Found 177 results
Author Keyword Title [ Type(Desc)] Year
Journal Article
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.
W. W. Wilhelm, Johnson, J. M. F., Karlen, D. L., and Lightle, D. T., Corn Stover to Sustain Soil Organic Carbon Further Constrains Biomass Supply, Agron J, vol. 99, pp. 1665-1667, 2007.
D. L. Karlen, Hurley, E. G., Andrews, S. S., Cambardella, C. A., Meek, D. W., Duffy, M. D., and Mallarino, A. P., Crop Rotation Effects on Soil Quality at Three Northern Corn/Soybean Belt Locations, Agron J, vol. 98, pp. 484-495, 2006.
L. C. Bornemann, Kookana, R. S., and Welp, G., Differential sorption behaviour of aromatic hydrocarbons on charcoals prepared at different temperatures from grass and wood, Chemosphere, vol. 67, pp. 1033-42, 2007.
E. Meszaros, Jakab, E., Varhegyi, G., Bourke, J., Manley-Harris, M., Nunoura, T., and Antal, M. J., Do All Carbonized Charcoals Have the Same Chemical Structure? 1. Implications of Thermogravimetry−Mass Spectrometry Measurements, Industrial & Engineering Chemistry Research, vol. 46, pp. 5943-5953, 2007.
G. G. Stavropoulos, Samaras, P., and Sakellaropoulos, G. P., Effect of activated carbons modification on porosity, surface structure and phenol adsorption, J Hazard Mater, vol. 151, pp. 414-21, 2008.
J. Zhang, Huang, Z. - H., Lv, R., Yang, Q. - H., and Kang, F., Effect of Growing CNTs onto Bamboo Charcoals on Adsorption of Copper Ions in Aqueous Solution, Langmuir, vol. 25, pp. 269-274, 2009.
J. J. Pignatello, Kwon, S., and Lu, Y., Effect of natural organic substances on the surface and adsorptive properties of environmental black carbon (char): attenuation of surface activity by humic and fulvic acids, Environ Sci Technol, vol. 40, pp. 7757-63, 2006.
S. Kwon and Pignatello, J. J., Effect of natural organic substances on the surface and adsorptive properties of environmental black carbon (char): pseudo pore blockage by model lipid components and its implications for N2-probed surface properties of natural sorbents, Environ Sci Technol, vol. 39, pp. 7932-9, 2005.
U. Focht, The Effect of Smoke from Charcoal Kilns on Soil Respiration, Environmental Monitoring and Assessment, vol. 59, pp. 73-80, 1999.
J. W. Gilliam, Cox, F. R., and Reid, P. H., Effects of Adding Charcoal During Dilute Acid Extraction of Manganese from Soils, Soil Sci. Soc. Am. J., vol. 32, pp. 511-514, 1968.
Y. Yanai, Toyota, K., and Okazaki, M., Effects of charcoal addition on N2O emissions from soil resulting from rewetting air-dried soil in short-term laboratory experiments, Soil Science and Plant Nutrition, vol. 53, pp. 181-188, 2007.
P. G. Oguntunde, Fosu, M., Ajayi, A. E., and van de Giesen, N., Effects of charcoal production on maize yield, chemical properties and texture of soil, Biology and Fertility of Soils, vol. 39, 2004.
M. Kadota and Niimi, Y., Effects of charcoal with pyroligneous acid and barnyard manure on bedding plants, Scientia Horticulturae , vol. 101, pp. 327-332, 2004.
M. Yamato, Okimori, Y., Wibowo, I. F., Anshori, S., and Ogawa, M., Effects of the application of charred bark of Acacia mangium on the yield of maize, cowpea and peanut, and soil chemical properties in South Sumatra, Indonesia, Soil Science and Plant Nutrition, vol. 52, pp. 489-495, 2006.
K. Mochidzuki, Soutric, F., Tadokoro, K., Antal, M. J., Toth, M., Zelei, B., and Varhegyi, G., Electrical and Physical Properties of Carbonized Charcoals, Industrial & Engineering Chemistry Research, vol. 42, pp. 5140-5151, 2003.
