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Assessing the efficiency of changes in land use for mitigating climate change
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Journal Article
Assessing the efficiency of changes in land use for mitigating climate change
2018
Overview
Land-use changes are critical for climate policy because native vegetation and soils store abundant carbon and their losses from agricultural expansion, together with emissions from agricultural production, contribute about 20 to 25 per cent of greenhouse gas emissions
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,
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. Most climate strategies require maintaining or increasing land-based carbon
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while meeting food demands, which are expected to grow by more than 50 per cent by 2050
1
,
2
,
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. A finite global land area implies that fulfilling these strategies requires increasing global land-use efficiency of both storing carbon and producing food. Yet measuring the efficiency of land-use changes from the perspective of greenhouse gas emissions is challenging, particularly when land outputs change, for example, from one food to another or from food to carbon storage in forests. Intuitively, if a hectare of land produces maize well and forest poorly, maize should be the more efficient use of land, and vice versa. However, quantifying this difference and the yields at which the balance changes requires a common metric that factors in different outputs, emissions from different agricultural inputs (such as fertilizer) and the different productive potentials of land due to physical factors such as rainfall or soils. Here we propose a carbon benefits index that measures how changes in the output types, output quantities and production processes of a hectare of land contribute to the global capacity to store carbon and to reduce total greenhouse gas emissions. This index does not evaluate biodiversity or other ecosystem values, which must be analysed separately. We apply the index to a range of land-use and consumption choices relevant to climate policy, such as reforesting pastures, biofuel production and diet changes. We find that these choices can have much greater implications for the climate than previously understood because standard methods for evaluating the effects of land use
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–
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on greenhouse gas emissions systematically underestimate the opportunity of land to store carbon if it is not used for agriculture.
Evaluation of the efficiency of land-use changes and their effect on global carbon storage shows that several land-use and consumption choices relevant to climate policy have greater implications than previously thought.
