[1] XING W Q, ZHANG H Y, SCHECKEL K G, et al.Heavy Metal and Metalloid Concentrations in Components of 25 Wheat (Triticum aestivum) Varieties in the Vicinity of Lead Smelters in Henan Province, China[J].Environmental Monitoring and Assessment, 2016, 188(1):23. [2] 卢一富, 邱坤艳.铅冶炼企业周边大气降尘中铅、镉、砷量及其对土壤的影响[J].环境监测管理与技术, 2014, 26(3):60-63.[LU Yi-fu, QIU Kun-yan.The Quantum of Pb, Cd and As in the Ambient Air of Lead Smelting Enterprises and Their Effects on Soils[J].The Administration and Technique of Environmental Monitoring, 2014, 26(3):60-63.] [3] 刘艳, 马茂华, 吴胜军, 等.干湿交替下土壤团聚体稳定性研究进展与展望[J].土壤, 2018, 50(5):853-865.[LIU Yan, MA Mao-hua, WU Sheng-jun, et al.Soil Aggregates as Affected by Wetting-drying Cycle:A Review[J].Soils, 2018, 50(5):853-865.] [4] 路雨楠, 徐殿斗, 成杭新, 等.土壤团聚体中重金属富集特征研究进展[J].土壤通报, 2014, 45(4):1008-1013.[LU Yu-nan, XU Dian-dou, CHENG Hang-xin, et al.Recent Advances in Studying Characteristics of Heavy Metals Enriched in Soil Aggregates[J].Chinese Journal of Soil Science, 2014, 45(4):1008-1013.] [5] 郑凤君, 王雪, 李生平, 等.免耕覆盖下土壤水分、团聚体稳定性及其有机碳分布对小麦产量的协同效应[J].中国农业科学, 2021, 54(3):596-607.[ZHENG Feng-jun, WANG Xue, LI Sheng-ping, et al.Synergistic Effects of Soil Moisture, Aggregate Stability and Organic Carbon Distribution on Wheat Yield under No-tillage Practice[J].Scientia Agricultura Sinica, 2021, 54(3):596-607.] [6] 李秋嘉, 薛志婧, 周正朝.宁南山区植被恢复对土壤团聚体养分特征及微生物特性的影响[J].应用生态学报, 2019, 30(1):137-145.[LI Qiu-jia, XUE Zhi-jing, ZHOU Zheng-chao.Effects of Vegetation Restoration on Nutrient and Microbial Properties of Soil Aggregates with Different Particle Sizes in the Loess Hilly Regions of Ningxia, Northwest China[J].Chinese Journal of Applied Ecology, 2019, 30(1):137-145.] [7] 朱凯, 马茂华, 李文娟, 等.三峡水库消落带不同土地利用对土壤团聚体稳定性及其碳氮分布的影响[J].长江流域资源与环境, 2022, 31(7):1503-1513.[ZHU Kai, MA Mao-hua, LI Wen-juan, et al.Effects of Land-use Types on Soil Aggregate Stability and Organic Carbon and Nitrogen in Riparian Zone of Three Gorges Reservoir[J].Resources and Environment in the Yangtze Basin, 2022, 31(7):1503-1513.] [8] 赵珂, 杨秋云, 化党领, 等.褐煤基改良剂对石灰性土壤复合体镉赋存形态的影响[J].中国水土保持科学, 2016, 14(3):93-100.[ZHAO Ke, YANG Qiu-yun, HUA Dang-ling, et al.Effects of Lignite-based Amendments on Cadmium Chemical Speciation in Calcareous Soil Complexes[J].Science of Soil and Water Conservation, 2016, 14(3):93-100.] [9] 刘新梅, 樊文华, 张昊, 等.改良剂对矿区复垦土壤机械稳定性团聚体及有机碳的影响[J].应用与环境生物学报, 2021, 27(4):970-977.[LIU Xin-mei, FAN Wen-hua, ZHANG Hao, et al.Effects of Amendments on Mechanical Stability Aggregates and Organic Carbon in Reclaimed Soil[J].Chinese Journal of Applied and Environmental Biology, 2021, 27(4):970-977.] [10] 张贺, 杨静, 周吉祥, 等.连续施用土壤改良剂对砂质潮土团聚体及作物产量的影响[J].植物营养与肥料学报, 2021, 27(5):791-801.