26-3 Sustainable Production and Distribution of Bioenergy for the Central USA: An Agro-Ecosystem Approach to Sustainable Biofuels Production Via the Pyrolysis-Biochar Platform (USDA-NIFA AFRI CAP, Project #2010-05073).

See more from this Division: Agriculture and Natural Resources Science for Sustainable Bioenergy Production: Transformational Advancements in Research, Education and Extension
See more from this Session: Regional Approaches to Sustainable Bioenergy Systems
Sunday, October 21, 2012: 1:20 PM
Duke Energy Convention Center, Junior Ballroom B, Level 3
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Kenneth Moore1, Stuart J. Birrell1, Robert C. Brown2, Michael Casler3, Jill E. Euken1, Dermot J. Hayes1, Mark Hanna1, Jason D. Hill4, Cathy L. Kling1, Keri L. Jacobs1, David A. Laird1, Robert Mitchell5, Patrick T. Murphy6, Raj Raman1, Charles V. Schwab1, Kevin J. Shinners7, Kenneth P. Vogel8 and Jeffrey Volenec6, (1)Iowa State University, Ames, IA
(2)CSET, Iowa State University, Ames, IA
(3)U.S. Dairy Forage Research Center, USDA-ARS, Madison, WI
(4)University of Minnesota, St. Paul, MN
(5)USDA-ARS, Lincoln, NE
(6)Purdue University, West Lafayette, IN
(7)University of Wisconsin-Madison, Madison, WI
(8)Grain, Forage, and Bioenergy Research Unit, USDA-ARS, Lincoln, NE
The North Central US is one of the most agriculturally productive areas in the world. However, intensive crop production on land within this region that is not well-suited to row crop production has impaired soil and water quality and led to loss of productivity. Growing dedicated biomass crops on land that is unsuitable or marginal for row crop production would mitigate these problems and provide additional ecosystem services.  This research, education and outreach program focuses on herbaceous perennials that provide potentially high biomass production and ecosystem services. A regional system for producing fuels from these biofeedstocks based on pyrolytic conversion is being evaluated. Objectives are to: 1) develop cultivars and hybrids of perennial grasses optimized for bioenergy production, 2) develop sustainable production systems that optimize perennial biomass yields and ecosystem services, 3) develop  flexible, efficient, and sustainable logistics systems, 4) identify and characterize sustainable bioenergy systems to achieve social, economic, and environmental goals and  understand socioeconomic and environmental consequences of perennial bioenergy systems, 5) identify germplasm characteristics amenable to pyrolytic conversion and evaluate performance of pyrolytic biofuels,  6) evaluate policy, market, and contract mechanisms to facilitate broad adoption by farmers, 7) develop procedures for managing risks and protecting health for each component of the biofuel production chain, 8) provide interdisciplinary education and engagement opportunities for undergraduate and graduate students, and 9) develop outreach programs for all stakeholders of the bioenergy system.
See more from this Division: Agriculture and Natural Resources Science for Sustainable Bioenergy Production: Transformational Advancements in Research, Education and Extension
See more from this Session: Regional Approaches to Sustainable Bioenergy Systems