XIANG Hefeng,YAN Yuzhou,XU Kai,et al.Effects of Biomass Ash on Soil Cadmium Migration Under Rainfall Conditions[J].Research of Soil and Water Conservation,2021,28(03):126-132.
降雨条件下生物质灰对土壤镉迁移性的影响
- Title:
- Effects of Biomass Ash on Soil Cadmium Migration Under Rainfall Conditions
- 文章编号:
- 1005-3409(2021)03-0126-07
- Keywords:
- environmental safety; cadmium migration; leaching; biomass ash; combustion
- 分类号:
- X53
- 文献标志码:
- A
- 摘要:
- 为了探究林火中生物质灰在降雨条件下对土壤中镉(Cd)迁移行为的影响机制,以樟树树叶为原料通过露天燃烧制备生物质灰,按0,5%灰土比加入林地污染土壤中,并在两种雨水(pH=3.8,7.0)条件下开展系列土柱淋溶试验。结果表明:(1)生物质灰在两种淋溶条件下均会提高淋溶液pH、电导率(EC)、土壤溶解性有机碳(DOC)和阳离子交换量(CEC),在酸雨淋溶下pH和DOC值会略低于降雨pH为7.0时。(2)施加生物质灰后土柱中Cd迁移量分别下降了2.5 mg/kg(pH=7.0),2.8 mg/kg(pH=3.8),总镉累计释放量下降了52.6%~64.6%,总淋失率降低了2.8%~34.8%。(3)对土壤中Cd元素释放过程进行拟合,结果较好的是抛物线扩散方程和Elovich方程,表明Cd在降雨条件下的释放过程是由多种因素控制且活化能变化较大的复杂反应过程。综合而言生物质灰会改善土壤物化性质,降低Cd向土壤深层迁移的风险,减少Cd的淋失量,简廉易得且二次污染小,研究为评估重金属镉从林地土壤向水体迁移的环境风险提供理论支撑,生物质灰可作为一种修复材料应用于林地镉污染土壤中,有效促进地表植被生长。
- Abstract:
- This paper aims to explore the influence mechanism of biomass ash in forest fire on the migration behavior of cadmium(Cd)in soil under rainfall conditions. Biomass ash was prepared from camphor tree leaves by open combustion, and was added to the woodland soil at a ratio of 0, 5%. A series of soil column leaching experiments were carried out under two rain water conditions(pH=3.8, 7.0). The results showed that: pH, electrical conductivity(EC), DOC and CEC of soil soluble organic carbon(CEC)with addition of biomass ash were increased under both two leaching conditions; furthermore, pH and DOC values of soils leaching with acid water were slightly lower than those under the rain with pH 7.0; Cd concentration in the soil column with addition of biomass ash decreased by 2.5 mg/kg(pH=3.8), 2.8 mg/kg(pH=7.0); the total cumulative cadmium release decreased by 52.6%~64.6%, and the total leaching rate decreased by 2.8%~34.8%; the release process of Cd in soil was fitted by using parabolic diffusion equation and Elovich equation, indicating that the release process of Cd under rainfall conditions was a complex reaction process controlled by multiple factors and with large changes in activation energy. Biomass ash plays significant role in enhancement of soil physiochemical properties and reduction of the Cd migration with cheap, feasible, environmental-friendly operation, which may shed light on the application of Cd-polluted soil remediation.
