FAO: Landbruget skal ikke være afhængigt af fossile brændstoffer

Hedebølge i Californien. Verdens klimakrise har enorme sundhedsmæssige konsekvenser. Alligevel samtænkes Danmarks globale klima- og sundhedsindsats i alt for ringe grad, mener tre  debattører.


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For at kunne brødføde verdens hastigt voksende befolkning bliver landbruget og fødevareindustrien nødt til at bruge ressourcerne på en langt mere “energismart” måde.

En ny FAO-rapport giver bud på, hvordan man bedst kan tackle fremtidens udfordringer om at skaffe mad til alle.

DURBAN, 29 November 2011: The global food system needs to reduce its dependence on fossil fuels to succeed in feeding a growing world population, the UN food and agricultural agency said Tuesday.

“There is justifiable concern that the current dependence of the food sector on fossil fuels may limit the sector’s ability to meet global food demands. The challenge is to decouple food prices from fluctuating and rising fossil fuel prices,” according to an FAO paper published Tuesday during the UN Conference on Climate Change.

High prices of fossil fuel

High and fluctuating prices of fossil fuels and doubts regarding their future availability mean that agri-food systems need to shift to an “energy-smart” model, according to the report “Energy-Smart Food for People and Climate” – se rapporten i sin helhed på http://www.fao.org/docrep/014/i2454e/i2454e00.pdf

The food sector both requires energy and can produce energy — an energy-smart approach to agriculture offers a way to take better advantage of this dual relationship between energy and food, it says.

The food sector (including input manufacturing, production, processing, transportation marketing and consumption) accounts for approximately 30 percent of global energy consumption, according to the report and produces over 20 percent of global greenhouse gas emissions.

On-farm direct energy use amounts to around 6 exa-Joules per year, if human and animal power are excluded — just over half of that is in OECD countries.

On farms, energy is used for pumping water, housing livestock, cultivating and harvesting crops, heating protected crops, and drying and storage. After harvest, it is used in processing, packaging, storing, transportation and consumption.

New approach to farming

“The global food sector needs to learn how to use energy more wisely. At each stage of the food supply chain, current practices can be adapted to become less energy intensive,” said FAO Assistant Director-General for Environment and Natural Resources, Alexander Mueller.

Such efficiency gains can often come from modifying at no or little cost existing farming and processing practices, he added.

Steps that can be taken at the farm level include the use of more fuel efficient engines, the use of compost and precision fertilizers, irrigation monitoring and targeted water delivery, adoption of no-till farming practices and the use of less-input-dependent crop varieties and animal breeds.

After food has been harvested, improved transportation and infrastructure, better insulation of food storage facilities, reductions in packaging and food waste, and more efficient cooking devices offer the possibility of additionally reducing energy use in the food sector.

Adding up both on-farm and post-harvest losses, around one-third of all food produced — and the energy that is embedded in it — is lost or wasted, FAO’s report notes.

Making agriculture less fossil fuel dependent

FAO’s report highlights the tremendous potential for agriculture to produce more of the energy needed to feed the planet and help rural development.

“Using local renewable energy resources along the entire food chain can help improve energy access, diversify farm and food processing revenues, avoid disposal of waste products, reduce dependence on fossil fuels and greenhouse gas emissions, and help achieve sustainable development goals,” it says.

Where good solar, wind, hydro, geothermal or biomass energy resources exist, they can be used as a substitute for fossil fuels in farming and aquaculture operations.

They can also be used in food storage and processing.

For example, sugar mills frequently use their residue (rest) materials for combined heat and power generation. So-called “wet processing wastes” like tomato rejects (affald) and skins, or pulp from juice processing, can be used in anaerobic digester plants (anlæg til at behandle forrådnende materialer) to produce biogas.

Already, millions of small-scale domestic digesters are being used by subsistence farmers (småbønder) in the development world to produce biogas for home use.

Significant action is needed to reduce food losses, and this will also improve energy efficiency in the agri-food chain – se om “food losses” på http://www.fao.org/ag/ags/ags-division/publications/publication/en/?dyna_fef%5buid%5d=74045

Finally it is essential to improve access to modern energy services to the millions of people who still use biomass in a nontraditional way as energy for cooking and heating.

A long row to hoe

Transitioning (Overgangen) to an energy-smart agricultural sector will be a “huge undertaking” that will require long-term thinking, and needs to start now, FAO says.

During the climate talks in Durban, the UN agency is advocating “Energy-smart food for people and climate,” an approach based on three pillars: (i) providing energy access for all with a focus on rural communities; (ii) improving energy efficiency at all stages of the food supply chain; and (iii) substituting fossil fuels with renewable energy systems in the food sector.

“The key question at hand is not, ‘If or when we should begin the transition to energy-smart food systems?’ but rather ‘how can we get started and make gradual but steady progress?” said Mueller.

Kilde: www.fao.org