Corn, wheat and rapeseed can be used to produce biofuels, such as bioethanol and biodiesel. According to recent findings by environmental scientists at Radboud University, the location of the agricultural lands used to grow these biofuel crops has a major impact on the greenhouse gas emission they ultimately produce. The study that arrived at this conclusion is due to be published by Nature Climate Change on 11 May.
Corn, wheat and rapeseed can be used to produce biofuels, such as bioethanol and biodiesel. According to recent findings by environmental scientists at Radboud University, the location of the agricultural lands used to grow these biofuel crops has a major impact on the greenhouse gas emission they ultimately produce. The study that arrived at this conclusion is due to be published by Nature Climate Change on 11 May.
To increase production of biofuels from crops, such as corn and wheat, natural areas need to make way for agricultural land. The initial result of this is an increase in greenhouse gas emission. Using a global model, Pieter Elshout and fellow environmental scientists at Radboud University have demonstrated how long it takes for the advantages that biofuels offer over fossil fuels to earn a return on this initial emission. On the global scale, the average payback time for greenhouse gases is nineteen years.
From Western Europe to the tropics
Elshout, a PhD candidate at Radboud University, explains: “Nineteen years sounds like a long time, but in farming terms, it’s not all that long. Furthermore, that figure is a global average. In Western Europe, that period is considerably shorter, sometimes spanning just a few years. In the tropics, however, it can extend past a hundred years.” The model demonstrates that the location of biofuel crops has a significant impact on greenhouse gas emission – more so than does the type of crop or crop management (i.e. the amount of fertilizers and irrigation used).
First global-scale model
“Our model,” Elshout continues, “is the first that offers a global, spatially-explicit overview of biogenic gas emission resulting from crops used to produce biofuels. In developing this model, our calculations of the durations of payback times took account of the entire production chain for fossil fuels and biofuels with the accompanying greenhouse emissions.” This global model is applicable to first-generation biofuels. These include bioethanol from corn, wheat and sugar cane, as well as biodiesel from soybeans and rapeseed.
Continue reading at Radboud University.
Biofuel image via Shutterstock.