baboons scavenge a recent delivery of vegetable waste at a biogas plant in Kenya.
Vegetable waste from a farm in Kenya is a feedstock for a biogas plant providing power to the grid and digestate to the farm.

An overall focus on sustainability coupled with early action offers the best chances to tackle climate change. This would entail low population growth and reduced inequalities, improved nutrition, and lower food waste. This could enable a more resilient food system and make more land available for bioenergy, while still protecting forests and natural ecosystems.

However, without early action in these areas, more land would be required for bioenergy, leading to challenging decisions about future land-use and food security.

Policies that support sustainable land management, ensure the supply of food for vulnerable populations, and keep carbon in the ground while reducing greenhouse gas emissions are important, said Eduardo Calvo, Co-Chair of the Task Force on National Greenhouse Gas Inventories.

Land and climate change responses

Policies that are outside the land and energy domains, such as transport and environment, can also make a critical difference in tackling climate change. Acting early is more cost-effective as it avoids losses.

There are things we are already doing. We are using technologies and good practices, but they do need to be scaled up and used in other suitable places that they are not being used now. There is real potential here through more sustainable land use, reducing over-consumption and waste of food, eliminating the clearing and burning of forests, preventing over-harvesting of fuelwood, and reducing greenhouse gas emissions, thus helping to address land-related climate change issues, said Panmao Zhai, Co-Chair of IPCC Working Group I.

Located on the Colorado River, about 40 km southeast of the city of Las Vegas, Lake Mead with the Hoover Dam is the largest man-made reservoir in the United States (US) in terms of water capacity irrigating large areas of farmland and serving almost 20 million people in the US states of Arizona (AZ), California (CA), and Nevada (NV), as well as some of Mexico. However, the lake has not been at full storage capacity since 1983 due to a combination of changing rainfall patterns, climate variability, high levels of evaporation, reduced snowmelt runoff, and current water use patterns.

Most read on Bioenergy International

Get the latest news about Bioenergy

Subscribe for free to our newsletter
Sending request
I accept that Bioenergy International stores and handles my information.
Read more about our integritypolicy here