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Expansion of energy production from biomass requires careful consideration

01/10/2011 - Energy production from plants could provide up to twenty percent of the world's energy demand in 2050, half of it from biomass plantations alone – but only at the price of a substantial expansion of land used for cultivation, to the expense of nature. This is the finding of a study carried out by the Potsdam Institute for Climate Impact Research (PIK) “which for the first time determines the potential and the risks of energy production from biomass plantations in a complex biogeochemical computer simulation,“ lead author Tim Beringer says. Human land use could increase by ten to thirty percent, depending on the scenario, and irrigation water demand could double.
Expansion of energy production from biomass requires careful consideration

Possible distribution of biomass plantations following a strict ´food first´policy and moderate environmental conservation criteria. Source: PIK

In the study, fields and pastures for food production were excluded from land use change to plantations for dedicated energy crops. These areas, the scientists assume, are going to be needed for feeding the world population which will very likely grow by two billion people by the mid of this century. Also, areas of untouched wilderness or high biodiversity have been excluded, as well as those forests or peatlands which store large amounts of the greenhouse gas carbon dioxide. For the whole Earth’s surface cultivation conditions of plants like poplar, eukalyptus and switchgrass were analysed – all being energy crops of the so-called second generation, not of the first generation comprising food crops like maize or rape.

Following these criteria, the computer simulation shows the spatial distribution of potential cultivation areas. In theses areas, bioenergy production would be more environmentally sustainable than in other places. Still, sensitive areas like the grasslands of the Humid Pampa in South America would be touched, the study says. It just got published in the journal 'Global Change Biology - Bioenergy'. The research project has been funded by the Leibniz Scientific Community's promotion of excellence program with one million euros.

The researchers ran a whole set of scenarios for biomass plantations.  The bioenergy potential ranges from 25 to 175 exajoule by year: lower outcome with strong land use restrictions and without irrigation, higher outcome with little land use restrictions and strong irrigation. A middle scenario would result in about 100 exajoule, while the world's energy consumption is estimated to double from today's 500 to 1000 exajoule in the year 2050. Roughly the same amount of energy production, in addition to biomass plantations,  could result from agricultural residues.

“Without energy production from biomass, according to many studies, ambitious goals of climate protection would be hardly achievable,“ PIK research domain chair Wolfgang Lucht says. He explains that a limitation of global warming to two degrees Celsius above preindustrial level would quite inevitably require twenty percent of bioenergy. “How much energy can be produced at which environmental costs therefore is a critical and controversial question.“ Plantations with dedicated energy crops will play an especially important role in the future, the scientists assume. Studies estimating their potential, however, are “in many cases too optimistic“ and neglect the environmental costs, Lucht says.  Often, global agricultural yield increases are assumed to make important areas available for the cultivation of dedicated energy crops. This view neglects that the global demand for food is growing – and that water scarcity in many areas limits the intensification of agriculture.

Land use change will contribute to energy security and rural development only if it is internationally coordinated and regionally adapted, the PIK-researchers  conclude. A biomass certification scheme could be beneficial. Most notably an increased use of agricultural residues instead of cultivating dedicated energy crops could be an important contribution to sustainability.



Article: Beringer, T., Lucht, W., Schaphoff, S.: Bioenergy production potential of global biomass plantations under environmental and agricultural constraints. GCB Bioenergy, 2011 [doi:10.1111/j.1757-1707.2010.01088.x]

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