Page 82 - 《水资源与水工程学报》2023年第5期
P. 82

7 8                      & ' ( ) & * + , -                 2023 $

            Ëå×à。01, a}+JÅ }~ªÃENVª                           [6]BHATTACHARYA R K,CHATTERJEEN D,DASK.
            Ã|¦ÎÀ­ÀÖ»|PQ。                                        Subbasinprioritizationforassessmentofsoilerosionsus
                                                                  ceptibilityinKangsabati,aplateaubasin:acomparison
            5 N S                                                 betweenMCDMandSWATmodels [J].ScienceoftheTo
                                                                  talEnvironment ,2020,734:139474.
                 (1)DEM¦ÎÀ|dBPQC5–—Wµ
                                                               [7]FANJihui,GALOIEM,MOTAMEDIA,etal.Assessmentof
            i|“ß,30~1000m¦ÎÀ| DEM$”-^
                                                                  landcoverresolutionimpactonfloodmodelinguncertainty
            ï(。' DEM¦ÎÀÀ‹ 1000m˜, Bbé
                                                                  [J].HydrologyResearch,2021,52(1):78-90.
            µ©N¾Y}|µi, µi–—æBæbê§。Ÿ                            [8]ZHANGPeipei,LIURuimin,BAOYimeng,etal.Uncer
            ã DEM|¦ÎÀ|¿À, ÔÕ|Ä%[Å[âz                             taintyofSWATmodelatdifferentDEM resolutionsina
             12.27%, Ëk%IÀ¯ 312m, Ë8%I%¯                        largemountainouswatershed[J].WaterResearch,2014,
             139m。*qJ¦ÎÀd|PQÉk, '¦Î                             53:132-144.
            ÀÀ‹ 2000m˜, *qrs¸•‡\àM。HRU                         [9]{£O, ö 7, ™÷*. 2‹¾~¦ÎÀ DEM“ß*=|
            |ª6BŸã DEM¦ÎÀ|¿À*½Ðâz, @                             GĦÏ[J]. Cu+J,2019,26(3):72-76+85.
            d¹­ HRUª6|PQK8。                                    [10]GAUTAM S,DAHALV,BHATTARAIR.Impactsof
                                                                   DEM source ,resolutionandareathresholdvalueson
                 ( 2)ÞµÔÕ\/µN™/ßC5Ò|ÀÖ
                                                                   SWATgeneratedstream networkandstreamflowintwo
            »Ž‹)/OÒ, ŽWјÒ|Qt «ÔՁ[
                                                                   distinctNepalesecatchments [J].EnvironmentalProces
            ȇ, ݪ0Û|¾ŽpSBPQ‘|ÀÖ»。
                                                                   ses ,2019,6:597-617.
            Y0, À¦ÎÀ|‘æÅ$WÈKž|ƒ¹S。
                                                               [11]TANML,RAMLIHP,TAMTH.EffectofDEMreso
            ³ÄÈ|‘·,USLE_C,EPCO、ALPHA_BNK                          lution,source,resamplingtechniqueandareathreshold
            « CN2 y˾¿|ݪ,DEM­Ýª¾¿S|P                             onSWAToutputs [J].WaterResourcesManagement,
            Qk‹@d¹。                                               2018,32:4591-4606.
                 (3)ϋ‘Nݪ|¾ŽpS,DEMN@                        [12]$ÙÙ, 5øL, ) 5.DEM¦ÎÀ­ùúµÔÕHÔ
            d¹ªÃ|¦ÎÀ­‘C9ÀÖ»|PQŠ¾                                 À|PQ[J]. (M´µ,2017,39(6):7-11.
            ½Ð。¾~ÔÕ|Ë向| DEMN@d¹¦                            [13]„J/, Klg, Q ², ê. :ŸªÃ·qW͎S­
                                                                   SWAT ‘À|PQ[J]. ·.XY*#,2021,41
            ÎÀ×à¾~, ×µÔÕ、 ÞµQö°ÔÔÕ «ê
                                                                   (5):2151-2160.
            ˆÞµÔÕ|Ë向 DEMN@d¹¦ÎÀ×
                                                               [14]JINXin,JINYanxiang,YUANDonghai,etal.Effectsof
            আ_ 750N 300m、30N 90m  « 150N
                                                                   landusedataresolutiononhydrologicmodelling ,acase
            3000m。
                                                                   studyintheupperreachoftheHeiheRiver ,northwest
                                                                   China[J].EcologicalModelling,2019,404:61-68.
            «JK:                                              [15]FISHERJRB,ACOSTAEA,DENNEDYû FRANKP
            [1]Ð 5, ¤/, Hò7, ê. O@ÔÕC5À+J®Ù                      J,etal.Impactofsatelliteimageryspatialresolutionon
                WÙ6[J]. O@#$,2020,38(1):50-61.)                    landuseclassificationaccuracyandmodeledwaterquality
            [ 2] YANG Zhifeng.Watershedecologyanditsapplications   [J]. RemoteSensingin Ecology and Conservation,
                 [J].Engineering,2018,4(5):581-583.                2018,4(2):137-149.
            [3]KUMARM,SAHUAP,SAHOON,etal.Globalscaleap       [16]HARRAKIW E,OUAZAR D,BOUZIANEA,etal.
                plicationoftheRUSLEmodel :acomprehensivereview[J].  StreamflowpredictionupstreamofadamusingSWATand
                HydrologicalSciencesJournal,2022,67(5):806-830.    assessmentoftheimpactoflandusespatialresolutionon
            [4]SRIVASTAVAA,BROOKSES,DOBREM,etal.Mod               modelperformance [J].EnvironmentalProcesses,2021,
                elingforestmanagementeffectsonwaterandsedimentyield  8:1165-1186.
                from nested , paired watershedsin the interiorPacific  [17]ORTIZ-RODRIGUEZAJ,MUNOZ-ROBLESC,RO
                Northwest ,USAusingWEPP[J].ScienceoftheTotalEn    DRIGUEZ-HERRERAJG ,etal.EffectofDEM reso
                vironment ,2020,701:134877.                        lutiononassessinghydrologicalconnectivityintropical
            [5]KGó, ô9], ) õ, ê. ´%‹Ífa¹r´µª                      andsemiaridbasinsofcentralMexico [J].Journalof
                ¹ÔՐ‘*WX´z®[J]. 3`k##$( 0                        Hydrology ,2022,612(PartA):128104.
                1*#i),2022,62(12):1953-1963.                   [18]ZHANGJinliang,SHANGYizi,LIUJinyong,etal.Cau
   77   78   79   80   81   82   83   84   85   86   87