Abstract
Changing food consumption patterns and associated greenhouse gas (GHG) emissions have been a matter of scientific debate for decades. The agricultural sector is one of the major GHG emitters and thus holds a large potential for climate change mitigation through optimal management and dietary changes. We assess this potential, project emissions, and investigate dietary patterns and their changes globally on a per country basis between 1961 and 2007. Sixteen representative and spatially differentiated patterns with a per capita calorie intake ranging from 1,870 to 3,400 kcal/day were derived. Detailed analyses show that low calorie diets are decreasing worldwide, while in parallel diet composition is changing as well: a discernable shift towards more balanced diets in developing countries can be observed and steps towards more meat rich diets as a typical characteristics in developed countries. Low calorie diets which are mainly observable in developing countries show a similar emission burden than moderate and high calorie diets. This can be explained by a less efficient calorie production per unit of GHG emissions in developing countries. Very high calorie diets are common in the developed world and exhibit high total per capita emissions of 3.7–6.1 kg CO2eq./day due to high carbon intensity and high intake of animal products. In case of an unbridled demographic growth and changing dietary patterns the projected emissions from agriculture will approach 20 Gt CO2eq./yr by 2050.
Highlights
Food consumption patterns are changing both in terms of total amount and composition [1,2]
For a plausible and brief discussion, we group the patterns into four groups related to the energy content, i.e. low, moderate, high, and very high calorie diets
The diets with low energy content provide less than 2,100 kcal/ cap/day and are composed by more than 50% cereals or more than 70% starchy roots, cereals, and pulses
Summary
Food consumption patterns are changing both in terms of total amount and composition [1,2]. Because of lifestyle related changes in diet compositions food demand will increase significantly, even with no further growth of global population [2,4]. Food production usually requires inputs, like fuel and fertilizer [5,6] and accounts for approx. Current agricultural practices induce high environmental stress and in particular contribute 10–14% to the total anthropogenic greenhouse gas (GHG) emissions [8,9]. As a result of constraints on agricultural land availability the energy requirements for food production have increased [5]. It is likely that the necessary increase in food production will exacerbate environmental stress and increase demand for external inputs [14]
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