Abstract
Ethanol production in Brazil has grown by 219% between 2001 and 2012, increasing the use of land and water resources. In the semi-arid north-eastern Brazil, irrigation is the main way for improving sugarcane production. This study aimed at quantifying water consumed in ethanol production from sugarcane in this region using the water footprint (WF) indicator and complementing it with an evaluation of the water apparent productivity (WAP). This way we were able to provide a measure of the crop´s physical and economic water productivity using, respectively, the WF and WAP concepts. We studied sugarcane cultivation under nine different water regimes, including rainfed and full irrigation. Data from a mill of the state of Alagoas for three production seasons were used. Irrigation influenced sugarcane yield increasing total profit per hectare and economic water productivity. Full irrigation showed the lowest WF, 1229 litres of water per litre of ethanol (L/L), whereas rainfed production showed the highest WF, 1646 L/L. However, the lower WF in full irrigation as compared to the rest of the water regimes implied the use of higher volumes of blue water per cultivated hectare. Lower water regimes yielded the lowest economic productivity, 0.72 US$/m3 for rainfed production as compared to 1.11 US$/m3 for full irrigation. Since economic revenues are increased with higher water regimes, there are incentives for the development of these higher water regimes. This will lead to higher general crop water and economic productivity at field level, as green water is replaced by blue water consumption.
Highlights
The use of sugarcane ethanol in Brazil is one of the greatest examples of partial or total substitution of oil in the world
This study aimed at quantifying water consumed in ethanol production from sugarcane in this region using the water footprint (WF) indicator and complementing it with an evaluation of the water apparent productivity (WAP)
Rainfed production had the highest value of WF of all the water regimes evaluated, resulting in an ethanol’s WF of 1,647 litre of ethanol (L/L) (1,626 and 21 L/L for green and blue respectively, Fig. 2)
Summary
The use of sugarcane ethanol in Brazil is one of the greatest examples of partial or total substitution of oil in the world. The production and use of sugarcane ethanol has competitive advantages in terms of economic returns and greenhouse gas emissions, compared both to non-renewable fuels and to renewable fuels from other crops. Their development has been the result of an interaction of policies, public and private institutions and partnerships that have created one of the most dynamic and competitive innovation systems in the world (Furtado et al, 2011). The United States has set objectives of biofuel usage for 136,274 ML in 2022 (EPA, 2007) Both US and European targets are above their domestic production capacity, so they rely on internationally traded ethanol to meet them (FAO, 2013). Since Brazil is the world’s second largest producer and first largest exporter, the country is in position to fill this gap and so global demand for Brazilian biofuel is expected to grow
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