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  • CN 62-1070/P
  • ISSN 1000-694X
  • 双月刊 创刊于1981年
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沙漠与沙漠化

沙尘观测仪器研发进展

  • 霍俊澎 ,
  • 郭浩 ,
  • 郭翠萍
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  • 1. 中国林业科学研究院 荒漠化研究所, 北京 100091;
    2. 北票市台吉林果服务站, 辽宁 北票 122122
霍俊澎(1993-),男,山西临汾人,硕士研究生,主要从事荒漠化防治研究。E-mail:438222055@qq.com

收稿日期: 2016-05-03

  修回日期: 2016-05-19

  网络出版日期: 2017-09-20

基金资助

国家自然科学基金项目(41371500)

Research Progress of Dust Observation Instruments

  • Huo Junpeng ,
  • Guo Hao ,
  • Guo Cuiping
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  • 1. Institute of Desertification Studies, Chinese Academy of Forestry, Beijing 100091, China;
    2. Taiji Forestry & Fruit Service Center of Beipiao, Beipiao 122122, Liaoning, China

Received date: 2016-05-03

  Revised date: 2016-05-19

  Online published: 2017-09-20

摘要

沙尘的输移对于生态系统有重要的影响,沙尘观测是环境及气象因子观测、荒漠生态系统研究和荒漠化防治的重要环节。目前已有多种类型的风沙仪器用以观测风沙运动,但至今尚未解决精确测定难题。本文从水平通量和垂直通量两方面总结了国内外沙尘观测仪器的研发现状,比较了不同仪器的优缺点,指出了目前观测仪器研发存在的问题和未来发展趋势,提出了自动化和标准化是未来沙尘观测仪器研发目标的观点。

本文引用格式

霍俊澎 , 郭浩 , 郭翠萍 . 沙尘观测仪器研发进展[J]. 中国沙漠, 2017 , 37(5) : 848 -858 . DOI: 10.7522/j.issn.1000-694X.2016.00066

Abstract

Dust observation is an important step of environmental and meteorological factors monitor, desert ecosystem study and desertification control, and aeolian sand transport has great influence on ecosystem. Traps of various types have been used to observe aeolian sand transport, but the problem of observation precision has not been solved. This paper summarized research progress of domestic and foreign dust observation instruments in both horizontal and vertical sediment flux, and pointed out the problems existing and future trends in these instruments. Automation and standardization are the developing orientations of dust observation instruments.

