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Inhibition of microbial biofuel production in drought-stressed switchgrass hydrolysate.

Biotechnology for biofuels (2016-11-09)
Rebecca Garlock Ong, Alan Higbee, Scott Bottoms, Quinn Dickinson, Dan Xie, Scott A Smith, Jose Serate, Edward Pohlmann, Arthur Daniel Jones, Joshua J Coon, Trey K Sato, Gregg R Sanford, Dustin Eilert, Lawrence G Oates, Jeff S Piotrowski, Donna M Bates, David Cavalier, Yaoping Zhang
RÉSUMÉ

Interannual variability in precipitation, particularly drought, can affect lignocellulosic crop biomass yields and composition, and is expected to increase biofuel yield variability. However, the effect of precipitation on downstream fermentation processes has never been directly characterized. In order to investigate the impact of interannual climate variability on biofuel production, corn stover and switchgrass were collected during 3 years with significantly different precipitation profiles, representing a major drought year (2012) and 2 years with average precipitation for the entire season (2010 and 2013). All feedstocks were AFEX (ammonia fiber expansion)-pretreated, enzymatically hydrolyzed, and the hydrolysates separately fermented using xylose-utilizing strains of While most corn stover and switchgrass hydrolysates were readily fermented, growth of In response to the osmotic pressures experienced during drought stress, plants accumulate soluble sugars that are susceptible to degradation during chemical pretreatments. For ammonia-based pretreatment, these sugars degrade to imidazoles and pyrazines. These compounds contribute to