A new English term of ‘Yudiba dam’ and its differences from check dam
XIN Zhongbao1, CAI Qiangguo2, NING Duihu3, LIU Baoyuan4, YU Xinxiao1, LEI Tingwu5, ZHANG Keli6, ZHANG Guanghui6, FANG Haiyan2, SUN Liying2, HE Jijun7
1. School of Soil and Water Conservation, Beijing Forestry University, 100083, Beijing, China; 2. Key Laboratory of Water Cycle and Related Land Surface Processes, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 100101, Beijing, China; 3. China Institute of Water Resources and Hydropower Research, International Research and Training Center on Erosion and Sedimentation, 100048, Beijing, China; 4. State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, Northwest A&F University, 712100, Yangling, Shaanxi, China; 5. College of Water Resources and Civil Engineering, China Agricultural University, 100083, Beijing, China; 6. School of Geography, Faculty of Geographical Science, Beijing Normal University, 100875, Beijing, China; 7. Internationalization Demonstration College of Geospatial Information Science and Technology, Capital Normal University, 100048, Beijing, China
Abstract:[Background] The ‘Yudiba’ is the Chinese Pinyin of an erosion control engineering measure, which has been widely implemented in the Chinese Loess Plateau and plays an important role in reducing sediment discharge and increasing cultivated land area. Although ‘check dam’ has been widely used as the English term to represent the engineering practice for erosion control and become the general English translation of ‘Yudiba’, the ‘check dam’ could not authentically highlight the soil and water conservation engineering of ‘Yudiba’ in the Loess Plateau.[Methods] Here the differences between the ‘Yudiba dam’ and the ‘check dam’ were specifically discussed in aspects of purposes, sizes and main functions. Moreover, the English translations for the ‘Yudiba’ were analyzed by comparing the connotations of the concepts, the different functions of the erosion control engineering in agricultural development and ecological improvement, as well as the simplicity when used in scientific studies.[Results] The ‘Yudiba’ is special soil and water conservation engineering measures, initiated from the Loess Plateau of China, referring to the dam structures built in various levels of gullies for the purpose of blocking sediment into cultivated land. The ‘check dam’ is a small temporary barrier, grade control structure or dam constructed across a swale, drainage ditch, or area of concentrated flow. The ‘check dam’ differed with the ‘Yudiba dam’ in purposes, sizes and main functions. Currently, various English translations were used in the literature, which were hardly accepted widely as either without representativeness or without simplicity.[Conclusions] We recommend the ‘Yudiba dam’ based on Chinese Pinyin as the formal English term in order to distinguish between the ‘Yudiba dam’ in the Loess Plateau and ‘check dam’ in other places. Thus, the ‘Yudiba dam’ is suggested to refer to the erosion control measure, which has been widely built in the Loess Plateau of China with the main functions including trapping sediment, reducing gully erosion and increasing the area of farmland in the sediment rich area.
信忠保, 蔡强国, 宁堆虎, 刘宝元, 余新晓, 雷廷武, 张科利, 张光辉, 方海燕, 孙莉英, 和继军. 淤地坝与check dam的差异及其英文译法[J]. 中国水土保持科学, 2022, 20(3): 102-108.
XIN Zhongbao, CAI Qiangguo, NING Duihu, LIU Baoyuan, YU Xinxiao, LEI Tingwu, ZHANG Keli, ZHANG Guanghui, FANG Haiyan, SUN Liying, HE Jijun. A new English term of ‘Yudiba dam’ and its differences from check dam. SSWC, 2022, 20(3): 102-108.
王万忠, 焦菊英. 黄土高原侵蚀产沙强度的时空变化特征[J]. 地理学报, 2002, 57(2):210. WANG Wanzhong, JIAO Juying. Temporal and spatial variation features of sediment yield intensity on Loess Plateau[J]. Acta Geographica Sinica, 2002, 57(2):210.
[2]
水利科技名词审定委员会. 水利科技名词[M]. 北京:科学出版社, 1997:147. Approval Committee of Water Conservancy Terms. Chinese terms in water conservancy[M]. Beijing:Science Press, 1997:147.
[3]
林学名词审定委员会.林学名词[M]. 2版.北京:科学出版社, 2016:167. Approval Committee of Forest Science Terms. Chinese terms in forest science[M]. 2nd ed. Beijing:Science Press, 2016:167.
[4]
土壤学名词审定委员会. 土壤学名词[M]. 2版.北京:科学出版社, 1998:102. Approval Committee of Soil Science Terms. Chinese terms in soil science[M]. 2nd ed. Beijing:Science Press, 1998:102.