参考文献

[1] 王赞红.大气降尘监测研究[J].干旱区资源与环境,2003,17(1):54-59.
[2] Stoorvogel J J,Van Breemen N,Janssen B H.The nutrient input by Harmattan dust to a forest ecosystem in Cote d'Ivoire,Africa[J].Biogeochemistry,1997,37(2):145-157.
[3] Reynolds R,Belnap J,Reheis M,et al.Aeolian dust in Colorado Plateau soils:nutrient inputs and recent change in source[J].PNAS,2001,98(13):7123-7127.
[4] Mctainsh G,Strong C.The role of aeolian dust in ecosystems[J].Geomorphology,2007,89(1/2):39-54.
[5] Bagnold R A.The Physics of Blown Sand and Desert Dunes[M].London,UK:Methuen,1941.
[6] Chepil W S.Width of field strips to control wind erosion[J].Kansas Agricultural Experimental Station Bulletin,1957,92:1-16.
[7] Merva G E,Peterson G.Wind erosion sampling in the north Central Region[R].American Society of Agricultural Engineers,(USA),1983.
[8] Shao Y,Raupach M R,Findlater P A.The effect of saltation bombardment on the entrainment of dust by wind[J].Journal of Geophysical Research:Atmospheres,1993,98(D7):12719-12726.
[9] Goossens D,Offer Z Y.Wind tunnel and field calibration of six Aeolian dust samplers[J].Atmospheric Environment,2000,34(7):1043-1057.
[10] Fryrear D W.A field dust sampler[J].Journal of Soil and Water Conservation,1986,41(2):117-120.
[11] Hall D J,Upton S L,Marsland G W.Improvements in dust gauge design[M].Coulings.Measurements of Airborne Pollutants.London,UK,1993.
[12] Pollet I.Meten Van windsnelheden en zandtransport in een windtunnel[D].Gent,Belgium:Universiteit Gent,1995.
[13] Shannak B,Corsmeier U,Kottmeier Ch,et al.Wind tunnel study of twelve dust samplers by large particle size[J].Atmospheric Environment,2014,98:442-453.
[14] Janssen W,Tetzlaff G.Entwicklung and Eichung einer registrierenden Suspensionsfalle[J].Zeitschrift für Kulturtechnik und Landentwicklung,1991,32:167-180.
[15] Bauer B O,Namikas S L.Design and field test of a continuously weighing,tipping-bucket assembly for aeolian sand traps[J].Earth Surface Processes and Landforms,1998,23(13):1171-1183.
[16] Ellis J T,Morrison R F,Priest B H.Detecting impacts of sand grains with a microphone system in field conditions[J].Geomorphology,2009,105(1):87-94.
[17] Basaran M,Erpul G,Uzun O,et al.Comparative efficiency testing for a newly designed cyclone type sediment trap for wind erosion measurements[J].Geomorphology,2011,130(3):343-351.
[18] Swann C,Sherman D J.A bedload trap for aeolian sand transport[J].Aeolian Research,2013,11:61-66.
[19] Sherman D J,Swann C,Barron J D.A high-efficiency,low-cost aeolian sand trap[J].Aeolian Research,2014,13:31-34.
[20] Barchyn T E,Hugenholtz C H,Li B,et al.From particle counts to flux:wind tunnel testing and calibration of the wenglor'aeolian sediment transport sensor[J].Aeolian Research,2014,15:311-318.
[21] 李振山,倪晋仁,刘贤万.垂直点阵集沙仪的集沙效率[J].泥沙研究,2003(1):24-31.
