參考文獻 |
Ahmad, M., Lee, S. S., Oh, S.-E., Mohan, D., Moon, D. H., Lee, Y. H., & Ok, Y. S., "Modeling adsorption kinetics of trichloroethylene onto biochars derived from soybean stover and peanut shell wastes", Environmental Science and Pollution Research, 20(12), 8364-8373, 2013.
Ahmad, M., Rajapaksha, A. U., Lim, J. E., Zhang, M., Bolan, N., Mohan, D., . . . Ok, Y. S., "Biochar as a sorbent for contaminant management in soil and water: a review", Chemosphere, 99, 19-33, 2014.
Ahumada, I., Mendoza, J., Navarrete, E., & Ascar, L., "Sequential extraction of heavy metals in soils irrigated with wastewater", Communications in Soil Science and Plant Analysis, 30(9-10), 1507-1519, 1999.
Alatalo, S.-M., Repo, E., Mäkilä, E., Salonen, J., Vakkilainen, E., & Sillanpää, M., "Adsorption behavior of hydrothermally treated municipal sludge & pulp and paper industry sludge", Bioresource technology, 147, 71-76, 2013.
Anderson, R. H., Farrar, D. B., & Zodrow, J. M., "Terrestrial metals bioavailability: A comprehensive review and literature-derived decision rule for ecological risk assessment", Human and Ecological Risk Assessment: An International Journal, 19(6), 1488-1513, 2013.
Arao, T., Kawasaki, A., Baba, K., Mori, S., & Matsumoto, S., "Effects of water management on cadmium and arsenic accumulation and dimethylarsinic acid concentrations in Japanese rice", Environmental Science & Technology, 43(24), 9361-9367, 2009.
Ash, C., Tejnecký, V., Šebek, O., Houška, J., Chala, A. T., Drahota, P., & Drábek, O., "Redistribution of cadmium and lead fractions in contaminated soil samples due to experimental leaching", Geoderma, 241, 126-135, 2015.
Bagheri, N., & Abedi, J., "Preparation of high surface area activated carbon from corn by chemical activation using potassium hydroxide", Chemical engineering research and design, 87(8), 1059-1064, 2009.
Barakat, M., "New trends in removing heavy metals from industrial wastewater", Arabian Journal of Chemistry, 4(4), 361-377, 2011.
Beesley, L., Moreno-Jiménez, E., & Gomez-Eyles, J. L., "Effects of biochar and greenwaste compost amendments on mobility, bioavailability and toxicity of inorganic and organic contaminants in a multi-element polluted soil", Environmental pollution, 158(6), 2282-2287, 2010.
Beesley, L., Moreno-Jiménez, E., Gomez-Eyles, J. L., Harris, E., Robinson, B., & Sizmur, T., "A review of biochars’ potential role in the remediation, revegetation and restoration of contaminated soils", Environmental pollution, 159(12), 3269-3282, 2011.
Begg, S. L., Eijkelkamp, B. A., Luo, Z., Counago, R. M., Morey, J. R., Maher, M. J., . . . O’Mara, M. L., "Dysregulation of transition metal ion homeostasis is the molecular basis for cadmium toxicity in Streptococcus pneumoniae", Nature communications, 6, 6418, 2015.
Ben-Ali, S., Jaouali, I., Souissi-Najar, S., & Ouederni, A., "Characterization and adsorption capacity of raw pomegranate peel biosorbent for copper removal", Journal of Cleaner Production, 142, 3809-3821, 2017.
Bengtsson, G., & Tranvik, L., "Critical metal concentrations for forest soil invertebrates", Water, Air, and Soil Pollution, 47(3-4), 381-417, 1989.
Boehm, H. P., "Surface oxides on carbon and their analysis: a critical assessment", Carbon, 40(2), 145-149, 2002.
Boivin, P., Favre, F., Hammecker, C., Maeght, J.-L., Delarivière, J., Poussin, J.-C., & Wopereis, M., "Processes driving soil solution chemistry in a flooded rice-cropped vertisol: analysis of long-time monitoring data", Geoderma, 110(1-2), 87-107, 2002.
Bolan, N., Adriano, D., & Mahimairaja, S., "Distribution and bioavailability of trace elements in livestock and poultry manure by-products", Critical Reviews in Environmental Science and Technology, 34(3), 291-338, 2004.
Bradl, H. B., "Adsorption of heavy metal ions on soils and soils constituents", Journal of colloid and interface science, 277(1), 1-18, 2004.
Brümmer, G., Heavy metal species, mobility and availability in soils The importance of chemical “speciation” in environmental processes (pp. 169-192), Springer,1986.
Caetano, M., Madureira, M.-J., & Vale, C., "Metal remobilisation during resuspension of anoxic contaminated sediment: short-term laboratory study", Water, Air, and Soil Pollution, 143(1-4), 23-40, 2003.
Caporale, A. G., Pigna, M., Sommella, A., & Conte, P., "Effect of pruning-derived biochar on heavy metals removal and water dynamics", Biology and fertility of soils, 50(8), 1211-1222, 2014.
Cattani, I., Romani, M., & Boccelli, R., "Effect of cultivation practices on cadmium concentration in rice grain", Agronomy for sustainable development, 28(2), 265-271, 2008.