[5]
住房和城乡建设部.水土保持工程设计规范:GB 51018-2014[S]. 北京:中国计划出版社, 2015:2. Ministry of Housing and Urban-Rural Development. Code for design of soil and water conservation engineering:GB 51018-2014[S]. Beijing:China Planning Press, 2015:2.
[6]
中华人民共和国水利部. 水土保持综合治理技术规范——沟壑治理技术:GB/T16453.3-2008[S].北京:中国标准出版社,2008:3. Ministry of Water Resources of People's Republic of China. Technical specification for comprehensive control of soil and water conservation:Gully control technology:GB/T 16453.3-2008[S]. Beijing:China Standard Press,2008:3.
[7]
Tennessee Department of Environment and Conservation (TN-DEC). Erosion and sediment control handbook:A stormwater planning and design manual[S/OL]. 4th ed. 2012:152.[2022-03-25]. https://tnepsc.org/TDEC_EandS_Handbook_2012_Edition4/TDEC%20EandS%20Handbook%204th%20Edition.pdf.
[8]
Massachusetts Department of Environmental Protection (MA-DEP). Massachusetts erosion and sediment control guidelines for urban and suburban areas:A guide for planners, designers and municipal officials[S]. Boston:Massachusetts Department of Environmental Protection, Original Print:March 1997; Reprint:May 2003:65.
[9]
Maryland Department of the Environment Water Management Administration (MD-DEWMA), Natural Resources Conservation Service (NRCS), Maryland Association of Soil Conservation Districts (M-D-ASCD) Maryland standards and specifications for soil erosion and sediment control[S/OL]. 2011:D5.[2022-03-25]. https://mde.maryland.gov/programs/water/StormwaterManagementProgram/Documents/2011%20MD%20Standard%20and%20Specifications%20for%20Soil%20Erosion%20and%20Sediment%20Control.pdf.
[10]
North Carolina Sedimentation Control Commission (NC-SCC), the North Carolina Department of Environment and Natural Resources (NC-DENR), the North Carolina Agricultural Extension Service (N-C-AES). NC erosion and sediment control planning and design manual[S/OL]. 2013:6.83.1.[2022-03-25]. https://deq.nc.gov/media/636/download.
[11]
North Carolina Department of Transportation (NC-DT). Erosion and sediment control design and construction manual[S]. Morrisville:URS Corporation-North Carolina, 2015:4.
[12]
LEERSNYDER H, BUNTING K, PARSONSON M, et al. Erosion and sediment control guide for land disturbing activities in the Auckland region[S]. Auckland:Beca Ltd, 2016:51.
[13]
New York State Department of Environmental Conservation (NYS-DEC). New York state standards and specifications for erosion and sediment control[S/OL]. 2016:3.2.[2022-03-25]. https://www.dec.ny.gov/chemical/29066.html.
[14]
District of Columbia Department of Energy & Environment (DC-DEE), Watershed Protection Division (WPD). Erosion and sediment control manual[S/OL]. Ellicott city:Center for Watershed Protection, 2017:127.
[15]
City of Memphis Division of Public Works and Division of Engineering (CMD-PWDE), Shelby County Public Works Department (SC-PWD). Storm water management manual. Volume 3:Best management practices manual[S]. Memphis:City of Memphis Division of Public Works, 2006:ES-13-4.
[16]
Mississippi Department of Environmental Quality (MS-DEQ). Erosion control, sediment control and stormwater management on construction sites and urban areas. Volume 1:Erosion and sediment control practices[S/OL]. 2011:4.[2022-03-25]. https://www.mdeq.ms.gov/wp-content/uploads/2017/05/Volume_1.pdf.
[17]
Watershed Division Department of Environmental Services (WD-DES), City of Gresham, Oregon. Erosion prevention and sediment control manual[S/OL]. 2011:5.[2022-03-25]. https://greshamoregon.gov/WorkArea/DownloadAsset.aspx?id=2273.
[18]
Illinois State Toll Highway Authority (ILS-THA). Erosion control and landscape manual[S]. Downers Grove:Illinois State Toll Highway Authority, 2020:65.
[19]
Government of Alberta Transportation (GAT). Erosion and sediment control manual[R]. Edmonton:Government of Alberta Transportation, 2011:7.
[20]
MARSH W M. Landscape planning:Environmental applications[M]. 5th ed. Danvers, MA:John Wiley & Sons, Inc, 2010:267.
[21]
Iowa Statewide Urban Design and Specifications (SUDAS). Design manual:Erosion and sediment control[S]. Ames, IA:Institute for Transportation at Iowa State University, 2013:7E-7.
[22]
NICHOLS M H, POLYAKOV V O, NEARING M A, et al. Semiarid watershed response to low-tech porous rock check dams[J]. Soil Science, 2016, 181(7):275.