J. L. Gaunt and Lehmann, J., Energy Balance and Emissions Associated with Biochar Sequestration and Pyrolysis Bioenergy Production, Environmental Science. Technolology, vol. 42, p. 4152, 2008.
M. J. Robinson, Barrett, S. R., Nhoy, K., Pandey, R. K., Phillips, J., Ramirez, O. M., and Rodriguez, R. I., Energy Dispersive X-ray Fluorescence Analysis of Sulfur in Biomass, Energy & Fuels, Submitted.
A. International Energy, Energy for Cooking in Developing Countries, SourceOECD Energy, vol. 2006, pp. 724-774, 2006.
H. Karapanagioti, James, G., Sabatini, D., Kalaitzidis, S., Christanis, K., and Gustafsson, O., Evaluating Charcoal Presence in Sediments and its Effect on Phenanthrene Sorption, Water, Air and Soil Pollution: Focus, vol. 4, pp. 359-373, 2004.
P. L. Waller and Wilson, F. N., EVALUATION OF GROWING MEDIA FOR CONSUMER USE, Acta Hort. (ISHS), pp. 51-58, 1984.
T. H. Nguyen, Cho, H. H., Poster, D. L., and Ball, W. P., Evidence for a pore-filling mechanism in the adsorption of aromatic hydrocarbons to a natural wood char, Environ Sci Technol, vol. 41, pp. 1212-7, 2007.
M. T. O. Jonker, Hawthorne, S. B., and Koelmans, A. A., Extremely Slowly Desorbing Polycyclic Aromatic Hydrocarbons from Soot and Soot-like Materials:  Evidence by Supercritical Fluid Extraction, Environmental Science & Technology, vol. 39, pp. 7889-7895, 2005.
M. Alexis, Rasse, D., Rumpel, C., Bardoux, G., chot , N., Schmalzer, P., Drake, B., and Mariotti, A., Fire impact on C and N losses and charcoal production in a scrub oak ecosystem, Biogeochemistry, vol. 82, pp. 201-216, 2007.
M. J. Antal, Mochidzuki, K., and Paredes, L. S., Flash Carbonization of Biomass, Industrial & Engineering Chemistry Research, vol. 42, pp. 3690-3699, 2003.
R. Lal, Food Insecurity's Dirty Secret, Science, vol. 322, pp. 673-674, 2008.
D. Mead, Forests for Energy and the Role of Planted Trees, Critical Reviews in Plant Sciences, vol. 24, pp. 407-421, 2005.
H. A. Mazloum and Rowley, D., The growth requirements of H, The Journal of Pathology and Bacteriology, vol. 70, pp. 439-447, 1955.
M. J. Antal, Croiset, E., Dai, X., DeAlmeida, C., Mok, W. S. L., Norberg, N., Richard, J. R., and Al Majthoub, M., High-Yield Biomass Charcoal, Energy Fuels, vol. 10, pp. 652-658, 1996.
S. Topoliantz, Ponge, J. F., and Lavelle, P., Humus components and biogenic structures under tropical slash-and-burn agriculture, European Journal of Soil Science, vol. 57, pp. 269-278, 2006.
B. E. Hatt, Fletcher, T. D., and Deletic, A., Hydraulic and Pollutant Removal Performance of Fine Media Stormwater Filtration Systems, Environmental Science & Technology, vol. 42, pp. 2535-2541, 2008.
A. S. Gunasekara, Simpson, M. J., and Xing, B., Identification and Characterization of Sorption Domains in Soil Organic Matter Using Structurally Modified Humic Acids, Environmental Science & Technology, vol. 37, pp. 852-858, 2003.
J. M. Novak, Busscher, W. J., Laird, D. L., Ahmedna, M., Watts, D. W., and Niandou, M. A., Impact of Biochar Amendment on Fertility of a Southeastern Coastal Plain Soil, Soil Science, vol. 174, pp. 105-112, 2009.
J. Martins, The Impact of the Use of Energy Sources on the Quality of Life of Poor Communities, Social Indicators Research, vol. 72, pp. 373-402, 2005.