Chan, K. Y., & Xu, Z., "Biochar: nutrient properties and their enhancement", Biochar for environmental management: Science and technology, 1, 67-84, 2009.
Chaney, Reeves, P. G., Ryan, J. A., Simmons, R. W., Welch, R. M., & Angle, J. S., "An improved understanding of soil Cd risk to humans and low cost methods to phytoextract Cd from contaminated soils to prevent soil Cd risks", Biometals, 17(5), 549-553, 2004.
Chaney, R., Ryan, J. A., Li, Y., Welch, R., Reeves, P., Brown, S., & Green, C. (1995). Phyto-availability and bio-availability in risk assessment for Cd in agricultural environments. Paper presented at the Proceeding of OECD cadmium workshop, stockholm, Sweden.
Chao, X., Xiang, Q., Qihong, Z., Hanhua, Z., Huang, D., & Zhang, Y., "Effects of Controlled-release Ureas on Heavy-metal Mobility in Multimetal-contaminated Soil", Pedosphere, 2017.
Chen, M., Feng, L., & Yvon, J., "Delayed geochemical hazard: Concept, digital model and case study", Science in China Series D-Earth Sciences, 48(supplⅡ), 311-311, 2005.
Chen, X., Chen, G., Chen, L., Chen, Y., Lehmann, J., McBride, M. B., & Hay, A. G., "Adsorption of copper and zinc by biochars produced from pyrolysis of hardwood and corn straw in aqueous solution", Bioresource technology, 102(19), 8877-8884, 2011.
Chu, T. T. H., "Survey on heavy metals contaminated soils in Thai Nguyen and Hung Yen provinces in Northern Vietnam", Journal of Vietnamese Environment, 1(1), 34-39, 2011.
Clemens, S., Aarts, M. G., Thomine, S., & Verbruggen, N., "Plant science: the key to preventing slow cadmium poisoning", Trends in plant science, 18(2), 92-99, 2013.
Conte, P., Hanke, U. M., Marsala, V., Cimo, G., Alonzo, G., & Glaser, B., "Mechanisms of water interaction with pore systems of hydrochar and pyrochar from poplar forestry waste", Journal of agricultural and food chemistry, 62(21), 4917-4923, 2014.
Conte, P., Hanke, U. M., Marsala, V., Cimò, G., Alonzo, G., & Glaser, B., "Mechanisms of water interaction with pore systems of hydrochar and pyrochar from poplar forestry waste", Journal of agricultural and food chemistry, 62(21), 4917-4923, 2014.
Conte, P., Schmidt, H.-P., & Cimò, G., "Research and application of biochar in Europe", Agricultural and Environmental Applications of Biochar: Advances and Barriers(sssaspecpub63), 409-422, 2016.
Cuypers, A., Plusquin, M., Remans, T., Jozefczak, M., Keunen, E., Gielen, H., . . . Artois, T. J., "Cadmium stress: an oxidative challenge", Biometals, 23(5), 927-940, 2010.
Ding, Y., Liu, Y.-X., Wu, W.-X., Shi, D.-Z., Yang, M., & Zhong, Z.-K., "Evaluation of biochar effects on nitrogen retention and leaching in multi-layered soil columns", Water, Air, & Soil Pollution, 213(1-4), 47-55, 2010.
Elaigwu, S. E., Rocher, V., Kyriakou, G., & Greenway, G. M., "Removal of Pb2+ and Cd2+ from aqueous solution using chars from pyrolysis and microwave-assisted hydrothermal carbonization of Prosopis africana shell", Journal of Industrial and Engineering Chemistry, 20(5), 3467-3473, 2014.
Fang, C., Zhang, T., Li, P., Jiang, R., Wu, S., Nie, H., & Wang, Y., "Phosphorus recovery from biogas fermentation liquid by Ca–Mg loaded biochar", Journal of Environmental Sciences, 29, 106-114, 2015.
Francingues, K. E. G., Burton, G. A., R, N., Wolfe, J., Reible, D. D., Vorhees, D. J., & R, J., Evaluating the effectiveness of contaminated-sediment dredging: ACS Publications, 2008.
Frohne, T., Rinklebe, J., Diaz-Bone, R. A., & Du Laing, G., "Controlled variation of redox conditions in a floodplain soil: impact on metal mobilization and biomethylation of arsenic and antimony", Geoderma, 160(3-4), 414-424, 2011.
Fuertes, A., Arbestain, M. C., Sevilla, M., Maciá-Agulló, J. A., Fiol, S., López, R., . . . Macìas, F., "Chemical and structural properties of carbonaceous products obtained by pyrolysis and hydrothermal carbonisation of corn stover", Soil Research, 48(7), 618-626, 2010.
Garcia, R., & Millan, E., "Heavy metal contents from road soils in Guipuzcoa (Spain)", Science of the total environment, 146, 157-161, 1994.
Ghosh, U., Luthy, R. G., Cornelissen, G., Werner, D., & Menzie, C. A., In-situ sorbent amendments: a new direction in contaminated sediment management: ACS Publications, 2011.
Gilmour, C. C., Riedel, G. S., Riedel, G., Kwon, S., Landis, R., Brown, S. S., . . . Ghosh, U., "Activated carbon mitigates mercury and methylmercury bioavailability in contaminated sediments", Environmental Science & Technology, 47(22), 13001-13010, 2013.