[22] 李长治,董光荣,石蒙沂.平口集沙仪的研制[J].中国沙漠,1987,7(3):49-57.
[23] 河北省科学院地理研究所.新型随风式平口集沙仪:中国,2013203989079[P].2013-11-20.
[24] 内蒙古农业大学.一种旋转式野外土壤风蚀梯度集沙仪:中国,2013106506436[P].2014-04-30.
[25] 高征锐,赵爱国.遥测集沙仪的研制[J].中国沙漠,1983,3(1):35-39.
[26] 臧英.土壤风蚀采集器的结构设计与性能试验研究[J].农业工程学报,2006,22(3):46-50.
[27] 董治宝,孙宏义,赵爱国.WITSEG集沙仪:风洞用多路集沙仪[J].中国沙漠,2003,23(6):714-720.
[28] 内蒙古农业大学机械厂.沙尘采集器:中国,2005201226815[P].2006-10-18.
[29] 顾正萌,郭烈锦,张西民.新型主动式竖直集沙仪研制[J].西安交通大学学报,2006,40(9):1088-1091.
[30] 中国科学院寒区旱区环境与工程研究所.多路方口集沙仪:中国,2000006244541[P].2001-10-03.
[31] 中国科学院寒区旱区环境与工程研究所.多路方口立式集沙仪:中国,2005200784814[P] 2006-08-23.
[32] 中国科学院寒区旱区环境与工程研究所.翻斗式集沙仪:中国,2001012222151[P].2003-01-15.
[33] 内蒙古农业大学机械厂.旋风分离式集沙仪:中国,2005201226675[P].2006-10-18.
[34] 河北师范大学.一种自动连续称重式集沙仪:中国,2015103521626[P].2015-09-23.
[35] 丁国栋.组合式多通道通风集沙仪:中国,2006201158066[P].2007-04-25.
[36] 中国科学院沈阳应用生态研究所.风沙监测集沙仪:中国,2006200921619[P].2007-07-04.
[37] 中国气象局乌鲁木齐沙漠气象研究所.一种地表微梯度集沙仪:中国,200920310758X[P].2010-06-02.
[38] 南开大学.一种集沙仪:中国,2011201297553[P].2011-11-30.
[39] 中国气象局乌鲁木齐沙漠气象研究所北京华益瑞科技有限公司.一种便携式自动称重集沙仪:中国,2009203114850[P].2010-06-23.
[40] 中铁西北科学研究院有限公司.高梯度分层旋转立式集沙仪:中国,2012200974166[P].2012-10-31.
[41] 中国科学院寒区旱区环境与工程研究所.野外全方位沙粒跃移梯度集沙仪:中国,2009201441542[P].2010-02-24.
[42] 中国气象局乌鲁木齐沙漠气象研究所.轻便型高精度自动集沙仪及自动集沙系统:中国,2012204351889[P].2013-02-06.
[43] 北京林业大学.土壤风蚀沙化监测集沙仪:中国,2012204358604[P].2013-04-03.
[44] 辽宁省风沙地改良利用研究所.便携式自动风向集沙仪:中国,2012200407368[P].2012-10-03.
[45] 中国科学院新疆生态与地理研究所.一种高输沙通量区近地表风沙流观测方法:中国,2015107147548[P].2016-01-20.
[46] 兰州大学.一种效率稳定的箱式集沙仪:中国,2011103600352[P].2012-06-13.
[47] 北京市农林科学院.便携式全风向集沙仪:中国,2011200871131[P].2011-11-02.
[48] 中国林业科学研究院.一种用于测定野外土壤风蚀的旋转式8方位集沙仪:中国, 2013202166820[P].2013-11-13.
[49] 内蒙古农业大学.一种气流反相对冲集沙仪:中国,201310210667X[P].2013-10-02.
[50] 中国科学院新疆生态与地理研究所.一种地表蠕移集沙仪:中国,2013205426444[P].2014-02-05.
[51] 河北省林业科学研究院.一种土壤风蚀测定盘及野外土壤风蚀量测定的方法:中国,2013105221241[P].2014-02-05.
[52] 内蒙古自治区林业科学研究院.多通道集沙仪:中国,2013207036768[P].2014-05-07.
[53] 宋涛,陈智,麻乾,等.分流对冲式集沙仪设计与性能试验[J].农业机械学报,2015,46(9):173-177.
[54] 宋涛,陈智,司志民,等.新型农田风蚀集沙仪排沙口降速问题研究[J].农机化研究,2016,6:230-234.
[55] 水利部牧区水利科学研究所.防雨型16方位集沙仪:中国,2015204433134[P].2015-11-25.
[56] 新疆农业大学.风向自转式分层分级颗粒集沙仪:中国,2015201323594[P].2015-06-24.
[57] 中国地质科学院水文地质环境地质研究所.一种防鸟型侧夹降尘采样装置:中国,2014205379753[P].2014-12-17.
[58] 广西壮族自治区环境保护科学研究院.一种适用南方多雨天气的降尘缸:中国,201520172204[P].2015-08-05.
[59] 中国科学院寒区旱区环境与工程研究所.自动干式大气降尘收集器:中国,2015207091694[P].2016-01-13.
[60] 上海宝钢工业检测公司.防尘防鸟粪装置:中国,2005200412239[P].2006-12-20.
[61] Sow M,Goossens D,Rajot H L.Calibration of the MDCO dust collector and of four versions of the inverted frisbee dust deposition sampler[J].Geomorphology,2006,82(3/4):360-375.
[62] Goossens D.Wind tunnel calibration of the USGS dust deposition sampler:sampling efficiency and grain size correction[J].Aeolian Research,2010,2(2):159-170.