[23]
CASTILLO V M, MOSCH W M, GARCIA C C, et al. Effectiveness and geomorphological impacts of check dams for soil erosion control in a semiarid Mediterranean catchment:El Carcavo (Murcia, Spain)[J]. Catena, 2007, 70(3):416.
[24]
REMAȊTRE A, VAN ASCH T W J, MALET J-P, et al. Influence of check dams on debris-flow run-out intensity[J]. Natural Hazards and Earth System Sciences, 2008, 8(6):1403.
[25]
MONGIL-MANSO J, DIAZ-GUTIERREZ V, NAVARRO-HEVIA J, et al. The role of check dams in retaining organic carbon and nutrients. A study case in the Sierra de vila mountain range (central Spain)[J]. Science of the Total Environment, 2018, 657:1030.
[26]
DÍAZ-GUTIÉRREZ V, MONGIL-MANSO J, NAVARRO-HEVIA J, et al. Check dams and sediment control:final results of a case study in the upper Corneja River (central Spain)[J]. Journal of Soils and Sediments, 2018, 19:451.
[27]
LENZI M A, COMITI F. Local scouring and morphological adjustments in steep channels with check-dam sequences[J]. Geomorphology, 2003, 55(1/4):97.
[28]
ROBICHAUD P R, STORRAR K A, WAGENBRENNER J W. Effectiveness of straw bale check dams at reducing post-fire sediment yields from steep ephemeral channels[J]. Science of the Total Environment, 2019(676):721.
[29]
POLYAKOV V O, NICHOLS M H, MCCLARAN M P, et al. Effect of check dams on runoff, sediment yield, and retention on small semiarid watersheds[J]. Journal of Soil and Water Conservation, 2014, 69(5):414.
[30]
LIN Bingshyan, YEH Chaohsien, LIEN Huipang. The experimental study for the allocation of ground-sills downstream of check dams[J]. International Journal of Sediment Research, 2008, 23(1):28.
[31]
BALOONI K, KALRO A H, KAMALAMMA A G. Community initiatives in building and managing temporary check-dams across seasonal streams for water harvesting in South India[J]. Agricultural Water Management, 2008, 95(12):1314.
[32]
BOIX-FAYOS C, DE VENTE J, MARTÍNEZ-MENA M, et al. The impact of land use change and check-dams on catchment sediment yield[J]. Hydrological Processes, 2008, 22(25):4922.
[33]
BUSSI G, RODRÍGUEZ-LLOVERAS X, FRANCÉS F, et al. Sediment yield model implementation based on check dam infill stratigraphy in a semiarid Mediterranean catchment[J]. Hydrology and Earth System Sciences, 2013, 17(8):3339.
[34]
GALIA T, ŠKARPICH V, RUMAN S, et al. Check dams decrease the channel complexity of intermediate reaches in the western Carpathians (Czech Republic)[J]. Science of the Total Environment, 2019(662):881.
[35]
CASTELLI G, OLIVEIRA L A A, ABDELLI F, et al. Effect of traditional check dams (jessour) on soil and olive trees water status in Tunisia[J]. Science of the Total Environment, 2019(690):226.
[36]
PITON G,CARLADOUS S,RECKING A,et al.Why do we build check dams in Alpine streams? An historical perspective from the French experience[J]. Earth Surface Processes and Landforms, 2016, 42:91.
[37]
NYSSEN J, VEYRET-PICON M M, POESEN J, et al. The effectiveness of loose rock check dams for gully control in Tigray, northern Ethiopia[J]. Soil Use and Management, 2006, 20(1):55.
[38]
AKITA H, KITAHARA H, ONO H. Effect of climate and structure on the progression of wooden check dam decay[J]. Journal of Forest Research, 2014, 19(5):450.
[39]
林学名词审定委员会.林学名词[M]. 北京:科学出版社, 1989:29. Approval Committee of Forest Science Terms. Chinese terms in forest science[M]. Beijing:Science Press, 1989:29.
[40]
水利部. 水坠坝技术规范:SL302-2004[S]. 北京:中国水利水电出版社出版, 2004:2. Ministry of Water Resources. Technical specification for sluicing-siltation earth dam:SL302-2004[S]. Beijing:China Water & Power Press, 2004:2.
[41]
黄河中上游局.淤地坝技术规范(报批稿)[S].北京:中国水利出版社, 2019:2. Upper and Middle Yellow River Bureau (UMYRB), YRCC. Technical specification of check dam for building farmland (Approval document)[S]. Beijing:China Water and Power Press,2019:2.
[42]
XIN Zhongbao, YU Bofu, HAN Yuguo. Spatiotemporal variations in annual sediment yield from the middle Yellow River, China, 1950-2010[J]. Journal of Hydrologic Engineering, 2015, 20(8):04014090.
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