Gomez-Eyles, J. L., Yupanqui, C., Beckingham, B., Riedel, G., Gilmour, C., & Ghosh, U., "Evaluation of biochars and activated carbons for in situ remediation of sediments impacted with organics, mercury, and methylmercury", Environmental Science & Technology, 47(23), 13721-13729, 2013.
Gwenzi, W., Chaukura, N., Noubactep, C., & Mukome, F. N., "Biochar-based water treatment systems as a potential low-cost and sustainable technology for clean water provision", Journal of environmental management, 197, 732-749, 2017.
Haddad, S., Tabatabai, M., & Loynachan, T., "Effects of liming and selected heavy metals on ammonium release in waterlogged agricultural soils", Biology and fertility of soils, 53(2), 153-158, 2017.
Hagner, M., Kemppainen, R., Jauhiainen, L., Tiilikkala, K., & Setälä, H., "The effects of birch (Betula spp.) biochar and pyrolysis temperature on soil properties and plant growth", Soil and Tillage Research, 163, 224-234, 2016.
Hallberg, L., Björn-Rasmussen, E., Rossander, L., & Suwanik, R., "Iron absorption from Southeast Asian diets. II. Role of various factors that might explain low absorption", The American journal of clinical nutrition, 30(4), 539-548, 1977.
He, Z., Shentu, J., Yang, X., Baligar, V. C., Zhang, T., & Stoffella, P. J., "Heavy metal contamination of soils: sources, indicators and assessment", 2015.
Herawati, N., Suzuki, S., Hayashi, K., Rivai, I., & Koyama, H., "Cadmium, copper, and zinc levels in rice and soil of Japan, Indonesia, and China by soil type", Bulletin of environmental contamination and toxicology, 64(1), 33-39, 2000.
Honda, R., Swaddiwudhipong, W., Nishijo, M., Mahasakpan, P., Teeyakasem, W., Ruangyuttikarn, W., . . . Nakagawa, H., "Cadmium induced renal dysfunction among residents of rice farming area downstream from a zinc-mineralized belt in Thailand", Toxicology letters, 198(1), 26-32, 2010.
Hossain, M. K., Strezov, V., Chan, K. Y., Ziolkowski, A., & Nelson, P. F., "Influence of pyrolysis temperature on production and nutrient properties of wastewater sludge biochar", Journal of environmental management, 92(1), 223-228, 2011.
Houben, D., Evrard, L., & Sonnet, P., "Beneficial effects of biochar application to contaminated soils on the bioavailability of Cd, Pb and Zn and the biomass production of rapeseed (Brassica napus L.)", biomass and bioenergy, 57, 196-204, 2013.
Hu, B., Wang, K., Wu, L., Yu, S. H., Antonietti, M., & Titirici, M. M., "Engineering carbon materials from the hydrothermal carbonization process of biomass", Advanced Materials, 22(7), 813-828, 2010.
Hunter, B., Johnson, M., & Thompson, D., "Ecotoxicology of copper and cadmium in a contaminated grassland ecosystem. II. Invertebrates", Journal of Applied Ecology, 587-599, 1987.
Hussain, M., Farooq, M., Nawaz, A., Al-Sadi, A. M., Solaiman, Z. M., Alghamdi, S. S., . . . Siddique, K. H., "Biochar for crop production: potential benefits and risks", Journal of soils and sediments, 17(3), 685-716, 2017.
Inyang, M., & Dickenson, E., "The potential role of biochar in the removal of organic and microbial contaminants from potable and reuse water: a review", Chemosphere, 134, 232-240, 2015.
Inyang, M., Gao, B., Pullammanappallil, P., Ding, W., & Zimmerman, A. R., "Biochar from anaerobically digested sugarcane bagasse", Bioresource technology, 101(22), 8868-8872, 2010.
Inyang, M., Gao, B., Yao, Y., Xue, Y., Zimmerman, A. R., Pullammanappallil, P., & Cao, X., "Removal of heavy metals from aqueous solution by biochars derived from anaerobically digested biomass", Bioresource technology, 110, 50-56, 2012.
Janoš, P., Vávrová, J., Herzogová, L., & Pilařová, V., "Effects of inorganic and organic amendments on the mobility (leachability) of heavy metals in contaminated soil: a sequential extraction study", Geoderma, 159(3-4), 335-341, 2010.
Janssen, M. P., & Hogervorst, R., "Metal accumulation in soil arthropods in relation to micro-nutrients", Environmental pollution, 79(2), 181-189, 1993.
Jawad, H., Jaber, M. Y., & Bonney, M., "The economic order quantity model revisited: an extended exergy accounting approach", Journal of Cleaner Production, 105, 64-73, 2015.
Jindo, K., Mizumoto, H., Sawada, Y., Sanchez-Monedero, M. A., & Sonoki, T., "Physical and chemical characterization of biochars derived from different agricultural residues", Biogeosciences, 11(23), 6613-6621, 2014.
Jo, I., & Koh, M., "Chemical changes in agricultural soils of Korea: data review and suggested countermeasures", Environmental Geochemistry and Health, 26(2), 105-117, 2004.
