|
|
|
| Effects of lanthanum/aluminum modified attapulgite clay on organic phosphorus control in eutrophic lakes |
| WANG Yi-Yun1,2, YIN Hong-bin3, KONG Ming2, ZHANG Yi-min2, LIU Ru2 |
1. College of Environment, Hohai University, Nanjing 210098, China;
2. Nanjing Institute of Environmental Science, Ministry of Ecology and Environment, Nanjing 210042, China;
3. State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 210008, China |
|
|
|
|
Abstract Adsorption experiments and in situ simulation experiments were used to study the adsorption performance of lanthanum/ aluminum modified attapulgite clay (La/Al@ACP) on organic phosphorus in water bodies as well as the effects of its coverage on the phosphorus release from sediments. Sediment phosphorus grading, DGT technique, and scanning electron microscope energy spectrum were used to examine the material coverage mechanism on sediment phosphorus. The results showed that the phosphorus content in the overlying water, sediment, and interstitial water significantly decreased after the addition of La/Al@ACP along with a decrease in the available phosphorus flux in the sediment. Analysis of the organic form of phosphorus showed that active Lab-Po were converted to stable Hum-Po after the addition of La/Al@ACP, which effectively controlled the risk of the release of phosphorus from the sediment to the overlying water. These results suggested that La/Al@ACP could be an effective material for controlling lake eutrophication, and be used for sediment phosphorus fixation and control.
|
|
Received: 16 January 2020
|
|
|
|
|
|
| [1] |
Tilman D, Fargione J, Wolff B, et al. Forecasting agriculturally driven global environmental change[J]. Science, 2001,292(5515):281-284.
|
| [2] |
Hans W P, Jef H. Blooms like it hot[J]. Science, 2008,320(5872):57-58.
|
| [3] |
Stow C A, Cha Y. Are chlorophyll adtotal phosphorus correlations usefulfor inference and prediction?[J]. Environment Science & Technology, 2013,47(8):3768-3773.
|
| [4] |
Yin H B, Douglas G B, Cai Y J, et al. Remediation of internal phosphorus loads with modified clays, influenceof fluvial suspended particulate matter and response of the benthic macroinvertebrate community[J]. Science of the Total Environment, 2008,610-611:101-110.
|
| [5] |
Huang T L, Xu J L, Cai D J. Efficiency of active barriers attaching biofilm as sediment capping to eliminate the internal nitrogen in Eutrophic lake and canal[J]. Journal of Environmental Sciences, 2011,23(5):738-743.
|
| [6] |
Lin J W, Zhan Y H, Zhu Z L. Evaluation of sediment capping with active barrier systems (Abs) using calcite/zeolite mixtures to simultaneously manage phosphorus and ammonium release[J]. Science of the Total Environment, 2011,409(3):638-646.
|
| [7] |
Lu S Y, Jin X C, Liang L, et al. Influence of inactivation agents on phosphorus release from sediment[J]. Environmental Earth Sciences, 2013,68(4):1143-1151.
|
| [8] |
Liu G, Ye C, Qin Q, et al. Effects of in-situ sediment treatment of phosphorus release in Wuhan East Lake, China[J]. Fresenius Environmental Bulletin, 2009,18(10):1888-1893.
|
| [9] |
Clayton M E, Liegeois S, Brown E J. Phosphorus sequestration in lake sediment with iron mine tailings[J]. Soil & Sediment Contamination, 2004,13(5):421-431.
|
| [10] |
Robb M, Greenop B, Goss Z, et al. Application of Phoslock®TM, an innovative phosphorus binding clay, to two Western Australian waterways:preliminary findings[J]. Hydrobiologia, 2003,494(1):237-243.
|
| [11] |
Yin H B, Ren C, Wei Li. Introducing hydrate aluminum into porous thermally-treated calcium-rich attapulgite to enhance its phosphorus sorption capacity for sediment internal loading management[J]. Chemical Engineering Journal, 2018,348(15):704-712.
|
| [12] |
Li X D, Xie Q, Chen S H, et al. Inactivation of phosphorus in the sediment of the Lake Taihu by lanthanum modified zeolite using laboratory studies[J]. Environmental Pollution, 2019,247:9-17.
|
| [13] |
韩梅香,尹洪斌,唐婉莹.热改性凹土钝化底泥对水体磷的吸附特征研究[J]. 中国环境科学, 2016,36(1):100-108. Han M X, Yin H B, Tang W Y. Phosphorus sorption from aqueous solution by the thermally-treated attapulgite amended sediment[J]. China Environmental Science, 2016,36(1):100-108.
