| [1] | ANTAL M J, GRONLI M. The art, science, and technology of charcoal production[J]. Industrial & Engineering Chemistry Research, 2003, 42(8):1619-1640. |
| [2] | JOHANNES L. A handful of carbon[J]. Nature, 2007, 447(7141):143-144. |
| [3] | HALE S E, HANLEY K, LEHMANN J, et al. Effects of chemical, biological, and physical aging as well as soil addition on the sorption of pyrene to activated carbon and biochar[J]. Environmental Science & Technology, 2011, 45(24):10445-10453. |
| [4] | SPOKAS K A. Review of the stability of biochar in soils:predictability of O:C molar ratios[J]. Carbon Management, 2010, 1(2):289-303. |
| [5] | LAIRD D A. The charcoal vision:A win-win-win scenario for simultaneously producing bioenergy, permanently sequestering carbon, while improving soil and water quality[J]. Agronomy Journal, 2008, 100(1):178-181. |
| [6] | 李力, 刘娅, 陆宇超, 等. 生物炭的环境效应及其应用的研究进展[J]. 环境化学, 2015, 30(8):1411-1421. LI L, LIU Y, LU Y C, et al. Review on environmental effects and applications of biochar[J]. Environmental Chemistry, 2015, 30(8):1411-1421(in Chinese). |
| [7] | ZHU D Q, KWON S, PIGNATELLO J J. Adsorption of single-ring organic compounds to wood charcoals prepared under different thermochemical conditions[J]. Environmental Science & Technology, 2005, 39(11):3990-3998. |
| [8] | VAN Z L, KIMBER S, MORRIS S, et al. Effects of biochar from slow pyrolysis of papermill waste on agronomic performance and soil fertility[J]. Plant and Soil, 2010, 327(1-2):235-246. |
| [9] | MAJOR J, RONDON M, MOLINA D, et al. Maize yield and nutrition during 4 years after biochar application to a colombian savanna oxisol[J]. Plant and Soil, 2010, 333(1-2):117-128. |
| [10] | HALE G, LONG C. Are there productivity spillovers from foreign direct investment in China?[J]. Pacific Economic Review, 2011, 16(2):135-153. |
| [11] | SPOKAS K A, NOVAK J M, VENTEREA R T. Biochar's role as an alternative N-fertilizer:Ammonia capture[J]. Plant and Soil, 2012, 350(1-2):35-42. |
| [12] | 王萌萌, 周启星. 生物炭的土壤环境效应及其机制研究[J]. 环境化学, 2013, 32(5):768-780. WANG M M, ZHOU Q X. Environmental effects and their mechanisms of biochar applied to soils[J]. Environmental Chemistry, 2013, 32(5):768-780(in Chinese). |
| [13] | 陈心想, 何绪生, 耿增超,等. 生物炭对不同土壤化学性质、小麦和糜子产量的影响[J]. 生态学报, 2013, 33(20):6534-6542. CHEN X X, HE X S, GENG Z C,et al. Effects of biochar on selected soil chemical properties and on wheat and millet yield[J].Acta Ecological, 2013, 33(20):6534-6542(in Chinese). |
| [14] | TRYON E H, Effect of charcoal on certain physical, chemical, and biological properties of forest soils[J]. Ecological Monographs, 1948, 18(1):81-115 |
| [15] | LAIRD D A, FLEMING P, DAVIS D D, et al. Impact of biochar amendments on the quality of a typical Midwestern agricultural soil[J]. Geoderma, 2010, 158(3):443-449. |
| [16] | 王震宇, 刘国成, MONICA, 等. 不同热解温度生物炭对Cd(Ⅱ)的吸附特性[J]. 环境科学, 2014, 35(12):4735-4744. WANG Z Y, LIU G C, MONICA, et al. Adsorption of Cd(Ⅱ) varies with biochars derived at different pyrolysis temperatures[J]. Environmental Science, 2014, 35(12):4735-4744(in Chinese). |