Joseph, P., "Mechanisms of cadmium carcinogenesis", Toxicology and applied pharmacology, 238(3), 272-279, 2009.
Joseph, S., & Lehmann, J., Biochar for environmental management: an introduction Biochar for Environmental Management (pp. 33-46), Routledge,2015.
Kacan, E., "Optimum BET surface areas for activated carbon produced from textile sewage sludges and its application as dye removal", Journal of environmental management, 166, 116-123, 2016.
Kalijadis, A., Vukcevic, M. M., Jovanović, Z. M., Laušević, Z., & Lausevic, M. D., "Characterisation of surface oxygen groups on different carbon materials by the Boehm method and temperature-programmed desorption", Journal of the Serbian Chemical Society, 76(5), 757-768, 2011.
Kambo, H. S., & Dutta, A., "A comparative review of biochar and hydrochar in terms of production, physico-chemical properties and applications", Renewable and Sustainable Energy Reviews, 45, 359-378, 2015.
Karami, N., Clemente, R., Moreno-Jiménez, E., Lepp, N. W., & Beesley, L., "Efficiency of green waste compost and biochar soil amendments for reducing lead and copper mobility and uptake to ryegrass", Journal of hazardous materials, 191(1-3), 41-48, 2011.
Kashem, M., & Singh, B., "The effect of fertilizer additions on the solubility and plant-availability of Cd, Ni and Zn in soil", Nutrient cycling in Agroecosystems, 62(3), 287-296, 2002.
Kashem, M., & Singh, B., "Transformations in solid phase species of metals as affected by flooding and organic matter", Communications in Soil Science and Plant Analysis, 35(9-10), 1435-1456, 2004.
Kashiwagi, T., Shindoh, K., Hirotsu, N., & Ishimaru, K., "Evidence for separate translocation pathways in determining cadmium accumulation in grain and aerial plant parts in rice", BMC Plant Biology, 9(1), 8, 2009.
Keiluweit, M., Nico, P. S., Johnson, M. G., & Kleber, M., "Dynamic molecular structure of plant biomass-derived black carbon (biochar)", Environmental Science & Technology, 44(4), 1247-1253, 2010.
Khalil, M. A., Janssens, T. K., Berg, M. P., & van Straalen, N. M., "Identification of metal-responsive oribatid mites in a comparative survey of polluted soils", Pedobiologia, 52(3), 207-221, 2009.
Kim, R.-Y., Yoon, J.-K., Kim, T.-S., Yang, J. E., Owens, G., & Kim, K.-R., "Bioavailability of heavy metals in soils: definitions and practical implementation—a critical review", Environmental Geochemistry and Health, 37(6), 1041-1061, 2015.
Kirkham, M., "Cadmium in plants on polluted soils: effects of soil factors, hyperaccumulation, and amendments", Geoderma, 137(1-2), 19-32, 2006.
Klasson, K. T., Wartelle, L. H., Rodgers III, J. E., & Lima, I. M., "Copper (II) adsorption by activated carbons from pecan shells: Effect of oxygen level during activation", Industrial crops and products, 30(1), 72-77, 2009.
Kobayashi, E., Suwazono, Y., Dochi, M., Honda, R., & Kido, T., "Influence of consumption of cadmium-polluted rice or Jinzu River water on occurrence of renal tubular dysfunction and/or Itai-itai disease", Biological trace element research, 127(3), 257-268, 2009.
Kołodyńska, D., Krukowska, J. a., & Thomas, P., "Comparison of sorption and desorption studies of heavy metal ions from biochar and commercial active carbon", Chemical Engineering Journal, 307, 353-363, 2017.
Kondo, K., "Incidence of Minamata Disease in Communities along the Agano River, Niigata, Japan", Nippon Eiseigaku Zasshi (Japanese Journal of Hygiene), 51(2), 599-611, 1996.
Kwon, S., Thomas, J., Reed, B. E., Levine, L., Magar, V. S., Farrar, D., . . . Ghosh, U., "Evaluation of sorbent amendments for in situ remediation of metal‐contaminated sediments", Environmental toxicology and chemistry, 29(9), 1883-1892, 2010.
Laborte, A. G., de Bie, K. C., Smaling, E. M., Moya, P. F., Boling, A. A., & Van Ittersum, M. K., "Rice yields and yield gaps in Southeast Asia: past trends and future outlook", European Journal of Agronomy, 36(1), 9-20, 2012.
Lehmann, J., & Joseph, S., Biochar for environmental management: science, technology and implementation, Routledge, 2015.
Li, H., Liu, Y., Chen, Y., Wang, S., Wang, M., Xie, T., & Wang, G., "Biochar amendment immobilizes lead in rice paddy soils and reduces its phytoavailability", Scientific reports, 6, 31616, 2016.
Li, J., & Xu, Y., "Use of clay to remediate cadmium contaminated soil under different water management regimes", Ecotoxicology and environmental safety, 141, 107-112, 2017.
Li, Y., Meas, A., Shan, S., Yang, R., & Gai, X., "Production and optimization of bamboo hydrochars for adsorption of Congo red and 2-naphthol", Bioresource technology, 207, 379-386, 2016.
Liu, Guo, Z.-H., Xiao, X.-Y., Wang, S., Jiang, Z.-C., & Zeng, P., "Phytostabilisation potential of giant reed for metals contaminated soil modified with complex organic fertiliser and fly ash: a field experiment", Science of the Total Environment, 576, 292-302, 2017.