[ZHANG He, YANG Jing, ZHOU Ji-xiang, et al.Effects of Organic and Inorganic Amendments on Aggregation and Crop Yields in Sandy Fluvo-aquic Soil[J].Journal of Plant Nutrition and Fertilizers, 2021, 27(5):791-801.] [11] 罗谦, 李英菊, 秦樊鑫, 等.铅锌矿区周边耕地土壤团聚体重金属污染状况及风险评估[J].生态环境学报, 2020, 29(3):605-614.[LUO Qian, LI Ying-ju, QIN Fan-xin, et al.Contamination Status and Risk Assessment of Heavy Metals in Soil Aggregates of Pb-Zn Mining Area[J].Ecology and Environmental Sciences, 2020, 29(3):605-614.] [12] 程剑雄, 谢更新, 丁文川, 等.化学淋洗对土壤团聚体稳定性及其重金属赋存形态的影响[J].重庆大学学报, 2021, 44(4):86-96.[CHENG Jian-xiong, XIE Geng-xin, DING Wen-chuan, et al.Effects of Chemical Washing on the Stability of Soil Aggregates and the Form of Heavy Metals[J].Journal of Chongqing University, 2021, 44(4):86-96.] [13] HOU D Y, O'CONNOR D, NATHANAIL P, et al.Integrated GIS and Multivariate Statistical Analysis for Regional Scale Assessment of Heavy Metal Soil Contamination:A Critical Review[J].Environmental Pollution, 2017, 231:1188-1200. [14] HAN B, WEATHERLEY A J, MUMFORD K, et al.Modification of Naturally Abundant Resources for Remediation of Potentially Toxic Elements:A Review[J].Journal of Hazardous Materials, 2022, 421:126755. [15] 王平艳, 路旭阳, 田吉宏, 等.昭通褐煤"腐植酸的提取:腐黑物的低温热解"的梯级利用特性[J].化工进展, 2017, 36(7):2443-2450.[WANG Ping-yan, LU Xu-yang, TIAN Ji-hong, et al.Cascade Utilization Characteristics of Zhaotong Lignite "Extraction of Humic Acid from It:Low Temperature Pyrolysis of Humin"[J].Chemical Industry and Engineering Progress, 2017, 36(7):2443-2450.] [16] 黄金凤, 赵义龙, 赵金香, 等.腐植酸的提取及其成分含量测定[J].四川畜牧兽医, 2007, 34(5):27-28.[HUANG Jin-feng, ZHAO Yi-long, ZHAO Jin-xiang, et al.Extraction of Humic Acid and Determination of Its Component Content[J].Sichuan Animal & Veterinary Sciences, 2007, 34(5):27-28.] [17] CLEMENTE R, BERNAL M P.Fractionation of Heavy Metals and Distribution of Organic Carbon in Two Contaminated Soils Amended with Humic Acids[J].Chemosphere, 2006, 64(8):1264-1273. [18] 暴秀丽, 张静静, 化党领, 等.褐煤基材料对Cd2+的吸附机制[J].农业资源与环境学报, 2017, 34(4):343-351.[BAO Xiu-li, ZHANG Jing-jing, HUA Dang-ling, et al.Thermodynamics and Kinetics of Cadmium Ion Adsorption onto Lignite-derived Amendments[J].Journal of Agricultural Resources and Environment, 2017, 34(4):343-351.] [19] YAGMUR E, SIMSEK E H, AKTAS Z, et al.Effect of CuO Receptor on the Liquid Yield and Composition of Oils Derived from Liquefaction of Coals by Microwave Energy[J].Energy Conversion and Management, 2008, 49(11):3043-3050. [20] ZAREIE H, ÖZTAŞ N, GüNDOǦAN M, et al.Images of Demineralized Coal Surfaces by Scanning Tunnelling Microscopy[J].Fuel, 1996, 75(7):855-857. [21] STARCK J, BURG P, MULLER S, et al.The Influence of Demineralisation and Ammoxidation on the Adsorption Properties of an Activated Carbon Prepared from a Polish Lignite[J].Carbon, 2006, 44(12):2549-2557. [22] 刘焕梅, 刘焕昱, 孙晓然.