2020
DOI: 10.1038/s41893-019-0456-2
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Socio-environmental and land-use impacts of double-cropped maize ethanol in Brazil

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Cited by 40 publications
(29 citation statements)
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“…It also simulates the adoption of low carbon mitigation practices in agriculture as prescribed in the national Low Carbon Mitigation Plan -ABC Plan (pasture recovery, biological nitrogen fixation, forest-livestock integration systems and zero tillage). It has been applied in a variety of studies investigating the climate impacts of land use policies in Brazil (Moreira, 2016;Harfuch et al, 2017;Moreira et al, 2020). BLUM is a single-country, partial equilibrium, multisectoral and multiregional model.…”
Section: Sectoral Modellingmentioning
confidence: 99%
“…It also simulates the adoption of low carbon mitigation practices in agriculture as prescribed in the national Low Carbon Mitigation Plan -ABC Plan (pasture recovery, biological nitrogen fixation, forest-livestock integration systems and zero tillage). It has been applied in a variety of studies investigating the climate impacts of land use policies in Brazil (Moreira, 2016;Harfuch et al, 2017;Moreira et al, 2020). BLUM is a single-country, partial equilibrium, multisectoral and multiregional model.…”
Section: Sectoral Modellingmentioning
confidence: 99%
“…For example, in the United States of America, modern maize cultivation practices have contributed to increasing maize yield from 7 t/ha in 1990 to 11.7 t/ha in 2020, with potential for future growth (United States Department of Agriculture, 2020). Similarly, technology adoption has contributed to increased maize yield in Brazil from 2 t/ha to 5.6 t/ha, Australia from 3 t/ha to 7 t/ha, and Egypt from 4 t/ha to 8 t/ha (Moreira et al, 2020;World Bank, 2020). Therefore, there is a significant potential to increase maize yield and improve maize production in Nigeria through improved technology adoption (Muzari et al, 2012).…”
Section: Introductionmentioning
confidence: 99%
“…4 Brazil is the second-largest ethanol producer and has further growth potential. 5,6 There are research opportunities to increase the yield in first-generation ethanol plants by, for instance, genetically engineering the sugarcane 7 and fermentation yeasts. 8 Modeling published in 2017 showed that expansion of sugarcane in Brazil could displace up to 14% of the oil consumption and decrease carbon emissions significantly (up to 6%) by 2045 without the use of land dedicated to forest conservation and food production.…”
mentioning
confidence: 99%
“…As sugarcane yield increased due to automatization and new agricultural practices and technologies, potential competition between food and fuel production was reduced, and sugarcane currently occupies less than 10% of the total plantation area . Brazil is the second-largest ethanol producer and has further growth potential. , There are research opportunities to increase the yield in first-generation ethanol plants by, for instance, genetically engineering the sugarcane and fermentation yeasts . Modeling published in 2017 showed that expansion of sugarcane in Brazil could displace up to 14% of the oil consumption and decrease carbon emissions significantly (up to 6%) by 2045 without the use of land dedicated to forest conservation and food production .…”
mentioning
confidence: 99%