Liu, W.-X., Shen, L.-F., Liu, J.-W., Wang, Y.-W., & Li, S.-R., "Uptake of toxic heavy metals by rice (Oryza sativa L.) cultivated in the agricultural soil near Zhengzhou City, People’s Republic of China", Bulletin of environmental contamination and toxicology, 79(2), 209-213, 2007.
Liu, Z., Zhang, F.-S., & Wu, J., "Characterization and application of chars produced from pinewood pyrolysis and hydrothermal treatment", Fuel, 89(2), 510-514, 2010.
Lodenius, M., Josefsson, J., Heliövaara, K., Tulisalo, E., & Nummelin, M., "Cadmium in insects after ash fertilization", Insect Science, 16(1), 93-98, 2009.
Long, G. L., & Winefordner, J. D., "Limit of detection. A closer look at the IUPAC definition", Analytical chemistry, 55(7), 712A-724A, 1983.
Ma, J., Qin, G., Zhang, Y., Sun, J., Wang, S., & Jiang, L., "Heavy metal removal from aqueous solutions by calcium silicate powder from waste coal fly-ash", Journal of Cleaner Production, 182, 776-782, 2018.
Mann, J. B., Atomic structure calculations. II. Hartree-Fock wavefunctions and radial expectation values: Hydrogen to lawrencium: Los Alamos Scientific Lab., N. Mex., 1968.
Marrugo-Negrete, J., Pinedo-Hernández, J., & Díez, S., "Assessment of heavy metal pollution, spatial distribution and origin in agricultural soils along the Sinú River Basin, Colombia", Environmental Research, 154, 380-388, 2017.
Martin-Luna, B., Sevilla, E., Gonzalez, A., Bes, M. T., Fillat, M. F., & Peleato, M. L., "Expression of fur and its antisense α-fur from Microcystis aeruginosa PCC7806 as response to light and oxidative stress", Journal of plant physiology, 168(18), 2244-2250, 2011.
Mashhadi, S., Javadian, H., Ghasemi, M., Saleh, T. A., & Gupta, V. K., "Microwave-induced H2SO4 activation of activated carbon derived from rice agricultural wastes for sorption of methylene blue from aqueous solution", Desalination and Water Treatment, 57(44), 21091-21104, 2016.
Meharg, A. A., Norton, G., Deacon, C., Williams, P., Adomako, E. E., Price, A., . . . McGrath, S., "Variation in rice cadmium related to human exposure", Environmental Science & Technology, 47(11), 5613-5618, 2013.
Mohamed, I., Zhang, G.-s., Li, Z.-g., Liu, Y., Chen, F., & Dai, K., "Ecological restoration of an acidic Cd contaminated soil using bamboo biochar application", Ecological Engineering, 84, 67-76, 2015.
Mortensen, L. H., Rønn, R., & Vestergård, M., "Bioaccumulation of cadmium in soil organisms–With focus on wood ash application", Ecotoxicology and environmental safety, 156, 452-462, 2018.
Mukome, F. N., Zhang, X., Silva, L. C., Six, J., & Parikh, S. J., "Use of chemical and physical characteristics to investigate trends in biochar feedstocks", Journal of agricultural and food chemistry, 61(9), 2196-2204, 2013.
Nordberg, G. F., "Historical perspectives on cadmium toxicology", Toxicology and applied pharmacology, 238(3), 192-200, 2009.
Novak, J. M., Lima, I., Xing, B., Gaskin, J. W., Steiner, C., Das, K., . . . Busscher, W. J., "Characterization of designer biochar produced at different temperatures and their effects on a loamy sand", Annals of Environmental Science, 2009.
Nriagu, J. O., & Pacyna, J. M., "Quantitative assessment of worldwide contamination of air, water and soils by trace metals", nature, 333(6169), 134-139, 1988.
Özçimen, D., & Ersoy-Meriçboyu, A., "Characterization of biochar and bio-oil samples obtained from carbonization of various biomass materials", Renewable Energy, 35(6), 1319-1324, 2010.
Ozdemir, I., Şahin, M., Orhan, R., & Erdem, M., "Preparation and characterization of activated carbon from grape stalk by zinc chloride activation", Fuel Processing Technology, 125, 200-206, 2014.
Pan, Y., Bonten, L. T., Koopmans, G. F., Song, J., Luo, Y., Temminghoff, E. J., & Comans, R. N., "Solubility of trace metals in two contaminated paddy soils exposed to alternating flooding and drainage", Geoderma, 261, 59-69, 2016.
Park, J. H., Choppala, G. K., Bolan, N. S., Chung, J. W., & Chuasavathi, T., "Biochar reduces the bioavailability and phytotoxicity of heavy metals", Plant and Soil, 348(1-2), 439, 2011.
Pedersen, B., & Eggum, B., "The influence of milling on the nutritive value of flour from cereal grains. 4. Rice", Plant Foods for Human Nutrition, 33(4), 267-278, 1983.
Plekhanova, I., "Self-purification of loamy-sandy agrosoddy-podzolic soils polluted by sewage sludge in the eastern Moscow region", Eurasian Soil Science, 42(6), 668-674, 2009.
