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            9­@DÁ), €¬­å/p@eâ, R‚5×@V                             ¢^xùK¬­[J]. U@á@,2016,52(S1):150-154.
            ^þV©QÓ_ÑÒ<Æ。                                       [5]«‚k, ~ÎG, ® œ. ¸¬@0@¡†#Bº%Dz
                                                                  1[J]. @CDK@NO&c,2021,32(6):57-64.
            5 [ \                                              [6]¿Jî, =1Y. 'x]BµUq¸F°†_pÁ—@@
                                                                  ¡†#[J]. @CDK@NO&c,2017,28(6):38-43.
                 uA@@¡ÿRÉw'8f ^dZ=“oë
                                                               [7]\ B, |úœ, WG¸. 'x§3#Ì^01Âd@
            Î@¡ÑÒ, ­@¡ÑÒ[”ÝHo2”ù×( ð
                                                                  ¡†#Bº%Dz1[J]. @CDFÕ,2020,36(2):
            [”ù×) K”•^Ndºû; ‹îÌ8‘Á¯{                              79-84+104.
            |@¡®”€nÛhi“ õ”” ^f , Â=é…ë                         [8]TIWARINK,DASGUPTAS,SWAINHS,etal.Water
            Î@¡ÑÒ^I(K‘ý, ]hµQ9K@¡ÿR                               qualityassessmentintheecologicallystressedlowerandes
            Éw^‚®”, @ž?*”@V^Á•ÍuÕ                               tuarinestretchesofRiverGangausingmultivariatestatisti
            H«ùQ。‚¯UY—:                                          caltool [J].EnvironmentalMonitoringandAssessment,
                 ( 1) @¡®”†‘fVÇ ^Uf ·¸[                          2022,194:469.
                                                               [9]QINGuoshuai,LIUJianwei,XUShiguo,etal.Pollution
            rºû¯—_,P- Ⅲ·¸^™°.—±¥; 'x
                                                                  sourceapportionmentandwaterqualityriskevaluationofa
            P- Ⅲ·¸^qV’‡pµÎ"¥Á~@¡®”
                                                                  drinkingwaterreservoirduringfloodseasons [J].Interna
            †‘fVÇ ^UVÇÈ。
                                                                  tionalJournalofEnvironmentalResearch and Public
                 (2) uAuh^<ÆQŸëÎ@¡ÑÒÔÃ
                                                                  Health,2021,18(4):1873.
            €°Öôy, j°‘Á¯¾‘iS。²Džô@                            [10]~K´, ¶­­. 'x MATLAB^JJ·nµÕ@N
            ¡uŸÅé>¥, €µû<“ ÒrÕ@FÖOZ” o                             O@¡ÑÒ·1[J]. À¦·I&NO&c,2015,6
            <Æ}¶’£Ó_。                                              (1):5-11.
                 (3) 9K‘Á¯Ø·@”@¡fV^‚®”                        [11]®(‰, ö J, ׯ4, ‘. 'xq¸F°qVqr^
            ? TP、pHÆW COD, /¢ñò±I^´ TP。”•                          @¡†#K&({º%7µÑÒ·1———ÎÅќ,
            RëÎ^Ô TP, õ”f ? 12.29%; €ê                         ‹ÂÙ·à9­@DÁ?«[J]. @pFò‹c,2022,
                                                                   42(1):173-183+190.
            ü) TP ®”^Ùڗ, I¨6ÒWJ’“ëΓ õ
                                                               [12]=Û?, °W!, Ãع, ‘. %E™®—àF§Õ@@¡
            ”” ^Ô COD, õ”f ·k? 2.58%W
                                                                   K7µÑ҆.[J]. •–V&,2021,40(7):2054-2063.
            2.73%; 8õWPÛëÎ^Ô pHÆ,“ õ
                                                               [13]N(¦, åÌö, ~*B, ‘. G¹Â9­@@DÁ7µÑ
            ”” f ·k? 1.82%W 3.29%。
                                                                   ҆#[J]. @CDK@NO&c,2020,31(3):97-101.
                 ( 4)TPfVÇ ^“ õ”” f ÝDEab˜
                                                               [14]Ö G, = R, +ee, ‘. Ó@îO¢|±^@¡Ñ
            _, %“ 4—ß” —£、“ ß—­” Là^;<; *8õ                        Ò·1[J]. ³I&&c ( #$%&»),2014,42
            z, /pëÎ^ pHÆfVÇ ^“ õ”” f DEU                           (1):13-18.
            VÇȼK, %ihß、 ­DXž4、 $D¤^i);                        [15]¶;§, = ˆ, × ², ‘. dr¹4deê>ÈÁ@V
            *6ÒëÎz, /pëÎ CODfVÇ ^“ õ”” f                           Zþ·¸B›õöVÑ҆#[J]. 0EFG%HI&
             5þÿßD±¤ž$、 ­、 4DûX^œÑ。                                &c( #$%&»),2020,48(5):99-107.
                                                               [16]KANNELPR,LEES,LEEY-S,etal.Applicationof
            _`7R:
                                                                   waterqualityindicesanddissolvedoxygenasindicatorsfor
            [1]õX, ¶;ô, §•%, ‘. ™L‘Á¯@J–æNO
                                                                   riverwaterclassificationandurbanimpactassessment
                o@¨^abq™·1[J]. ¢!@J@Î%&;<P
                                                                   [J].EnvironmentalMonitoringandAssessment,2007,
                &c,2018,16(3):195-206.
                                                                   132:93-110.
            [2]Q¢%, ¤r¸, ©A, ‘. ‘Á¯@JÓÔo¯àd
                                                               [17]KAPLANS.Thewordsofriskanalysis[J].RiskAnaly
                rš&@•@]i@¡ab;<[J]. @J&c,2018,
                                                                   sis,1997,17(4):407-417.
                49(2):156-167.
                                                               [18]YURuolan,ZHANGChen.Earlywarningofwaterquality
            [3]HOH,HUANGGuoxian,LIANGDongfang.Hydrodynam
                                                                   degradation :acopulabasedBayesiannetworkmodelfor
                icsandpollutanttransportmodelingofPoyangLake ,China
                                                                   highlyefficientwaterqualityriskassessment[J].Journal
                forthestudyofdownstream engineeringcontrol’seffect
                                                                   ofEnvironmentalManagement ,2021,292:112749.
                [C]//Wuxi:Proceedingofthe2ndConferenceofGlobal
                                                                                          ( 456 117 7)
                ChineseScholarsonHydrodynamics ,2016.
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