Chapters authored
Genetic and Functional Diversities of Microbial Communities in Amazonian Soils Under Different Land Uses and Cultivation
Part of the book: Biomass
Soil Microbial Biomass Under Native Cerrado and Its Changes After the Pasture and Annual Crops Introduction
Part of the book: Biomass and Remote Sensing of Biomass
Greenhouse Gas Assessment and Strategies to Achieve CO2 Sequestration in the Brazilian Palm Oil Life Cycle
As the palm oil production is expanding in Brazilian Amazon region, this study aimed to determinate the greenhouse gas (GHG) emissions since the agricultural phase to transportation of crude palm oil (CPO) and then indicate strategies to achieve the CO2 sequestration. The scope of this study comprised since the stage of oil palm seedlings production until the transportation of CPO. Inventory data for the year of 2009 included the agricultural production of fresh fruit bunches (FFB) and the extraction and transportation of CPO. The management of palm oil mill effluent (POME), use of fertilizers, fuels, pesticides, and electricity contributed to 66.5, 17.9, 15.1, 0.4, and 0.1% of the total emissions, respectively. Agricultural phase, CPO extraction, and transportation emitted 32,131, 79,590, and 1,104 t CO2-eq, respectively. The carbon (C) footprint was 0.79 t CO2-eq / t CPO, and the highest GHG emissions were associated to the management of POME. On the other hand, the use of all residues from the mill as fertilizer substitute can minimize the GHG emissions and increase soil C stocks. In addition, the methane (CH4) from POME captured and used for steam or electricity is also a viable alternative to reduce the GHG emissions.
Part of the book: CO2 Sequestration