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A
S. Ismadji, Sudaryanto, Y., Hartono, S. B., Setiawan, L. E., and Ayucitra, A., Activated carbon from char obtained from vacuum pyrolysis of teak sawdust: pore structure development and characterization, Bioresour Technol, vol. 96, pp. 1364-9, 2005.
A. O. Eremina, Golovina, V. V., Ugai, Y. M., and Rudkovskii, A. V., Activated Carbons from Waste Wood in Wastewater Treatment To Remove Surfactants, Russian Journal of Applied Chemistry, vol. 77, pp. 775-778, 2004.
P. Girods, Dufour, A., Fierro, V., Rogaume, Y., Rogaume, C., Zoulalian, A., and Celzard, A., Activated carbons prepared from wood particleboard wastes: Characterisation and phenol adsorption capacities, J Hazard Mater, vol. 24, p. 24, 2008.
S. J. Park and Kim, K. D., Adsorption Behaviors of CO2 and NH3 on Chemically Surface-Treated Activated Carbons, J Colloid Interface Sci, vol. 212, pp. 186-189, 1999.
D. M. Nevskaia, Castillejos-Lopez, E., Munoz, V., and Guerrero-Ruiz, A., Adsorption of aromatic compounds from water by treated carbon materials, Environ Sci Technol, vol. 38, pp. 5786-96, 2004.
R. Lal, Agricultural activities and the global carbon cycle, Nutrient Cycling in Agroecosystems, vol. 70, pp. 103-116, 2004.
M. B. Bush and Silman, M. R., Amazonian exploitation revisited: ecological asymmetry and the policy pendulum, Frontiers in Ecology and the Environment, vol. 5, pp. 457-465, 2007.
B. Glaser, Lehmann, J., and Zech, W., Ameliorating physical and chemical properties of highly weathered soils in the tropics with charcoal ? a review, Biol Fertil Soils, vol. 35, pp. 219-230, 2002.
X. Zhang, Luo, R., Wang, Z., Deng, Y., and Chen, G. - Q., Application of (R)-3-Hydroxyalkanoate Methyl Esters Derived from Microbial Polyhydroxyalkanoates as Novel Biofuels, Biomacromolecules, Submitted.
I. S. A. B. E. L. L. A. DANEL, GRAHAM, W. E. N. D. Y., STUPP, P. A. U. L., and CASTILLO, P. E. D. R. O., Applying the Sisterhood Method for Estimating Maternal Mortality to a Health Facility-Based Sample: A Comparison with Results from a Household-Based Sample, Int. J. Epidemiol., vol. 25, pp. 1017-1022, 1996.
M. J. Antal and Gronli, M., The Art, Science, and Technology of Charcoal Production†, Industrial & Engineering Chemistry Research, vol. 42, pp. 1619-1640, 2003.
M. J. Antal, Allen, S. G., Dai, X., Shimizu, B., Tam, M. S., and Gronli, M., Attainment of the Theoretical Yield of Carbon from Biomass, Industrial & Engineering Chemistry Research, vol. 39, pp. 4024-4031, 2000.
B
A. A. Boateng, Daugaard, D. E., Goldberg, N. M., and Hicks, K. B., Bench-Scale Fluidized-Bed Pyrolysis of Switchgrass for Bio-Oil Production†, Industrial & Engineering Chemistry Research, vol. 46, pp. 1891-1897, 2007.
P. Wang and Huang, L., Beneficial effects of activated charcoal on plant tissue and organ cultures, In Vitro Cellular & Developmental Biology - Plant, vol. 12, pp. 260-262, 1976.
J. Lehmann and Joseph, S., Biochar for Environmental Management. Earthscan, 2009, p. 448.
F. Karaosmanoǧlu, Isıḡıgur-Ergudenler, A., and Sever, A., Biochar from the Straw-Stalk of Rapeseed Plant, Energy & Fuels, vol. 14, pp. 336-339, 2000.
Is biochar production really carbon-negative?, Environmental Science & Technology, vol. 42, pp. 1388-1388, 2008.
V. Stamatov and Rocha, J. D., Bio-char refineries: an accessible approach for the development of biomass-based industry, International Journal of Global Energy Issues, vol. 27, pp. 217-230, 2007.
J. Lehmann, Gaunt, J., and Rondon, M., Bio-char Sequestration in Terrestrial Ecosystems A Review, Mitigation and Adaptation Strategies for Global Change, pp. 403-42, 2006.
J. Lehmann and Rondon, M., Bio-Char Soil Management on Highly Weathered Soils in the Humid Tropics. CRC Taylor & Francis, pp. 517-540, 2006.
J. Lehmann, Bio-energy in the Black, Frontiers in Ecology and the Environment, vol. in press, 2007.
A. Demirbas, Bio-fuels from Agricutural Residues, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, vol. 30, pp. 101 - 109, 2008.
T. A. Ruehr, Biological Charcoal is a valuable resource for Agriculture, Cal Poly State University, San Luis Obispo, CA, San Luis Obispo, CA, 2007.
W. M. Denevan, A bluff model of riverine settlement in prehistoric Amazonia, Annals of the Association of American Geographers, vol. 8, pp. 654-681, 1996.
S. Topoliantz and Ponge, J. - F., Burrowing activity of the geophagous earthworm Pontoscolex corethrurus (Oligochaeta: Glossoscolecidae) in the presence of charcoal, Agriculture,ecosystems & environment. Applied soil ecology, vol. 23 , p. 5, 2003.
C
P. Read, Carbon cycle management with increased photo-synthesis and long-term sinks, 2008. [Online]. Available: http://www.rsnz.org/topics/energy/ccmgmt.php.