|
| [14] |
Zhang C S, Ding S M, Xu D, et al. Bioavailability assessment of phosphorus and metals in soils and sediments:a review of diffusive gradients in thin films(DGT)[J]. Environmental Monitoring and Assessment, 2014,186(11):7367-7378.
|
| [15] |
朱梦圆,朱广伟,钱君龙,等. SMT法插标分析沉积物中磷的地球化学形态[J]. 中国环境科学, 2012,32(8):1502-1507. Zhu M Y, Zhu G W, Qian J L, et al. SMT method for geochemical phosphorus fraction analysis in sediment by reference material inserting[J]. China Environmental Science, 2012,32(8):1502-1507.
|
| [16] |
Zhang R Y, Wu F C, Liu C Q, et al. Characteristics of organic phosphorus fractions in different trophic sediments of lakes from the middle and lower reaches of Yangtze River region and Southwestern Plateau, China[J]. Environmental Pollution, 2008,152(2):366-372.
|
| [17] |
Wang S, Yi W, Yang S, et al. Effects of light fraction organic matter removal on phosphate adsorption by lake sediments[J]. Applied Geochemistry, 2011,26(3):286-292.
|
| [18] |
孔明,纪中新,彭福全,等.凹凸棒黏土对水体和底泥中Cr(Ⅵ)的吸附[J]. 环境科学研究, 2017,30(10):136-142. Kong M, Ji Z X, Peng F Q, et al. Adsorption of Attapulgite on Cr(Ⅵ) in water and sediment[J]. Research of Environmental Sciences, 2017, 30(10):136-142.
|
| [19] |
Pan X, Wang J, Zhang D. Sorption of cobalt to bone char:Kinetics, competitive sorption and mechanism[J]. Desalination, 2009,249(2):609-614.
|
| [20] |
Zhao G Q, Sheng Y Q, Li C Y, et al. Restraint of enzymolysis and photolysis of organic phosphorus and pyrophosphate using synthetic zeolite with humic acid and lanthanum[J]. Chemical Engineering Journal, 2019,10.1016/j.cej.2019.123791.
|
| [21] |
Lewandowski J, Schauser I, Hupfer M. Long term effects of phosphorus precipitations with alum in hypereutrophic Lake Susser See(Germany)[J]. Water Research, 2003,37(13):3194-3204.
|
| [22] |
Rydin E, Welch E B. Dosing alum to wisconsin lake sediments based on in vitro formation of aluminum bound phosphate[J]. Lake & Reservoir Management, 1999,15(4):324-331.
|
| [23] |
Tiessen H, Stewart J W B, Cole C V. Pathways of phosphorus transformations in soils of differing pedogenesis[J]. Soil Science Society of America Journal, 1984,48(4):853-858.
|
| [24] |
孙士权,蒋昌波,赵刚,等.沸石覆盖原位控制湖泊内源中等活性磷有机磷迁移转化[J]. 中国环境科学, 2015,35(2):550-557. Sun S Q, Jiang C B, Zhao G, et al. Influencing factors of zeolite in-situ remediation system to control moderately labile organic phosphorus migration and transformation in shallow water[J]. China Environmental Science, 2015,35(2):550-557.
|
| [25] |
Zhang T, Wang X. Variations of alkaline phosphatase activity and P fractions in sediments of a shallow Chinese eutrophic lake (Lake Taihu)[J]. Environmental Pollution, 2007,150(2):288-294.
|
| [26] |
董丹萍,章婷曦,张丁予.太湖湖泛易发区沉积物中有机磷形态分布特征[J]. 环境科学, 2016,37(11):4195-4202. Dong D P, Zhang T X, Zhang D Y, et al. Characteristics of Organic Phosphorus Fractions in the Sediments of the Black Water Aggregation in Lake Taihu[J]. Environmental science, 2016,37(11):4195-4202.
|
| [27] |
Bowman R A, Cole C V. An explorayory method for fractionation of organic phosphorus from grassland soils[J]. Soil Science, 1978,125(2):95-101.
|
| [28] |
Dithmer L, Lipton A S, Reitzel K, Warner, et al. Characterization of phosphate sequestration by a lanthanum modified bentonite clay:a solid-state NMR, EXAFS, and PXRD study[J]. Environment Science & Technology. 2015,49(7):4559-4566.
|
| [29] |
Yin H B, Kong M. Reduction of sediment internal P-loading from eutrophic lakes using thermally modified calcium-rich attapulgite-based thin-layer cap[J]. Journal of Environmental Management, 2015, 151:178-185.
|
| [30] |
Schindler D W, Hecky R E. Eutrophication:More nitrogen data needed[J]. Science, 2009,324(5928):721-722.
|
|
|
|