Posthuma, L., Hogervorst, R. F., & Van Straalen, N. M., "Adaptation to soil pollution by cadmium excretion in natural populations of Orchesella cincta (L.)(Collembola)", Archives of Environmental Contamination and Toxicology, 22(1), 146-156, 1992.
Qi, F., Lamb, D., Naidu, R., Bolan, N. S., Yan, Y., Ok, Y. S., . . . Choppala, G., "Cadmium solubility and bioavailability in soils amended with acidic and neutral biochar", Science of the total environment, 610, 1457-1466, 2018.
Qiu, H., Vijver, M. G., & Peijnenburg, W. J., "Interactions of cadmium and zinc impact their toxicity to the earthworm Aporrectodea caliginosa", Environmental toxicology and chemistry, 30(9), 2084-2093, 2011.
Qiu, Y., Cheng, H., Xu, C., & Sheng, G. D., "Surface characteristics of crop-residue-derived black carbon and lead (II) adsorption", Water Research, 42(3), 567-574, 2008.
Rani, A., Kumar, A., Lal, A., & Pant, M., "Cellular mechanisms of cadmium-induced toxicity: a review", International journal of environmental health research, 24(4), 378-399, 2014.
Rao, M. A., Simeone, G. D. R., Scelza, R., & Conte, P., "Biochar based remediation of water and soil contaminated by phenanthrene and pentachlorophenol", Chemosphere, 186, 193-201, 2017.
Rashidi, N. A., & Yusup, S., "Potential of palm kernel shell as activated carbon precursors through single stage activation technique for carbon dioxide adsorption", Journal of Cleaner Production, 168, 474-486, 2017.
Rizwan, M. S., Imtiaz, M., Huang, G., Chhajro, M. A., Liu, Y., Fu, Q., . . . Bashir, S., "Immobilization of Pb and Cu in polluted soil by superphosphate, multi-walled carbon nanotube, rice straw and its derived biochar", Environmental Science and Pollution Research, 23(15), 15532-15543, 2016.
Ro, K., Novak, J., Johnson, M., Szogi, A., Libra, J., Spokas, K., & Bae, S., "Leachate water quality of soils amended with different swine manure-based amendments", Chemosphere, 142, 92-99, 2016.
Roberts, D., Nachtegaal, M., & Sparks, D. L., "Speciation of metals in soils", SOIL SCIENCE SOCIETY OF AMERICA BOOK SERIES, 8, 619, 2005.
Roodbergen, M., Klok, C., & van der Hout, A., "Transfer of heavy metals in the food chain earthworm Black-tailed godwit (Limosa limosa): comparison of a polluted and a reference site in The Netherlands", Science of the total environment, 406(3), 407-412, 2008.
Russell, L., DeHaven, J., & Botts, R., "Toxic effects of cadmium on the garden snail (Helix aspersa)", Bulletin of environmental contamination and toxicology, 26(1), 634-640, 1981.
Satarug, S., Garrett, S. H., Sens, M. A., & Sens, D. A., "Cadmium, environmental exposure, and health outcomes", Ciencia & saude coletiva, 16, 2587-2602, 2011.
Scheirs, J., Vandevyvere, I., Wollaert, K., Blust, R., & De Bruyn, L., "Plant-mediated effects of heavy metal pollution on host choice of a grass miner", Environmental pollution, 143(1), 138-145, 2006.
Schipper, P., Bonten, L., Plette, A., & Moolenaar, S., "Measures to diminish leaching of heavy metals to surface waters from agricultural soils", Desalination, 226(1-3), 89-96, 2008.
Seiler, C., & Berendonk, T. U., "Heavy metal driven co-selection of antibiotic resistance in soil and water bodies impacted by agriculture and aquaculture", Frontiers in microbiology, 3, 399, 2012.
Shaheen, S. M., Rinklebe, J., Rupp, H., & Meissner, R., "Lysimeter trials to assess the impact of different flood–dry-cycles on the dynamics of pore water concentrations of As, Cr, Mo and V in a contaminated floodplain soil", Geoderma, 228, 5-13, 2014a.
Shaheen, S. M., Rinklebe, J., Rupp, H., & Meissner, R., "Temporal dynamics of pore water concentrations of Cd, Co, Cu, Ni, and Zn and their controlling factors in a contaminated floodplain soil assessed by undisturbed groundwater lysimeters", Environmental pollution, 191, 223-231, 2014b.
Simmons, R. W., Pongsakul, P., Chaney, R., Saiyasitpanich, D., Klinphoklap, S., & Nobuntou, W., "The relative exclusion of zinc and iron from rice grain in relation to rice grain cadmium as compared to soybean: Implications for human health", Plant and Soil, 257(1), 163-170, 2003.
Simmons, R. W., Pongsakul, P., Saiyasitpanich, D., & Klinphoklap, S., "Elevated levels of cadmium and zinc in paddy soils and elevated levels of cadmium in rice grain downstream of a zinc mineralized area in Thailand: implications for public health", Environmental Geochemistry and Health, 27(5-6), 501-511, 2005.
Sounthararajah, D., Loganathan, P., Kandasamy, J., & Vigneswaran, S., "Effects of humic acid and suspended solids on the removal of heavy metals from water by adsorption onto granular activated carbon", International journal of environmental research and public health, 12(9), 10475-10489, 2015.