参考文献/References:
[1] Shcherbov B L. The role of forest floor in migration of metals and artificial nuclides during forest fires in Siberia[J]. Contemp. Probl. Ecol.,2012,5(2):191-199.[2] Jakubus M, Kaczmarek Z, Michalik J, et al. The effect of different tree plantings and soil preparation methods on contents of selected heavy metals in post-fire soils[J]. Fresenius Environmental Bulletin, 2010,19(2):312-317.[3] Mandal A, Sengupta D. An assessment of soil contamination due to heavy metals around a coal-fired thermal power plant in India[J]. Environmental Geology, 2006,51(3):409-420.[4] Vassilev S V, Baxter D, Andersen L K, et al. An overview of the composition and application of biomass ash. Part 1. Phase-mineral and chemical composition and classification[J]. Fuel, 2013,105:40-76.[5] 黄兰芬,李九玉,陈中华,等.碱渣和生物质灰配施改良酸性土壤的效果初探[J].中国南方果树,2014,43(4):65-67.[6] Lei S, Shi Y, Xue C, et al. Hybrid ash/biochar biocomposites as soil amendments for the alleviation of cadmium accumulation by Oryza sativa L. in a contaminated paddy field[J]. Chemosphere, 2020,239:124805.[7] Pukalchik M, Mercl F, Panova M, et al. The improvement of multi-contaminated sandy loam soil chemical and biological properties by the biochar, wood ash, and humic substances amendments[J]. Environmental Pollution, 2017,229:516-524.[8] Chambers D P, Attiwill P M. The ash-bed effect in Eucalyptus regnans forest:chemical, physical and microbiological changes in soil after heating or partial sterilisation[J]. Australian Journal of Botany, 1994,42(6):739-749.[9] Burton Carmen A, Hoefen Todd M, Plumlee Geoffrey S, et al. Trace Elements in Stormflow, Ash, and Burned Soil following the 2009 Station Fire in Southern California[J]. Plos One, 2016,11(5):1-26.[10] Renyong Shi, Jiuyu Li, Jun Jiang, et al. Characteristics of biomass ashes from different materials and their ameliorative effects on acid soils[J]. Journal of Environmental Sciences, 2017,55(5):294-302.[11] Tsiridis V, Petala M, Samaras P, et al. Evaluation of interactions between soil and coal fly ash leachates using column percolation tests[J]. Waste Management, 2015,43:255-263.[12] 任治忠,杨雪莲.云南酸控区土壤重金属释放特征及潜在风险[J].环境保护科学,2011,37(6):29-32.[13] 罗乐,王金霞,周皓.锰渣中重金属在模拟酸雨环境下的浸出规律[J].湿法冶金,2019,38(5):352-357.[14] Quirantes M, Calvo F, Romero E, et al. Soil-nutrient availability affected by different biomass-ash applications [J]. Journal of Soil Science & Plant Nutrition, 2016,16(1):161-162.[15] Maresca A, Hansen M, Ingerslev M, et al. Column leaching from a Danish forest soil amended with wood ashes:fate of major and trace elements[J]. Biomass and Bioenergy, 2018,109:91-99.[16] 次仁曲西.晋西黄土区人工油松林降雨再分配及林内降雨空间异质性研究[D].北京:北京林业大学,2014.[17] 李晓艳,吴超.湖南某铅锌矿土壤重金属形态分析及淋溶液pH值对其淋滤的影响[J].环境工程,2017,35(5):172-176.[18] 黄艺.酸雨条件下成都市区土壤镉的释放及固液相平衡研究[D]. 成都:成都理工大学,2007.[19] 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[J]. Environmental Pollution, 2010,158(6):2282-2287.[20] 房增强.铅锌矿区土壤重金属污染特征及稳定化研究[D]. 北京:中国矿业大学,2016.[21] 石炎,薛聪,邱宇平.农林生物质直燃电厂灰渣资源化技术分析与展望[J].农业资源与环境学报,2019,36(2):127-139.[22] 罗盈.动态模拟酸雨对土壤中Cr(Ⅵ)、Cu, Cd的释放特性影响[D]. 武汉:武汉纺织大学,2016.[23] Houben David, Evrard Laurent, Sonnet Philippe. Mobility, bioavailability and pH-dependent leaching of cadmium, zinc and lead in a contaminated soil amended with biochar[J]. Chemosphere, 2013,92(11):1450-1457.[24] Shen X, Huang D Y, Ren X F, et al. Phytoavailability of Cd and Pb in crop straw biochar-amended soil is related to the heavy metal content of both biochar and soil[J]. Journal of Environmental Management, 2016,168:245-251.
备注/Memo
收稿日期:2020-06-23 修回日期:2020-07-28资助项目:国家重点研发计划课题(2017YFC0804907); 国家自然科学基金(51504174)第一作者:向何锋(1995—),女(土家族),重庆石柱县人,硕士,环境安全研究。E-mail:2581990216@qq.com通信作者:刘艳艳(1983—),女,山东蓬莱人,博士,副教授,主要从事环境安全研究。E-mail:wulengheiyin@whut.edu.cn