帮助 关于我们

返回检索结果

广西环江流域硫污染农田的土壤酸化与酸性土壤分布
Spatial Distribution of Acid Soils in the Huanjiang River Valley, Guangxi

查看参考文献31篇

文摘 矿业活动通过多种途径将矿石中伴生的还原态硫带入土壤而导致周边土壤酸化,是目前矿山周边普遍面临的重要环境问题。本文以广西环江为例,探寻大面积农田酸化的原因和酸度分布特征。研究结果表明:矿物组成分析(X-ray)、硫形态分析(EXAFS)和同位素分析结果表明:环江农田土壤酸化的原因是洪水携带含硫尾砂进入农田,还原态硫氧化产酸导致土壤酸化。由于矿渣中还原态硫的污染,受污染土壤的酸度、铁和硫的浓度显著高于未受矿渣污染的土壤。大环江沿岸出现不同的污染特征:上游土壤的Fe,SO_4~(2-)(SS)和St含量较高,但土壤尚未发生明显酸化;中下游农田土壤H^+和SO_4~(2-)含量较高,土壤发生明显的酸化现象,还存在继续酸化的风险。土壤受还原态硫污染后,如果将旱地改为水田,则可以降低土壤还原态硫的氧化速度和减缓酸化速度。
其他语种文摘 The reducible sulfur associated ore was brought into soil in many ways, which will further acidify its surrounding area. In the Huanjiang River of Guangxi, more than 600 hm~2 of farmland have been acidified, so the formation of soil acidification and the distribution characteristics of acidity were studied. The chemical analysis results showed that soil acidification came from oxygenation of reducible sulfur. Based on the results from mineral (X-ray), sulfur speciation (EXAFS) and Pb isotope analysis, the cause for the formation of soil acidification can be found out: In 2001, the flood destroyed the tailing dam located in the upstream of the Huanjiang River, and carried the tailing into farmland, so the reducible sulfur in tailings was oxygenated into H~+ after a certain period of time. The area on both banks of the Huanjiang River was all affected by flooding, which should be given more attention. The spatial variabilities of pH, St, SO_4~(2-) (Ss), TAA, TPA and Fe in the investigated area were very large, but the contents of acidity, iron and sulfur in flooded soil were much higher than those in the unflooded soil. The soil near mining sites was not acidified because of secondary pollution by alkaline tailings, but has potential acidification risk; while the soil in mid- and down-stream of the river had been acidified more or less, and most soil still has potential acidification probability. It is supposed that acid pollution was more serious in dry soil than in paddy soil, so converting dry land into paddy land could decrease the oxidative rate of reducible sulfur.
来源 地理学报 ,2008,63(11):1179-1188 【核心库】
关键词 矿业活动 ; 农田 ; 表层土壤 ; 酸化 ; 广西 ; 环江
地址

中国科学院地理科学与资源研究所环境修复中心, 北京, 100101

语种 中文
文献类型 研究性论文
ISSN 0375-5444
学科 林业;环境污染及其防治
基金 国家863计划
文献收藏号 CSCD:3471961

参考文献 共 31 共2页

1.  Macklin M G. The long term fate and environmental significance of contaminant metals released by the January and March 2000 mining tailings dam failures in Maramures County, upper Tisa Basin, Romania. Applied Geochemistry,2003,18(2):241-257 被引 7    
2.  Gurung S R. An assessment of requirements of neutralising materials of partially oxidised pyritic mine waste. Australian Journal of Soil Research,2000,38(2):329-344 被引 2    
3.  Clemente R. A remediation strategy based on active phytoremediation followed by natural attenuation in a soil contaminated by pyrite waste. Environmental Pollution,2006,143(3):397-406 被引 11    
4.  Knoche D. Element dynamics of oak ecosystems on acid-sulphurous mine soils in the Lusatian lignite mining district(Eastern Germany). Landscape and Urban Planning,2000,51:113-122 被引 1    
5.  Loredo J. Environmental impact of toxic metals and metalloids from the Munon Cimero mercury-mining area(Asturias, Spain). Journal of Hazardous Materials,2006,136(3):455-467 被引 4    
6.  Short T A. Mining disturbance alters phosphorus fractions in northern Australian soils. Australian Journal of Soil Research,2000,38(2):411-421 被引 4    
7.  Matus P. Determination of operationally defined fractions of aluminum in reference materials and acid attacked environmental samples. Analytica Chimica Acta,2005,540(1):33-43 被引 3    
8.  Simon M. Pollution of soils by the toxic spill of a pyrite mine(Aznalcollar, Spain). Science of the Total Environment,1999,242:105-115 被引 11    
9.  Spurgeon D J. Effect of pH on metal speciation and resulting metal uptake and toxicity for earthworms. Environmental Toxicology and Chemistry,2006,25(3):788-796 被引 4    
10.  Martin F. Weathering of primary minerals and mobility of major elements in soils affected by an accidental spill of pyrite tailing. Science of the Total Environment,2007,378:49-52 被引 2    
11.  翟丽梅. 广西环江铅锌矿尾砂坝坍塌对农田土壤的污染及其特征. 环境科学学报,2008,28(6):1206-1211 被引 38    
12.  Ahem C R. Acid sulfate soils laboratory methods guidelines,2004 被引 1    
13.  Aguilar J. Soil pollution by a pyrite mine spill in Spain:Evolution in time. Environmental Pollution,2004,132(3):395-401 被引 13    
14.  Wong J W C. Acid-forming capacity of lead-zinc mine tailings and its implications for mine rehabilitation. Environmental Geochemistry and Health,1998,20(3):149-155 被引 7    
15.  Mitach W J. Creating riveriue wetlands:Ecological succession, nutrient retention, and pulsing effects. Ecological Engineering,2005,25(5):510-527 被引 1    
16.  Kramer P A. Native plant restoration of copper mine tailings:Ⅰ. Substrate effect on growth and nutritional status in a greenhouse study. Journal of Environmental Quality,2000,29(6):1762-1769 被引 2    
17.  Stumm W. Aquatic Chemistry:Chemical Equilibrium and Rates in Natural Waters,1996 被引 1    
18.  Hall K C. Distribution of inland wetlands with sulfidic sediments in the Murray-Darling Basin, Australia. Science of the Total Environment,2006,370(1):235-244 被引 3    
19.  Weber P A. Geochemical effects of oxidation products and framboidal pyrite oxidation in acid mine drainage prediction techniques. Applied Geochemistry,2004,19(12):1953-1974 被引 11    
20.  Clark M W. Total sulphide acidity for the definition and quantitative assessment of the acid sulphate hazard:Simple solution or a new suite of problems. Science of the Total Environment,1996,183(3):249-254 被引 6    
引证文献 11

1 李明银 几种植物对硫的富集特性分析 江苏农业科学,2011,39(4):466-468
被引 1

2 袁永强 广西某地金属冶炼废水外溢对农田土壤的污染特征 环境科学,2011,32(11):3312-3317
被引 9

显示所有11篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号