Su, C., Sun, T.-h., SUN, L.-n., ZHOU, Q.-x., & Lei, C., "Influences of phosphate nutritional level on the phytoavailability and speciation distribution of cadmium and lead in soil", Journal of Environmental Sciences, 18(6), 1247-1253, 2006.
Su, Y.-H., McGrath, S. P., & Zhao, F.-J., "Rice is more efficient in arsenite uptake and translocation than wheat and barley", Plant and Soil, 328(1-2), 27-34, 2010.
Sun, X.-F., Ma, Y., Liu, X.-W., Wang, S.-G., Gao, B.-Y., & Li, X.-M., "Sorption and detoxification of chromium (VI) by aerobic granules functionalized with polyethylenimine", Water research, 44(8), 2517-2524, 2010.
Swaileh, K., & Ezzughayyar, A., "Effects of dietary Cd and Cu on feeding and growth rates of the landsnail Helix engaddensis", 2000.
Takaya, C., Fletcher, L., Singh, S., Anyikude, K., & Ross, A., "Phosphate and ammonium sorption capacity of biochar and hydrochar from different wastes", Chemosphere, 145, 518-527, 2016.
Tan, X., Liu, Y., Zeng, G., Wang, X., Hu, X., Gu, Y., & Yang, Z., "Application of biochar for the removal of pollutants from aqueous solutions", Chemosphere, 125, 70-85, 2015.
Thurman, E., Wershaw, R., Malcolm, R., & Pinckney, D., "Molecular size of aquatic humic substances", Organic Geochemistry, 4(1), 27-35, 1982.
Torres-Escribano, S., Leal, M., Vélez, D., & Montoro, R., "Total and inorganic arsenic concentrations in rice sold in Spain, effect of cooking, and risk assessments", Environmental Science & Technology, 42(10), 3867-3872, 2008.
Tran, T. A., & Popova, L. P., "Functions and toxicity of cadmium in plants: recent advances and future prospects", Turkish Journal of Botany, 37(1), 1-13, 2013.
Tsukahara, T., Ezaki, T., Moriguchi, J., Furuki, K., Shimbo, S., Matsuda-Inoguchi, N., & Ikeda, M., "Rice as the most influential source of cadmium intake among general Japanese population", Science of the total environment, 305(1-3), 41-51, 2003.
Tu, C., Zheng, C., & Chen, H., "Effect of applying chemical fertilizers on forms of lead and cadmium in red soil", Chemosphere, 41(1-2), 133-138, 2000.
Tyler, G., Påhlsson, A.-M. B., Bengtsson, G., Bååth, E., & Tranvik, L., "Heavy-metal ecology of terrestrial plants, microorganisms and invertebrates", Water, Air, and Soil Pollution, 47(3-4), 189-215, 1989.
Uchimiya, M., Lima, I. M., Thomas Klasson, K., Chang, S., Wartelle, L. H., & Rodgers, J. E., "Immobilization of heavy metal ions (CuII, CdII, NiII, and PbII) by broiler litter-derived biochars in water and soil", Journal of agricultural and food chemistry, 58(9), 5538-5544, 2010.
Uraguchi, S., & Fujiwara, T., "Cadmium transport and tolerance in rice: perspectives for reducing grain cadmium accumulation", Rice, 5(1), 5, 2012.
Van Gestel, C., Dirven-van Breemen, E., & Baerselman, R., "Accumulation and elimination of cadmium, chromium and zinc and effects on growth and reproduction in Eisenia andrei (Oligochaeta, Annelida)", Science of the total environment, 134, 585-597, 1993.
Van Straalen, N., Donker, M., Vijver, M., & Van Gestel, C., "Bioavailability of contaminants estimated from uptake rates into soil invertebrates", Environmental pollution, 136(3), 409-417, 2005.
Vig, K., Megharaj, M., Sethunathan, N., & Naidu, R., "Bioavailability and toxicity of cadmium to microorganisms and their activities in soil: a review", Advances in Environmental Research, 8(1), 121-135, 2003.
Wang, H., Gao, B., Wang, S., Fang, J., Xue, Y., & Yang, K., "Removal of Pb (II), Cu (II), and Cd (II) from aqueous solutions by biochar derived from KMnO4 treated hickory wood", Bioresource technology, 197, 356-362, 2015.
Wang, M., Chen, A., Wong, M., Qiu, R., Cheng, H., & Ye, Z., "Cadmium accumulation in and tolerance of rice (Oryza sativa L.) varieties with different rates of radial oxygen loss", Environmental pollution, 159(6), 1730-1736, 2011.
Wang, S., Gao, B., Zimmerman, A. R., Li, Y., Ma, L., Harris, W. G., & Migliaccio, K. W., "Removal of arsenic by magnetic biochar prepared from pinewood and natural hematite", Bioresource technology, 175, 391-395, 2015.
Wang, W., Huang, G., An, C., Zhao, S., Chen, X., & Zhang, P., "Adsorption of anionic azo dyes from aqueous solution on cationic gemini surfactant-modified flax shives: synchrotron infrared, optimization and modeling studies", Journal of Cleaner Production, 172, 1986-1997, 2018.