[63] Hall D J,Upton S L.A wind tunnel study of the particle collection efficiency of an inverted frisbee used as a dust deposition gauge[J].Atmospheric Environment,1988,22(7):1383-1394.
[64] Breuning-Madsena H,Awadzi T W.Harmattan dust deposition and particle size in Ghana[J].Catena,2005,63(1):23-28.
[65] 中国科学院大气物理研究所.全自动降尘采集器采集方法:中国,2009100895881[P].2011-02-02.
[66] 张小啸,陈曦,王自发,等.新疆和田绿洲大气降尘和PM10浓度变化特征分析[J].干旱区地理,2015,38(3):454-462.
[67] 李晋昌,董治宝,钱光强,等.中国北方不同区域典型站点降尘特性的对比[J].中国沙漠,2010,30(6):1269-1277.
[68] 张加琼,张春来,吴晓旭,等.包兰铁路沙坡头段防护体系内的风沙沉降规律[J].中国沙漠,2014,34(1):16-22.
[69] 王赞红,夏正楷.北京2002年3月20~21日尘暴过程的降尘量与降尘粒度特征[J].第四纪研究,2004,24(1):95-99.
[70] 蔺欣,李晓军,胡涛,等.北方典型城市降尘时空分布特征及影响因素分析[J].生态环境,2008,17(1):143-146.
[71] 樊恒文,肖洪浪,段争虎,等.中国沙漠地区降尘特征与影响因素分析[J].中国沙漠,2002,22(6):559-565.
[72] Cattle S R,Mctainsh G H,Elias S.Aeolian dust deposition rates,particle-sizes and contributions to soils along a transect in semi-arid New South Wales,Australia[J].Sedimentology,2009,56(3):65-783.
[73] Qiang M R,Chen F H,Zhou A F,et al.Impacts of wind velocity on sand and dust deposition during dust storm as inferred from a series of observations in the northeastern Qinhai-Tibetan Plateau,China[J].Powder Technology,2007,175(2):82-89.
[74] Møberg J P,Esu I E,Malgwi W B.Characteristics and constituent composition of Harmattan dust falling in Northern Nigeria[J].Geoderma,1991,48(1/2):73-81.
[75] Tiessen H,Hauffe H K,Mermut A R.Deposition of Harmattan dust and its influence on base saturation of soils in northern Ghana[J].Geoderma,1991,49(3):285-299.
[76] McTainsh G H,Nickling W G,Lynch A W.Dust deposition and particle size in Mali,West Africa[J].Catena,1997,29(3/4):307-322.
[77] Adetunji M T,Martins O,Arowolo T A.Seasonal variation in atmospheric deposition of nitrate,sulphate,lead,zinc,and copper in Southwestern Nigeria[J].Communications in Soil Science and Plant,2(1/2):65-73.
[78] 王广涛,王训明,郎丽丽.毛乌素沙地南缘半固定沙丘风沙输移物特征[J].中国沙漠,2016,36(2):281-286.
[79] 陈新闯,郭建英,董智.乌兰布和沙漠流动沙丘下风向降尘粒度特征[J].中国沙漠,2016,36(2):295-301.
[80] Stout J E,Fryrear D W.Performance of a windblown-particle sampler[J].Transactions of ASAE,1989,32(6):2041-2045.
[81] Goossens D.Aeolian deposition of dust over hills:the effect of dust grain size on the deposition pattern[J].Earth Surface Processes and Landforms,2006,31(6):762-776.
[82] Goossens D,Offer Z Y.Eolian deposition of dust over symmetrical hills:an evaluation of wind tunnel data by means of terrain measurements[J].Zeitschrift Für Geomorphologie,1993,37(1):103-111.
[83] 钱广强,董治宝.大气降尘收集方法及相关问题研究[J].中国沙漠,2004,24(6):779-782.
[84] 张正偲,董治宝.降尘收集方法对降尘效率的影响[J].环境科学,2013,34(2):499-508.
[85] Goossens D,Offer Z Y.An evaluation of the efficiency of some eolian dust collectors[J].Soil Technology,1994,7(1):25-35.
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