反相悬浮法制备腐植酸高吸水性树脂[J].化学世界, 2012, 53(8):463-466, 470.[LIU Huan-mei, LIU Huan-yu, SUN Xiao-ran.Synthesis Humic Acid Super-absorbent Resin by Reversed-phase Suspension Polymerization[J].Chemical World, 2012, 53(8):463-466, 470.] [23] 黄占斌, 朱书全, 张铃春, 等.保水剂在农业改土节水中的效应研究[J].水土保持研究, 2004, 11(3):57-60.[HUANG Zhan-bin, ZHU Shu-quan, ZHANG Ling-chun, et al.The Effect on Soil Improving and Water Saving Applied with Chemical Aquasorb in Agriculture[J].Research of Soil and Water Conservation, 2004, 11(3):57-60.] [24] PUSZ A.Influence of Brown Coal on Limit of Phytotoxicity of Soils Contaminated with Heavy Metals[J].Journal of Hazardous Materials, 2007, 149(3):590-597. [25] TESSIER A, CAMPBELL P G C, BISSON M.Sequential Extraction Procedure for the Speciation of Particulate Trace Metals[J].Analytical Chemistry, 1979, 51(7):844-851. [26] 李彦霈, 邵明安, 王娇.蚯蚓粪施用量对黄土区典型土壤团聚体及其有机碳分布的影响[J].农业工程学报, 2021, 37(3):90-98.[LI Yan-pei, SHAO Ming-an, WANG Jiao.Effects of Earthworm Cast Application Rate on Soil Aggregates and Aggregate-associated Organic Carbon Distribution in Typical Soils from the Loess Areas[J].Transactions of the Chinese Society of Agricultural Engineering, 2021, 37(3):90-98.] [27] 冯露, 李富程, 蔡敏, 等.沼液施用年限对土壤团聚体、养分及重金属的影响[J].广东农业科学, 2021, 48(3):81-88.[FENG Lu, LI Fu-cheng, CAI Min, et al.Effects of Biogas Slurry Application Years on Soil Aggregates, Nutrients and Heavy Metals[J].Guangdong Agricultural Sciences, 2021, 48(3):81-88.] [28] 金亚波, 寇智瑞, 韦建玉, 等.有机物料对黄壤烟田土壤团聚体组成及土壤肥力的影响[J].西南大学学报(自然科学版), 2020, 42(8):9-16.[JIN Ya-bo, KOU Zhi-rui, WEI Jian-yu, et al.Effects of Organic Materials on Soil Available Nutrients and Aggregate Composition in Continuous Cropping Tobacco Fields[J].Journal of Southwest University (Natural Science Edition), 2020, 42(8):9-16.] [29] 尚杰, 耿增超, 赵军, 等.生物炭对塿土水热特性及团聚体稳定性的影响[J].应用生态学报, 2015, 26(7):1969-1976.[SHANG Jie, GENG Zeng-chao, ZHAO Jun, et al.Effects of Biochar on Water Thermal Properties and Aggregate Stability of Lou Soil[J].Chinese Journal of Applied Ecology, 2015, 26(7):1969-1976.] [30] TISDALL J M, OADES J M.Organic Matter and Water-stable Aggregates in Soils[J].Journal of Soil Science, 1982, 33(2):141-163. [31] PUGET P, CHENU C, BALESDENT J.Dynamics of Soil Organic Matter Associated with Particle-size Fractions of Water-stable Aggregates[J].European Journal of Soil Science, 2000, 51(4):595-605. [32] OADES J M.Soil Organic Matter and Structural Stability:Mechanisms and Implications for Management[J].Plantand Soil, 1984, 76(1):319-337. [33] 丁亚玲, 刘栓, 董梦, 等.褐煤与稻秸秆混合制备生物炭及其对重金属的吸附研究[J].化工技术与开发, 2021, 50(增刊1):55-58.