帮助 关于我们

返回检索结果

不同生态修复措施对滇池沉积物无机氮迁移转化影响
Effects of Different Ecological Restoration Measures on Transferring and Transformation of Inorganic Nitrogen in Dianchi Sediment

查看参考文献41篇

文摘 通过模拟培养试验比较研究了滇池沉积物用细沙原位覆盖后种植苦草、红土原位覆盖后种植苦草以及直接种植苦草三种生态修复措施对无机氮迁移转化的影响。结果表明,直接种植草桶中,水体中高锰酸盐指数、悬浮物质(SS)、NH_4~+-N及沉积物中NH_4~+-N的浓度最高,细沙覆盖后种草桶中次之,红土覆盖后种草桶中最低。另外,细沙和红土覆盖后种草桶中,水体中氨氧化作用和亚硝酸盐氧化作用最先出现,分别在第13天和第19天。红土覆盖后种草桶中,水体及沉积物中氨氧化和亚硝酸盐氧化速率最高,细沙覆盖后种草桶中次之。结果表明,滇池沉积物分别用细沙和红土原位覆盖后种植苦草不仅阻止了沉积物中还原性物质、悬浮颗粒物质和NH_4~+-N向水体的释放,促进了氨氧化和亚硝酸盐氧化反应的进行,并且能够显著降低水体及沉积物中无机氮的浓度,其中,红土覆盖后种植苦草效果最明显。同时,红土覆盖为苦草的扎根提供了有效的附着基质,促进了苦草的生长和恢复。因此,红土覆盖后种植苦草是污染沉积物生态修复的一种有效方法。
其他语种文摘 Effects of three ecological restoration measures which are planting Vallisneria spiraslis L.directly in Dianchi sediment, planting Vallisneria spiraslis L.in sediment covered by silver sand and planting Vallisneria spiraslis L.in sediment covered by laterite on transfer and transformation of inorganic nitrogen were studied by indoor incubation experiment.Results showed that the concentrations of COD_(Mn), SS and NH_4~+-N in waters and NH_4~+-N in sediment were the highest in plastic casks treated with planting Vallisneria spiraslis L.diretly in sediment, and there conentrations in plastic casks treated with planting Vallisneria spiraslis L.in sediment covered by laterite were the lowest.Ammonia and nitrite oxidation in waters firstly appear in the plastic casks treated with planting Vallisneria spiraslis L.in sediment covered by silver sand and laterite, and the date were the 13th and 19th day separately.Rates of ammonia and nitrite oxidation in waters and sediment were the highest in plastic casks treated with planting Vallisneria spiraslis L.in sediment covered by laterite, and followed by rates in plastic casks treated with planting Vallisneria spiraslis L.in sediment covered by silver sand.Results indicated that planting Vallisneria spiraslis L.in Dianchi sediment covered by silver sand and laterite are able to not only hold back the release of reductive material, suspended particulate material and ammonia into water from sediment, but also decrease markedly ammonia concentration in sediment.Planting Vallisneria spiraslis L.in sediment covered by laterite which provided an effective attachment matrix for Vallisneria spiraslis L.to take a root and promoted Vallisneria spiraslis L.grow and recovery has the better result than planting Vallisneria spiraslis L.in sediment covered by silver sand, which indicated that planting Vallisneria spiraslis L.in sediment covered by laterite is the effective way of ecological restoration for contaminative sediment.
来源 环境科学与技术 ,2011,34(11):18-24 【扩展库】
关键词 生态修复 ; 沉积物 ; 无机氮 ; 迁移转化
地址

中国科学院水生生物研究所, 湖北, 武汉, 430072

语种 中文
文献类型 研究性论文
ISSN 1003-6504
学科 环境科学基础理论
基金 国家973计划 ;  国家水体污染控制与治理科技重大专项 ;  厦门理工学院引进高层次人才科研启动项目
文献收藏号 CSCD:4350237

参考文献 共 41 共3页

1.  黄丽娟. 滇池水-沉积物界面氮分布特点及其对控制蓝藻水华的意义. 云南大学学报(自然科学版),2005,27(3):256-260 被引 14    
2.  中国环境科学研究院. 草海底泥污染现状调查与评价,1997 被引 1    
3.  洪祖喜. 受污染底泥易地处理处置技术. 上海环境科学,2002,21(4):233-236 被引 9    
4.  洪祖喜. 水体受污染底泥原地处理技术. 环境保护,2002(10):15-17 被引 16    
5.  Palermo M. A State of the Overview of Contaminated Sedi-ment Remediation in the United States. Italy Internation-al Conference on Remediation of Contaminated Sedmients,2001 被引 1    
6.  薛传东. 天然矿物材料修复富营养化水体的实验研究. 岩石矿物学杂志,2003,22(4):381-385 被引 13    
7.  童昌华. 水生植物控制湖泊底泥营养盐释放的效果与机理. 农业环境科学学报,2003,22(6):673-676 被引 45    
8.  Schaanning M. Experimental results on effects of capping on fluxes of persistent organic pollutants (POPs)from historically contaminated sediments. Marine Chemistry,2006,102(1/2):46-59 被引 8    
9.  Liu C H. Capping efficiency for met-al-contaminated marine sediment under conditions of sub-marine groundwater discharge. Environmental Science and Technology,2001,35(11):2334-2340 被引 5    
10.  Mailman M. Strategies to lower methyl mercury concentrations in hydroelectric reservoirs and lakes: A review. Science of the Total Environment,2006,368(1):224-235 被引 4    
11.  Hyun S. Laboratory studies to characterize the efficacy of sand capping: a coal tar-con-taminated sediment. Chemosphere,2006,63(10):1621-1631 被引 8    
12.  陈华林. 污染底泥修复技术进展. 农业环境保护,2002,21(2):179-182 被引 47    
13.  包先明. 浮叶植物重建对富营养化湖泊氮磷营养水平的影响. 生态环境,2005,14(6):807-811 被引 14    
14.  包先明. 种植沉水植物对富营养化水体沉积物中磷形态的影响. 土壤通报,2006,37(4):710-715 被引 10    
15.  薛传东. 昆明盆区第四系粘性土中的粘土矿物与地面沉降. 岩石矿物学杂志,2001,20(4):437-440 被引 5    
16.  Gernaey K. A titration tech-nique for on-line nitrification monitoring in activated sludge. Water Science and Technology,1998,37:103-110 被引 3    
17.  Cébron A. Nitrification and nitrifying bacteria in the lower Seine River and estuary(France). Applied and Environmental Microbiology,2003,69(12):7091-7100 被引 4    
18.  Féray C. Chemical and microbial hypotheses explaining the effect of wastewater treatment plant dis-charges on the nitrifying communities in freshwater sedi-ment. Chemosphere,2003,50:919-928 被引 2    
19.  Palermom R. Design considerations for in-situ capping of contaminated sediments. Water Science and Technology,1998,37(6/7):315-321 被引 19    
20.  祝凌燕. 受污染沉积物原位覆盖材料研究进展. 生态学杂志,2008,27(4):645-651 被引 12    
引证文献 3

1 李乐 滇池柱状沉积物磷形态垂向变化及对释放的贡献 环境科学,2016,37(9):3384-3393
被引 32

2 丁帅 滇池水生植物分布对沉积物间隙水中不同形态氮的影响 环境科学研究,2016,29(5):700-707
被引 4

显示所有3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