Wang, Z., Chai, L., Wang, Y., Yang, Z., Wang, H., & Wu, X., "Potential health risk of arsenic and cadmium in groundwater near Xiangjiang River, China: a case study for risk assessment and management of toxic substances", Environmental monitoring and assessment, 175(1-4), 167-173, 2011.
Wani, P., Khan, M., & Zaidi, A., "Impact of heavy metal toxicity on plant growth, symbiosis, seed yield and nitrogen and metal uptake in chickpea", Australian Journal of Experimental Agriculture, 47(6), 712-720, 2007.
Welch, R. M., & Graham, R. D., "A new paradigm for world agriculture: meeting human needs: productive, sustainable, nutritious", Field crops research, 60(1-2), 1-10, 1999.
Wright, M. S., Peltier, G. L., Stepanauskas, R., & McArthur, J. V., "Bacterial tolerances to metals and antibiotics in metal-contaminated and reference streams", FEMS microbiology ecology, 58(2), 293-302, 2006.
Wuana, R. A., & Okieimen, F. E., "Heavy metals in contaminated soils: a review of sources, chemistry, risks and best available strategies for remediation", Isrn Ecology, 2011, 2011.
Xu, L.-j., & Yuan, Z., "Effect of Exogenous Cadmium Pollution and Dissolved Organic Matter on Forms of Cd in Soil [J]", Chinese Journal of Soil Science, 6, 049, 2009.
Yang, X., Wan, Y., Zheng, Y., He, F., Yu, Z., Huang, J., . . . Gao, B., "Surface functional groups of carbon-based adsorbents and their roles in the removal of heavy metals from aqueous solutions: a critical review", Chemical Engineering Journal, 2019.
Yang, Z.-F., Chen, Y.-L., Qian, X., Guo, L., & Zhu, H.-Y., "A study of the effect of soil pH on chemical species of cadmium by simulated experiments", Dixue Qianyuan(Earth Science Frontiers), 12(1), 252-260, 2005.
Yao, S., He, J.-S., Marsch, E., Tu, C.-Y., Pedersen, A., Rème, H., & Trotignon, J., "Multi-scale anti-correlation between electron density and magnetic field strength in the solar wind", The Astrophysical Journal, 728(2), 146, 2011.
Ye, X., Li, H., Ma, Y., Wu, L., & Sun, B., "The bioaccumulation of Cd in rice grains in paddy soils as affected and predicted by soil properties", Journal of soils and sediments, 14(8), 1407-1416, 2014.
Ye, X., Li, H., Zhang, L., Chai, R., Tu, R., & Gao, H., "Amendment damages the function of continuous flooding in decreasing Cd and Pb uptake by rice in acid paddy soil", Ecotoxicology and environmental safety, 147, 708-714, 2018.
Yin, D., Wang, X., Peng, B., Tan, C., & Ma, L. Q., "Effect of biochar and Fe-biochar on Cd and As mobility and transfer in soil-rice system", Chemosphere, 186, 928-937, 2017.
Yun, S.-W., & Yu, C., "The leaching characteristics of Cd, Zn, and As from submerged paddy soil and the effect of limestone treatment", Paddy and water environment, 13(1), 61-69, 2015.
Zeng, F., Wei, W., Li, M., Huang, R., Yang, F., & Duan, Y., "Heavy metal contamination in rice-producing soils of Hunan province, China and potential health risks", International journal of environmental research and public health, 12(12), 15584-15593, 2015.
Zhai, C., Tang, W., Jang, X., & Lorenz, K., "Studies of the safety of Chinese wild rice", Food and chemical toxicology, 34(4), 347-352, 1996.
Zhang, R.-H., Li, Z.-G., Liu, X.-D., Wang, B.-c., Zhou, G.-L., Huang, X.-X., . . . Brooks, M., "Immobilization and bioavailability of heavy metals in greenhouse soils amended with rice straw-derived biochar", Ecological Engineering, 98, 183-188, 2017.
Zhang, X., Zhong, T., Liu, L., & Ouyang, X., "Impact of soil heavy metal pollution on food safety in China", PLoS One, 10(8), e0135182, 2015.
Zhang, Z.-W., Moon, C.-S., Watanabe, T., Shimbo, S., & Ikeda, M., "Contents of pollutant and nutrient elements in rice and wheat grown on the neighboring fields", Biological trace element research, 57(1), 39-50, 1997.
Zhao, F.-J., Stroud, J. L., Khan, M. A., & McGrath, S. P., "Arsenic translocation in rice investigated using radioactive 73 As tracer", Plant and soil, 350(1-2), 413-420, 2012.
Zheng, S., & Zhang, M., "Effect of moisture regime on the redistribution of heavy metals in paddy soil", Journal of Environmental Sciences, 23(3), 434-443, 2011.
Zhu, & Guo, X.-j., "Sequential extraction of anaerobic digestate sludge for the determination of partitioning of heavy metals", Ecotoxicology and environmental safety, 102, 18-24, 2014.
Zhu, Q.-H., Huang, D.-Y., Liu, S.-L., Zhou, B., Luo, Z.-C., & Zhu, H.-H., "Flooding-enhanced immobilization effect of sepiolite on cadmium in paddy soil", Journal of soils and sediments, 12(2), 169-177, 2012. |