| [17] | UCHIMIYA M, BANNON D I, WARTELLE L H. Retention of heavy metals by carboxyl functional groups of biochars in small arms range soil[J]. Journal of Agricultural And Food Chemistry, 2012, 60(7):1798-1809. |
| [18] | SPOKAS K A, KOSKINEN W C, BAKER J M, et al. Impacts of woodchip biochar additions on greenhouse gas production and sorption/degradation of two herbicides in a Minnesota soil[J]. Chemosphere, 2009, 77(4):574-581. |
| [19] | JOSEPh S D, CAMPS-ARBESTAIN M, LIN Y, et al. An investigation into the reactions of biochar in soil[J]. Soil Research, 2010, 48(7):501-515. |
| [20] | WANG Z Y, ZHENG H, LUO Y, et al. Characterization and influence of biochars on nitrous oxide emission from agricultural soil[J]. Environmental Pollution, 2013, 174:289-296. |
| [21] | SPOKAS K A, NOVAK J M, MASIELLO C A, et al. Physical disintegration of biochar:An overlooked process[J]. Environmental Science & Technology Letters, 2014, 1(8):326-332. |
| [22] | CHENG C H, LEHMANN J. Ageing of black carbon along a temperature gradient[J]. Chemosphere, 2009, 75(8):1021-1027. |
| [23] | GUO Y, TANG W, WU J, et al. Mechanism of Cu(Ⅱ) adsorption inhibition on biochar by its aging process[J]. Journal of Environmental Sciences, 2014, 26(10):2123-2130. |
| [24] | 林宁, 张晗, 贾珍珍, 等. 不同生物质来源生物炭对Pb(Ⅱ)的吸附特性[J]. 农业环境科学学报, 2016, 35(5):992-998. LIN N, ZHANG H, JIA Z Z, et al. Adsorption of Pb(Ⅱ)by biochars derived from three types of biomass[J]. Journal of Agro-Environment Science, 2016, 35(5):992-998(in Chinese). |
| [25] | 兰天, 张辉, 刘源, 等. 玉米秸秆生物炭对Pb2+、Cu2+的吸附特征与机制[J]. 江苏农业学报, 2016, 32(2):368-375. LAN T, ZHANG H, LIU Y, et al. Adsorption characteristics and mechanisms of Pb2+ and Cu2+ on corn straw biochar[J]. Jiangsu Journal of Agricultural Science, 2016, 32(2):368-375(in Chinese). |
| [26] | QIAN L B, CHEN B L. Dual role of biochars as adsorbents for aluminum:The effects of oxygen-containing organic components and the scattering of silicate particles[J]. Environmental Science & Technology, 2013, 47(15):8759-8768. |
| [27] | QIAN L B, CHEN B L. Interactions of aluminum with biochars and oxidized biochars:Implications for the biochar aging process[J]. Journal of Agricultural and Food Chemistry, 2014, 62(2):373-380. |
| [28] | YAO F X, CAMPS-ARBESTAIN M, VIRGEL S, et al. Simulated geochemical weathering of a mineral ash-rich biochar in a modified Soxhlet reactor[J]. Chemosphere, 2010, 80(7):724-732. |
| [29] | DONG X, Ma L Q, LI Y C. Characteristics and mechanisms of hexavalent chromium removal by biochar from sugar beet tailing[J]. Journal of Hazardous Materials, 2011, 190(1):909-915. |
| [30] | 徐楠楠, 林大松, 徐应明, 等. 玉米秸秆生物炭对Cd 2+的吸附特性及影响因素[J]. 农业环境科学学报, 2014, 33(5):958-964. XU N N, LIN D S, XU Y M, et al. Adsorption of aquatic Cd2+ by biochar obtained from corn stover[J]. Journal of Agro-Environment Science, 2014, 33(5):958-964(in Chinese). |