Applications of Biotechnology to Mitigation of Greenhouse Warming: Proceedings of the St. Michaels Workshop, April, 2003Norman J. Rosenberg, F. Blaine Metting, R. Cesar Izaurralde Battelle Press, 2004 - 213 pages These proceedings of the St. Michaels II Workshop present plenary papers, commentaries, and recommendations about the opportunities for biotechnology to contribute to the reduction of greenhouse gas (GHG) emissions, especially carbon dioxide. Major topics include - Use of biotechnology, especially genetic engineering, for increasing the yield of biomass crops as a substitute for fossil fuels and of agricultural engineering, for increasing the yield of biomass crops as a substitute for fossil fuels and of agricultural crops to make up for loss of land to biomass production - Manipulation of the rhizosphere to increase sequestration of carbon in soils - Development of biorefineries to convert biomass into liquid transportation fuels and plastics - Improvement of microbes and enzymes to increase energy efficiency of industrial processes. |
From inside the book
Page 182
... the Natural World . Routledge , London , UK . Spash , C.L. 2002. Greenhouse Economics : Value and Ethics . Routledge , London , UK . RALPH W.F. HARDY , National Agricultural Biotechnology Council My comments 182 Thompson and Ten Eyck.
... the Natural World . Routledge , London , UK . Spash , C.L. 2002. Greenhouse Economics : Value and Ethics . Routledge , London , UK . RALPH W.F. HARDY , National Agricultural Biotechnology Council My comments 182 Thompson and Ten Eyck.
Contents
A Revolution | 17 |
Mitigation of Greenhouse Warming Biomassbased Energy | 23 |
A Role for Genetically Modified Organisms | 61 |
Copyright | |
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Common terms and phrases
agricultural biotechnology anaerobic applications of biotechnology approach Arabidopsis bacteria benefits Benemann biochemical bioconversion Bioenergy biological biomass biomass crops biorefinery biotech carbon sequestration cell cellulose chemical climate change commercial biomass concentration conversion corn stover cost cultivars cycle dedicated energy crops developing countries domestication economic efficiency energy crop enhanced environment environmental enzymes ethanol ethical farm feedstock fermentation fossil fuels gases genes genetic engineering genetically modified genetically modified organisms genome GHG mitigation global glomalin glucose GM crops greenhouse gas greenhouse warming growth Hâ‚‚ production harvest herbicide hydrogen impact important improved increase industrial issues land lignin lignocellulosic methane microalgae microbial community microorganisms MiniCAM B2 molecular mycorrhizal fungi paper photosynthesis plant Populus potential protein reduced resistance rhizosphere risk role roots Science soil carbon sequestration soil microbial soybean species stabilization strategy substrate switchgrass tion traits transgenic Tuskan U.S. Department vppm yield