02781naa a2200373 a 450000100080000000500110000800800410001902400530006010000220011324501220013526000090025752016770026665000140194365000190195765000290197665000130200565000200201865000180203865000090205665000170206565300230208265300180210565300080212365300080213165300260213970000220216570000220218770000300220970000230223970000190226270000220228170000220230377300820232520620842019-05-03       2016    bl uuuu     u00u1 u    #d7 ahttp://dx.doi.org/10.1007/s10098-016-1161-82DOI1 aESTEVES, V. P. P.  aLand use change (LUC) analysis and life cycle assessment (LCA) of Brazilian soybean biodiesel.h[electronic resource]  c2016  aAbstract: Biodiesel is an alternative to tackle global warming, especially for reducing greenhouse gases (GHG) emissions when replacing fossil fuels. However, it can compete for land with food production. Brazil is a global player on soybeans farming and most of the biodiesel produced in the country comes from it. This work proposes a new approach to evaluate its impact, associating land use change (LUC) analysis with life cycle assessment (LCA) in a representative Brazilian soybeans farming zone. LUC assessment used Landsat satellite imagery analysis from the years 1993 and 2013, and intergovernmental panel on climate change (IPCC) guidelines to estimate GHG emissions. LCA was based on field data collection processed with SimaPro®. Results show that the increment on annual GHG emissions per hectare, derived from the apportioning total emissions for the period studied, was 50.16 kg CO2 eq ha?1 y?1. From this increment, 97.1 % come from LUC, being the largest share from converting pastures to soybeans farming (81.2 % of the total emissions). However, in the area, a large share of converted pastures are degraded, acting as source of emissions, not as sink as considered by IPCC. At the same time, practices like no-tillage make soybeans a carbon sink. Therefore, results could change if alternative approaches were to be adopted, being a challenge for future work. Therefore, when considering biodiesel from soybeans, a close regard to local land use dynamics is essential to evaluate impacts. Besides, promoting more efficient use of land already cleared with the goal to avoid deforestation can turn biodiesel into a sustainable renewable energy source.  aBiodiesel  aGlobal warming  aGreenhouse gas emissions  aSoybeans  aBiocombustível  aEfeito estufa  aSoja  aUso da terra  aAquecimento global  aCO2 emissions  aLCA  aLUC  aMudanças climáticas1 aESTEVES, E. M. M.1 aBUNGENSTAB, D. J.1 aLOEBMANN, D. G. dos S. W.1 aVICTORIA, D. de C.1 aVICENTE, L. E.1 aARAÚJO, O. Q. F.1 aMORGADO, C. R. V.  tClean Technologies and Environmental Policygv. 18, n. 6, p. 1655-1673, 2016.