[DING Ya-ling, LIU Shuan, DONG Meng, et al.Preparation of Biochar with Lignite and Rice Straw and Its Adsorption to Heavy Metals[J].Technology & Development of Chemical Industry, 2021, 50(Suppl. 1):55-58.] [34] 张保华, 刘子亭, 何毓蓉, 等.应用分形维数研究土壤团聚体与低吸力段持水性的关系[J].土壤通报, 2006, 37(5):857-860.[ZHANG Bao-hua, LIU Zi-ting, HE Yu-rong, et al.Relationship between Soil Aggregates and Water Content within Low Suctions Studied by Using the Fractal Dimension[J].Chinese Journal of Soil Science, 2006, 37(5):857-860.] [35] 谢薇, 杨耀栋, 侯佳渝, 等.天津蔬菜主产区土壤中Cd的有效性及关键调控因子研究[J].物探与化探, 2020, 44(4):855-862.[XIE Wei, YANG Yao-dong, HOU Jia-yu, et al.Availability and Key Regulator of Cadmium in Soil of Main Vegetable Production Areas in Tianjin[J].Geophysical and Geochemical Exploration, 2020, 44(4):855-862.] [36] 刘霞, 刘树庆, 王胜爱.河北主要土壤中Cd和Pb的形态分布及其影响因素[J].土壤学报, 2003, 40(3):393-400.[LIU Xia, LIU Shu-qing, WANG Sheng-ai.Distribution of Cadmium and Lead Forms and Its Affecting Factors in Soils of Hebei Province[J].Acta Pedologica Sinica, 2003, 40(3):393-400.] [37] 杨金康, 朱利楠, 杨秋云, 等.硅钙镁肥和改性腐殖酸对土壤Cd形态和小麦Cd积累的影响[J].生态与农村环境学报, 2021, 37(6):808-816.[YANG Jin-kang, ZHU Li-nan, YANG Qiu-yun, et al.Effects of Silicon-calcium-magnesium Fertilizer and Modified Humic Acid on Soil Cadmium Chemical Fractions and Accumulation in Wheat[J].Journal of Ecology and Rural Environment, 2021, 37(6):808-816.] [38] 张良运, 李恋卿, 潘根兴, 等.重金属污染可能改变稻田土壤团聚体组成及其重金属分配[J].应用生态学报, 2009, 20(11):2806-2812.[ZHANG Liang-yun, LI Lian-qing, PAN Gen-xing, et al.Effects of Heavy Metals Pollution on Paddy Soil Aggregates Composition and Heavy Metals Distribution[J].Chinese Journal of Applied Ecology, 2009, 20(11):2806-2812.] [39] 蒲昌英, 刘昱昊.土壤团聚体中重金属及有机质的分布[J].科学技术创新, 2018(13):19-20.[PU Chang-ying, LIU Yu-hao.Distribution of Heavy Metals and Organic Matter in Soil Aggregates[J].Scientific and Technological Innovation, 2018(13):19-20.] [40] SONG J Y, HE Q L, HU X L, et al.Highly Efficient Removal of Cr(Ⅵ) and Cu(Ⅱ) by Biochar Derived from Artemisia argyi Stem[J].Environmental Science and Pollution Research, 2019, 26(13):13221-13234. [41] XU X Y, SCHIERZ A, XU N, et al.Comparison of the Characteristics and Mechanisms of Hg(Ⅱ) Sorption by Biochars and Activated Carbon[J].Journal of Colloid and Interface Science, 2016, 463:55-60. [42] YANG F, ZHANG S S, SUN Y Q, et al.A Novel Electrochemical Modification Combined with One-step Pyrolysis for Preparation of Sustainable Thorn-like Iron-based Biochar Composites[J].Bioresource Technology, 2019, 274:379-385. [43] WANG R Z, HUANG D L, LIU Y G, et al.Investigating the Adsorption Behavior and the Relative Distribution of Cd2+ Sorption Mechanisms on Biochars by Different Feedstock[J].Bioresource Technology, 2018, 261:265-271. |