Routes to cellulosic ethanol

The perception that civilization is crossing a period of Global Climatic Changes that can seriously threaten our lifestyle, along with energy security and the search for prosperity, are the main drivers that are pushing men to use more biomass as a source of energy. It will be crucial that such intent will include a large parcel of sustainability so that more renewable energy becomes available for populations. Because large amounts of energy are "hidden" in carbon polymers made by plants, notably carbohydrates, it is obvious that if technologies are developed to produce liquid fuels such as ethanol from carbohydrate polymers such as cellulose, men could significantly increase energy sustainability . This book reviews general aspects of biomass utilization for bioenergy production as well as strategies using biochemistry, molecular biology, chemistry and physics to disassemble plant cell walls. Recent discoveries of basic science under development in several laboratories in the world are reviewed by experts that have been intensively working with many aspects that will impact the development of the technology of production of cellulosic ethanol.

Routes to Cellulosic Ethanol Editors: Marcos S Buckeridge & Gustavo H Goldman Bioenergy The role of biomass in the world's energy system Jose Goldemberg Bioenergy and the Sustainable Revolution Wanderley D. dos Santos1, Edgardo O. Gomez and Marcos S. Buckeridge Biomass gasification for ethanol production L. A. Horta Nogueira, J. E.A. Seabra and I.C. Macedo Plant cell walls, enzymes and metabolism Hemicelluloses as Recalcitrant Components for Saccharification in Wood Takahisa Hayashi and Rumi Kaida Topochemistry, porosity and chemical composition affecting enzymatic hydrolysis of lignocellulosic materials Adriane M. F. Milagres, Walter Carvalho, Andre Ferraz Enzymology of plant cell wall breakdown: an update Moreira, L. R. S., Milanezi, vG. N., Filho, E. X. F. Enzymes in Bioenergy Viviane Isabel Serpa and Igor Polikarpov Hydrolases from microorganisms used for degradation of plant cell wall and bioenergy production Maria de Lourdes T. M. Polizeli, Emanuelle Corbi Correa, Aline Moraes Polizeli and Joao Atilio Jorge Cellulase Engineering for Biomass Saccarification Richard J. Ward Genetic improvement of xylose utilization by Saccharomyces cerevisiae Gustavo H. Goldman Plant cell wall genetics Tropical Maize - Exploiting maize genetic diversity to develop a novel annual crop for lignocellulosic biomass and sugar production Wendy G. White, Stephen P. Moose, Clifford F. Weil, Maureen C. McCann, Nicholas C. Carpita Sugarcane breeding and selection of sugar cane with higher lignocellulosic ethanol production Marcelo Ehlers Loureiro, Marcio Henrique Pereira Barbosa, Francis Julio Fagundes Lopes, Flaviano Oliveira Silverio Cell Wall Genomics in the Recombinogenic Moss Physcomitrella patens Michael A. Lawton