Manipulation of starch metabolism p

Manipulation of starch metabolism presents an opportunity
potentially to increase the yield of non-food parts of the
plant for biofuel production. Producing biofuel from leaf or
stem material that is not normally eaten reduces the food
versus fuel competition. This is an idea that Smith called
a more radical possibility (Smith, 2008), but rapid progress
in genetic engineering and understanding of starch metabolism
makes this a near-term possibility.
Plants make many sugars and polysaccharides that are
easily fermented to ethanol, but in most cases only cell walls
are left in the parts of the plant not used for food at harvest.
Cell walls contain cellulose, hemicelluloses, and lignin. This
mixture can be difficult to convert to liquid fuels. Any
carbon that can be stored and retained in the leaf as a more
easily digestible polysaccharide, such as starch, has the potential
to increase the yield of biofuel. Starch fermentation
currently is more complete than cell wall fermentation so,
even if a slight reduction in non-food biomass occurred,
starch accumulation in leaves might be a desirable trait. If
biomass is burned for co-firing in conventional power
plants, motivated by improved battery technology and
capped net carbon dioxide emissions (Ohlrogge et al.,
2009), then total biomass yield will be important.