Abstract
Global projections for increasing food demand combined with increasing demand for energy from all sources – including crop-based biofuels – point toward greater stress on food systems and their supporting ecosystems. In many parts of the world, increasing household incomes has translated into increasing demands for energy, of which transportation fuel comprises a fast-growing share. Accompanying the world’s steady population growth is an increasing demand for food and the necessary feedstuffs to fuel the requisite increases in livestock production. The combination of these two trends will inevitably lead to greater stresses and demands on the natural resource base and eco-systems that underlie the world’s food and energy production systems – such as land and water. In this chapter, we examine the increasing demands on agricultural production systems, within the context of both biofuels and demographically driven demand for food and feed products, and the implied stresses that these drivers represent. By looking at the implied crop productivity improvements that are necessary to maintain adequate supplies of food and feed for a growing global population, we are able to infer the magnitude of investments in agricultural research, among other policy interventions (such as irrigation investments), that are needed to avoid worsening food security outcomes in the face of growing biofuel demands. From our analysis, clear policy implications will be drawn as to how to best avoid the deterioration in human well-being, and recommendations for strengthening food systems and their ability to deliver needed services will also be made. By illustrating the policy problem in this way, we hope to better clarify the key issues that connect biofuels growth to agricultural growth, human welfare, and policy-focused interventions and investments.
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Notes
- 1.
It should be noted that this estimate assumes that conversion technologies, feedstock shares and feedstock crop yields remain unchanged, that no marginal or fallow land is used, and that international trade is neglected.
- 2.
In this specification, there is no modeling of input markets like for fertilizer or labor, so the price is not explicitly included here.
- 3.
This is an important driver of yield growth, which captures time-dependent technological progress. This will be varied under policy experiments, later in the paper.
- 4.
The RFS aims for 36 billion gallons of ethanol by 2022 from all sources, of which the production of “conventional” reaches a peak of 15 billion gal by 2015, which can be met through both production and imports. This is the particular aspect of the RFS target that has been modeled here.
- 5.
This effect does not take into account, however, the mitigating effect of by-products from ethanol production, such as dried distiller’s grains (DDGs), which can also be used for animal feed, up to a certain proportion. The availability of DDGs as feed would lessen the price impacts on meat.
- 6.
We consider net irrigated area, to take into account the fact that there is multiple cropping in some regions, which might overstate the actual surface area under irrigation, if we were to simply add up the statistics of harvested area under irrigation.
- 7.
The irrigation area increase is decreased when additional technological progress is introduced, due to the ‘land-saving’ effects of added yield growth and productivity, as well as the effect induced by generating additional supply, and thereby dampening the price increases that would otherwise stimulate area expansion over time.
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Msangi, S., Ewing, M., Rosegrant, M. (2010). Biofuels and Agricultural Growth: Challenges for Developing Agricultural Economies and Opportunities for Investment. In: Khanna, M., Scheffran, J., Zilberman, D. (eds) Handbook of Bioenergy Economics and Policy. Natural Resource Management and Policy, vol 33. Springer, New York, NY. https://doi.org/10.1007/978-1-4419-0369-3_6
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