E. H. Oelkers and Cole, D. R., Carbon Dioxide Sequestration A Solution to a Global Problem, Elements, vol. 4, pp. 305-310, 2008.
M. Ogawa, Okimori, Y., and Takahashi, F., Carbon Sequestration by Carbonization of Biomass and Forestation: Three Case Studies. Chemins de Fer, Paris, 2005.
A. Harris and Hill, R., CARBON-NEGATIVE PRIMARY PRODUCTION:ROLE OF BIOCARBON AND CHALLENGES FOR ORGANICS IN AOTEAROA/NEW ZEALAND, Journal of Organic Systems, vol. 2, pp. 2-13, 2007.
E. Novotny, Hayes, M., deAzevedo , E., and Bonagamba, T., Characterisation of black carbon-rich samples by 13C solid-state nuclear magnetic resonance, Naturwissenschaften, vol. 93, pp. 447-450, 2006.
A. A. Boateng, Characterization and Thermal Conversion of Charcoal Derived from Fluidized-Bed Fast Pyrolysis Oil Production of Switchgrass†, Industrial & Engineering Chemistry Research, vol. 46, pp. 8857-8862, 2007.
R. L. Tseng and Tseng, S. K., Characterization and use of high surface area activated carbons prepared from cane pith for liquid-phase adsorption, J Hazard Mater, vol. 136, pp. 671-80, 2006.
D. Zhu and Pignatello, J. J., Characterization of Aromatic Compound Sorptive Interactions with Black Carbon (Charcoal) Assisted by Graphite as a Model, Environmental Science & Technology, vol. 39, pp. 2033-2041, 2005.
M. Sander and Pignatello, J. J., Characterization of Charcoal Adsorption Sites for Aromatic Compounds:  Insights Drawn from Single-Solute and Bi-Solute Competitive Experiments, Environmental Science & Technology, vol. 39, pp. 1606-1615, 2005.
S. Endo, Grathwohl, P., Haderlein, S. B., and Schmidt, T. C., Characterization of Sorbent Properties of Soil Organic Matter and Carbonaceous Geosorbents Using n-Alkanes and Cycloalkanes as Molecular Probes, Environmental Science & Technology, vol. 43, pp. 393-400, 2009.
H. Marco and Jan den, O., Charcoal and activated carbon as adsorbate of phytotoxic compounds - a comparative study, Oikos, vol. 108, pp. 202-207, 2005.
M. MacKenzie and DeLuca, T., Charcoal and shrubs modify soil processes in ponderosa pine forests of western Montana, Plant and Soil, vol. 287, pp. 257-266, 2006.
C. Steiner, Das, K., Garcia, M., Forster, B., and Zech, W., Charcoal and smoke extract stimulate the soil microbial community in a highly weathered xanthic Ferralsol, Pedobiologia, vol. 51, pp. 359-366, 2008.
J. O. Skjemstad, Reicosky, D. C., Wilts, A. R., and McGowan, J. A., Charcoal carbon in U.S. agricultural soils, Soil Science Society of America Journal, vol. 66, pp. 1249–1255, 2002.
A. Santiago and Santiago, L., Charcoal Chips as a Practical Subsctrate for Container Horticulture in The Humid Tropics, ISHS Acta Horticulturae, vol. 238, pp. 141-148, 1989.
S. Topoliantz and Ponge, J. - F., Charcoal consumption and casting activity by Pontoscolex corethrurus (Glossoscolecidae) , Applied Soil Ecology, vol. 28, pp. 217-224 , 2005.
D. M. MacKenzie, McIntire, E. J. B., Quideau, S. A., and Graham, R. C., Charcoal Distribution Affects Carbon and Nitrogen Contents in Forest Soils of California, Soil Sci. Soc. Am. J., vol. 72, pp. 1774-1785, 2008.
M. Gundale and DeLuca, T., Charcoal effects on soil solution chemistry and growth of Koeleria macrantha in the ponderosa pine/Douglas-fir ecosystem, Biology and Fertility of Soils, vol. 43, pp. 303-311, 2007.
F. Karaosmanoglu and Tetik, E., Charcoal from the Pyrolysis of Rapeseed Plant Straw-Stalk, Journal Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, vol. 21, pp. 503-510, 1999.
D. A. Laird, The Charcoal Vision: A Win Win Win Scenario for Simultaneously Producing Bioenergy, Permanently Sequestering Carbon, while Improving Soil and Water Quality, Agron. J., vol. 100, pp. 178-181, 2008.
N. Labbe, Harper, D., Rials, T., and Elder, T., Chemical Structure of Wood Charcoal by Infrared Spectroscopy and Multivariate Analysis, Journal of Agricultural and Food Chemistry, vol. 54, pp. 3492-3497, 2006.
D. McKenzie, Gedalof, Z. 'E., Peterson, D. L., and Mote, P., Climatic Change, Wildfire, and Conservation, Conservation Biology, vol. 18, pp. 890-902, 2004.
S. el-Kheshen, Zia, H., Badawi, A., Needham, T. E., and Luzzi, L. A., Coating charcoal with polyacrylate-polymethacrylate copolymer for haemoperfusion. III: The effect of the coat thickness on the adsorptioncapacity of the coated charcoal and its adsorptivity to small and middle size molecules, J Microencapsul, vol. 12, pp. 505-14, 1995.
J. Lehmann and Sohi, S., Comment on "Fire-Derived Charcoal Causes Loss of Forest Humus", Science, vol. 321, p. 1295c-, 2008.
F. C. Wu, Tseng, R. L., and Juang, R. S., Comparisons of porous and adsorption properties of carbons activated by steam and KOH, J Colloid Interface Sci, vol. 283, pp. 49-56, 2005.

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