ZHANG Xin-yu,WANG Qiu-bing.Advances on Uses of 137Cs Technique to Investigate the Sediments on River Floodplains[J].Research of Soil and Water Conservation,2005,12(01):149-151.
应用137Cs技术调查河漫滩沉积物的研究进展
- Title:
- Advances on Uses of 137Cs Technique to Investigate the Sediments on River Floodplains
- Keywords:
- 137Cs; river floodplain; sediment; sedimentation rate
- 分类号:
- TL99;S157
- 摘要:
- 人工同位素137Cs可以作为环境示踪因子研究河漫滩沉积物。综述了应用137Cs技术调查河漫滩沉积物的沉积率、确定沉积物来源和研究与沉积物相结合的污染物质的研究进展。
- Abstract:
- Man-made radionuclide of Cesium-137 can be as environment tracer to research the sediments on river floodplains.The basis of the 137Cs technique and the uses of this technique to investigate the sedimentation rates of suspended sediments deposited on river floodplains are reviewed to identify the sources of sediments and to research the sediment-associated contaminates on river floodplains.
参考文献/References:
[1] Pimental D.World Soil Erosion and Conservation[M].Cambridge: Cambridge University Press, 1993.
[2] Johnson D L, Lewis L A.Land Degradation: Creation and Destruction[M].Oxford: Blackwell, 1995.
[3] Braune E, Looser U.Cost impacts of sediments in South African rivers[A].In: Hadley R F, Ongley E D (eds.).Sediment and the Environment[C].IAHS Publ.No.184, 1990.21-30.
[4] Walling D E, Quine T A.Using Chernobyl-derived fallout radionuclides to investigate the role of downstream conveyance losses in the suspended sediment budget of the River Severn, United Kingdom[J].Physical Geography, 1993, 14: 239-253.
[5] Middelkoop H, Asselmann N E M.Spatial variability of floodplain sedimentation at the event scale in the Rhine-Meuse delta, the Netherlands[J].Earth Surf.Processes and Landforms, 1994, 25: 561-573.
[6] Walling D E, Owens P N, Leeks G J L.The role of channel and floodplain storage in the suspended sediment budget of river Ouse, Yorkshire, UK[J].Geomorphology, 1998, 22: 225-242.
[7] Walling D E, He Q, Nicholas A P.Floodplains as suspended sediment sinks[A].In: Anderson M, Walling D E, Bates P(eds.).Floodplain Processes[C].Chichester: Wiley, 1996.399-440.
[8] Brown T, Schneider H.From plot to basins: the scale problem in studies of soil erosion and sediment yield[A].In: Harper D, Brown T (eds.).The Sustainable Management of Tropical Catchments[C].Chichester: Wiley, 1999.21-30.
[9] Thomas A W, Welch R, Jordan T R.Quantifying concentrated-flow erosion on cropland with aerial photogrammetry[J].Journal of Soil and Water Conservation, 1986, 41: 249-252.
[10] Whitlow R.Mapping erosion in Zimbabwe:a methodology for rapid survey using aerial photographs[J].Applied Geography, 1986, 6:149-162.
[11] Nearing N A, Lane L J, Lopes V L.Modeling soil erosion[A].In: Lqal R (ed.).Soil Erosion Research Methods[C].USA: Soil and Water Conservation Society, 1994.127-156.
[12] Walling D E, He Q.Improved models for estimating soil erosion rates from caesium-137 measurements[J].Journal of Environment Quality, 1999, 28: 611-622.
[13] Wise S M.Caesium-137 and lead-210: A review of techniques and some applications in geomorphology[A].In: Culllingford R A, et al (ed.).Timescale in geomorphology[C].New York: John Wiley and Sons, 1980.109-127.
[14] Richie J C, McHenry J R.Application of radioactive fallout cesium-137 for measuring soil erosion and sediment accumulation rates and pattern: A review[J].Journal of Environmental Quality, 1990, 19: 215-233.
[15] Dominik J, Burrus D, Vernet J P.Transport of the environmental radionuclides on an alphine watershed[J].Earth Planet.Sci.Lett., 1987, 84: 165-180.
[16] Smith J N, Ellis K M, Nelson D M.Time-dependent modeling of fallout radionuclides transport in a drainage basin: significance of "slow" erosional and"fast"hydrological components[J].Chem.Geol., 1987, 63: 157-180.
[17] Walling D E, He Q.Use of fallout 137Cs in investigations of overbank sediment deposition on river floodplains[J].Catena, 1997, 29: 263-282.
[18] Walling D E, Bradley S B.Rates and pattern of contemporary floodplain sedimentation: a case study of the River Culm, Devon, UK[J].Geojournal, 1989, 19: 53-62.
[19] Walling D E, He Q.Interpretation of caesium-137 profiles in lacustrine and other sediments: the role of catchment-derived inputs[J].Hydrobiologia, 1992, 235/236: 219-230.