H. Tanaka, Kyaw, K., Toyota, K., and Motobayashi, T., Influence of application of rice straw, farmyard manure, and municipal biowastes on nitrogen fixation, soil microbial biomass N, and mineral N in a model paddy microcosm, Biology and Fertility of Soils, vol. 42, pp. 501-505, 2006.
Suhas, Carrott, P. J., and Ribeiro Carrott, M. M., Lignin--from natural adsorbent to activated carbon: a review, Bioresour Technol, vol. 98, pp. 2301-12, 2007.
C. Steiner, Teixeira, W. G., Lehmann, J., Nehls, T., de Mac, J. L. V., Blum, W. E. H., and Zech, W., Long term Effects of manure, charcoal and mineral fertilization on crop production and fertility on a highly weathered Central Amazonian upland soil, Plant Soil, 2007.
C. Steiner, Teixeira, W. G., Lehmann, J., Nehls, T., de Mac, J. L. V., Blum, W. E. H., and Zech, W., Long term Effects of manure, charcoal and mineral fertilization on crop production and fertility on a highly weathered Central Amazonian upland soil, Plant Soil, 2007.
B. T. Nguyen, Lehmann, J., Kinyangi, J., Smernik, R., Riha, S. J., and Engelhard, M. H., Long-term black carbon dynamics in cultivated soil, Biogeochemistry (2008) 89:295, vol. 2008, p. 295, 2008.
S. Zingore, Manyame, C., Nyamugafata, P., and Giller, K. E., Long-term changes in organic matter of woodland soils cleared for arable cropping in Zimbabwe, European Journal of Soil Science, vol. 56, pp. 727-736, 2005.
J. Jastrow, Amonette, J., and Bailey, V., Mechanisms controlling soil carbon turnover and their potential application for enhancing carbon sequestration, Climatic Change, vol. 80, pp. 5-23, 2007.
R. L. Tseng, Mesopore control of high surface area NaOH-activated carbon, J Colloid Interface Sci, vol. 303, pp. 494-502, 2006.
E. Eckmeier, Gerlach, R., Skjemstad, J. O., Ehrmann, O., and Schmidt, M. W. I., Minor changes in soil organic carbon and charcoal concentrations detected in a temperate deciduous forest a year after an experimental slash-and-burn, Biogeosciences, pp. 377-383, 2007.
C. - H. Cheng, Lehmann, J., and Engelhard, M. H., Natural oxidation of black carbon in soils: Changes in molecular form and surface charge along a climosequence, Geochimica et Cosmochimica Acta, vol. 72, p. 1598, 2008.
J. A. Leenheer, Rostad, C. E., Barber, L. B., Schroeder, R. A., Anders, R., and Davisson, L. M., Nature and Chlorine Reactivity of Organic Constituents from Reclaimed Water in Groundwater, Los Angeles County, California, Environmental Science & Technology, vol. 35, pp. 3869-3876, 2001.
D. B. Jaynes, Colvin, T. S., Karlen, D. L., Cambardella, C. A., and Meek, D. W., Nitrate Loss in Subsurface Drainage as Affected by Nitrogen Fertilizer Rate, J Environ Qual, vol. 30, pp. 1305-1314, 2001.
D. L. Dinnes, Karlen, D. L., Jaynes, D. B., Kaspar, T. C., Hatfield, J. L., Colvin, T. S., and Cambardella, C. A., Nitrogen Management Strategies to Reduce Nitrate Leaching in Tile-Drained Midwestern Soils, Agron J, vol. 94, pp. 153-171, 2002.
R. J. Smernik, Kookana, R. S., and Skjemstad, J. O., NMR Characterization of 13C-Benzene Sorbed to Natural and Prepared Charcoals, Environmental Science & Technology, vol. 40, pp. 1764-1769, 2006.
Nutrient constraints to tropical agroecosystemproductivity in long-term degrading soils, Global Change Biology, vol. 14, p. 2810, Submitted.
M. Khan, Kim, K. - W., Mingzhi, W., Lim, B. - K., Lee, W. - H., and Lee, J. - Y., Nutrient-impregnated charcoal: an environmentally friendly slow-release fertilizer, The Environmentalist, vol. 28, pp. 231-235, 2008.

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