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Michael R. Evans, Brian E. Jackson, Michael Popp, and Sammy Sadaka

between 10 and 20 mm in diameter using a Wiley mill (model 4; Thomas Scientific, Swedesboro, NJ). Feedstocks were then transported to the bioenergy laboratory at the Rice Research and Extension Center, University of Arkansas System Division of Agriculture

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Karen Mitchell, Elizabeth French, Janna Beckerman, Anjali Iyer-Pascuzzi, Jeff Volenec, and Kevin Gibson

Biederman, L.A. Harpole, W.S. 2013 Biochar and its effects on plant productivity and nutrient cycling: A meta-analysis Glob. Change Biol. Bioenergy. 5 202 214 Brennan, A. Jimenez, E.M. Puschenreiter, M. Alburquerque, J.A. Switzer, C. 2014 Effects of biochar

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Zhaohui Li, Yan Ma, Wanyuan Yin, Dekui Zang, and Xianfeng Guo

cutting propagation of Quercus rubra J. of Anhui Agr. Univ. 39 507 513 (in Chinese, with English abstr.). Fang, S. Li, G. Fu, X. 2004 Biomass production and bark yield in the plantations of Pteroceltis tatarinowii Biomass Bioenergy 26 319 328 Fu, L. 1991

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Khin Thida One, Narathid Muakrong, Chamnanr Phetcharat, Patcharin Tanya, and Peerasak Srinives

Openshaw, K. 2000 A review of Jatropha curcas : An oil plant of unfulfilled promise Biomass Bioenergy 19 1 15 Parthiban, K.T. Kumar, S. Thiyagarajan, R. Subbulakshmi, P. Vennila, V. Govinda, S. 2009 Hybrid progenies in Jatropha— A new development Curr

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Dewayne L. Ingram

.E. Smith, R. Montross, M. Stork, J. 2009 Life cycle assessment of native plants and marginal lands for bioenergy agriculture in Kentucky as a model for south-eastern USA Global Change Biol. Bioenergy 1 308 316 Fleming, L.E. 1988 Growth estimates of street

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Ajay Nair and Brandon Carpenter

plant analysis. Soil Sci. Soc. Amer., Madison, WI Dumroese, R.K. Heiskanen, J.H. Englund, K. Tervahauta, A. 2011 Pelleted biochar: Chemical and physical properties show potential use and a substrate in container nurseries Biomass Bioenergy 35 2018 2027

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Nastaran Basiri Jahromi, Forbes Walker, Amy Fulcher, James Altland, and Wesley C. Wright

.S. 2013 Biochar and its effects on plant productivity and nutrient cycling: A meta-analysis Glob. Change Biol. Bioenergy. 5 202 214 Brady, N.C. Weil, R.R. 2002 The nature and properties of soils. 15th ed. Prentice Hall, Upper Saddle River, NJ Brockhoff, S

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Sabrina J. Ruis, Humberto Blanco-Canqui, Ellen T. Paparozzi, and Russ Zeeck

tomato production: Nutrient balance, plant growth, and fruit quality Front. Plant Sci. 8 1327 Zhao, G. Bryan, B.A. King, D. Luo, Z. Wang, E. Yu, Q. 2015 Sustainable limits to crop residue harvest for bioenergy: Maintaining soil carbon in Australia

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Rita L. Hummel, Craig Cogger, Andy Bary, and Robert Riley

cropping systems. Lewis, Boca Raton, FL Frear, C. Zhao, B. Fu, G. Richardson, M. Chen, S. 2005 Biomass inventory and bioenergy assessment: An evaluation of organic material resources for bioenergy production in Washington State. Washington Dept. Ecol

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Jason Sanders, Tina Marie Waliczek, and Jean-Marc Gandonou

Shiralipour, A. McConnell, D. Smith, W. 1992 Uses and benefits of MSW compost: A review and an assessment Biomass Bioenergy 3 267 279 Slivka, D.C. Thomas, M.A. Buhr, A.R. Albrecht, R. 1992 Compost: United States supply and demand Biomass Bioenergy 3 281 299