[20] Popp C L, Hawley J W, Love D W, et al.Use of radiometric (Cs-137, Pb-210), geomorphic and stratigraphic techniques to date recent oxbow sediments in the Rio Puerco drainage Grants uranium region, New Mexio[J].Environmental Geology and Water Science, 1988, 11: 253-269.
[21] Ely L L, Webb R H, Enzel Y.Accuracy of post-bomb 137Cs and 14C in dating fluvial deposits[J].Quaternary Res., 1992, 38: 196-204.
[22] Walling D, He Q.Use of caesium-137 as a tracer in the study of rates and patterns of floodplain sedimentation[A].In: Peters N E, Hoehn E, Leibundgut C H, et al (ed.).Tracers in Hydrology[C].IAHS Publ.No.215, 1993.319-328.
[23] Wallbrink P J, Martin C E, Wilson C J.Quantifying the contributions of sediment, sediment-P and fertilizer-P from forested, cultivated and pasture areas at the landuse and catchment scale using fallout radionuclide and geochemistry[J].Soil and Tillage Research, 2003, 69: 53-68.
[24] Collins A L, Walling D E, Leeks G J L.Source type ascription for fluvial suspended sediment[J].Catena, 1997, 29:1-27.
[25] Walling D E, Owens P N, Leeks G J L.Fingerprinting suspended sediment sources in the catchment of the River Ouse, Yorkshire, UK[J].Hydrological Process, 1999, 13: 955-975.
[26] Collins A L, Walling D E, Leeks G J L.Use of the geochemical record preserved in floodplain deposits to reconstruct recent changes in river basin sediment sources[J].Geomorphology, 1997, 19: 151-167.
[27] Walling D E, He Q, Blake W H.River floodplains as phosphorus sinks[A].In: Stone, M(ed).The role of Erosion and Sediment Transport in Nutrient and Contaminant Transfer[C].IAHS Publ.No.263, 2000.211-218.
[28] Egashira K, Tokunaga N, Tra H T L.Phosphorus status of agricultural soils in northern and central Viet Nam[J].Soil Sci.and Plant Nutrition, 2003, 49: 149-152.
[29] Craft C B, Casey W P.Sediment and nutrient accumulation in floodplain and depressional freshwater wetlands of Georgia, USA[J].Wetlands, 2000, 20(2): 323-332.
[30] Walling D E, Owens P N, Carter J, et al.Storage of sediment-associated nutrients and contaminants in river channel and floodplain systems[J].Applied Geochemistry, 2003, 18: 195-220.
相似文献/References:
[1]马琨,王兆骞,陈欣.土壤侵蚀示踪方法研究综述[J].水土保持研究,2002,9(04):90.
MA Kun,WANG Zhao-qian,CHEN Xin.Summary of Tracer Method on Studies of Soil Erosion[J].Research of Soil and Water Conservation,2002,9(01):90.
[2]吴永红,张虎林,寇权,等.基于GIS与137Cs技术的土壤侵蚀微观研究[J].水土保持研究,2007,14(02):40.
WU Yong-hong,ZHANG Hu-lin,KOU Quan,et al.Microcosmic Study on Slope Erosion Based on Geographical Information System and Cesium-137 Technology[J].Research of Soil and Water Conservation,2007,14(01):40.
[3]张信宝,贺秀斌,文安邦,等.侵蚀泥沙研究的137Cs核示踪技术[J].水土保持研究,2007,14(02):152.
ZHANG Xin-bao,HE Xiu-bin,WEN An-bang,et al.The 137Cs Nuclear Tracing Technique for Soil Erosion and Sedimentation Studies[J].Research of Soil and Water Conservation,2007,14(01):152.
[4]韦中亚,徐素宁,吴景双,等.土壤侵蚀调查中的航空137Cs测量方法初探[J].水土保持研究,2001,8(02):45.
WEI Zhong-ya,XU Su-ning,WU Jing-shuang,et al.Primary Discussion on Soil Erosion Investigation Using Aerial Radioactive 137Cs Survey Approach[J].Research of Soil and Water Conservation,2001,8(01):45.
[5]郭丽霞,沙占江,陶炳德,等.共和盆地塔拉滩土壤侵蚀潜在危险度评价[J].水土保持研究,2013,20(02):15.
GUO Li-xia,SHA Zhan-jiang,TAO Bing-de,et al.Assessment on the Degrees of Soil Erosion Potential Risk in Tala Shoal of Gong-he Basin[J].Research of Soil and Water Conservation,2013,20(01):15.
备注/Memo
收稿日期:2004-5-17。
基金项目:国家留学基金委资助(留学学号:21821016)
作者简介:张心昱(1973- ),女,满族,辽宁桓仁人,在职博士生,从事土地与土壤环境保护方面的教学和科研工作.