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Miningacitviites of Kampar ir verhaveani mpactont hecross-irve rchannel .Changeofcrosss eciton n a c s r u c c o resutl i n the veloctiy di ts irbuiton o feach differen tpoint .Flowrate affectt he movemen tof t n e m i d e s .Themovemen tofthesesedimentsindicate tt ha sedimentinun tsablecondiitons da a n tendency m r o f o t thebedform so firver. e h t r o F purposeoft hi s tsudy si neededtogetthedata - supporitngdataobtainedfromt he ifeld da n y lt n e u q e s b u s processedi nlaboaro irum .D atafromt he ifeldi srequiredint he f ormofwate rdepth ,lfow y ti c o l e v , da n tsreamsedimentsampilng .D ataprocesisnglaboratory yb iseving ot bo t aingrain isze da n f o y ti s n e d granules .B oth if deld a n laboratory d ata are used ot obtain grain grading ,granular iniital n o it o m da n determinewha tkindofbedform .s s tl u s e r t s e t n o d e s a B obtained ba isc grainsKamparriversegmentsBangkinang - rA i Tiirs sa nn -o m r o fi n u grain w tih grain clas isifcaiton basedAGUranging f rom v erycoarse gravel ot very ifnesand . t n e m i d e S ni Kampar ir versedimentaiton da n ero ison dh a causedbythe lfowveloctiy .Calculaitonshows e h t bedformst ha tformedbythe irver ea a r plane db ,e tran isitonal da n dunes. Keyword :flow velocity, sediment ,grain grading ,bedforms

N A U L U H A D N E P n a d r i s a p l i s a h g n e p i d a j n e m u a i R i d a d a g n a y i a g n u s u t a s h a l a s i a g a b e s r a p m a K i a g n u S k i a b n a s a w a g n e p n a k u k a li d k a d it a k ij l i k ir e k dliokas imaupunvolumepenambangannyaakan n a k a n a r u l a s g n a p m a t n a h a b u r e p a y n a d A . n a r u l a s g n a p m a t n a h a b u r e p a d a p k a p m a d r e b n a k t a b i k a g n e m i n i a t a r e m k a d it n a ri l a n a t a p e c e K . n a t a p e c e k i s u b ir t s i d a d a p k a p m a d e b .i a g n u s r a s a d n a ri t u b l a w a k a r e g a y n i d a jr e t m o n e F ena in imengakibatkan terganggunya stablitia sbutrian dasa rsungai .Selain tiu , n a k t a b i k a g n e m t u b e s r e t s a ti v it k a tejradinya pergerakan dan pengangkutan sedimen dasa r i a g n u s r a s a d i s a r u g if n o k n a h a b u r e p n a k b a b e y n e m a g g n i h e s i a g n u s .Kecepatan alrian yang a d it kmerataakiba tpenambangandisunga iyangt e jradit erus-meneru smenjad isuatuha lyang i s u b ir t s i d h u r a g n e p r a s e b a p a r e b e s , n a it il e n e p n a k u k a li d n a d n a k it a h r e p i d k u t n u g n it n e p u g if n o k p a d a h r e t r a s a d n a ri t u b i s a ir a v n a d i a g n u s t i b e d p a d a h r e t n a ri l a n a t a p e c e k ras idasa r .i a g n u s ir a d n a u j u T peneilitan in iadalah mengetahu ikecenderungan bentuk konifguras idasar i a g n u s (segmen Bangkinang– Ai rTiirs )denganmenganailsa gerakawa lbutrian .Sedangkan i n i n a it il e n e p t a a f n a m membeirkan gambaran mengena i prose s angkutan sedimen dan .i a g n u s r a ti k e s i d t a p e t g n a y r i a n a a n u g n a b n a a n a c n e r e p i s a d n e m o k e r

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2 ti b e D m a l a d g n a p m a n e p i u l a l e m r il a g n e m g n a y r i a e m u l o v h a l a d a i a g n u s ti b e d u a t a n a ri l a u j a L m i a g a b e s n a k a t a y n i d a y n a s a i b n a d u t k a w n a u t a s 3_/_s_._P_e_r_s_a_m_a_a_n_M_a_n_n_i_n_g_m_e_n_y_a_t_a_k_a_n_b_a_h_w_a_: Q =1_nAR2/3_S1/2 ₍₁₎ n a r il A n a t a p e c e K n a r u k u g n e P e d o t e M denganCurren tMeter a y n a h k a d it n a k u k a li d a y n m u m u a d a p ) 3 9 9 1 ( o tr a H t u r u n e m n a t a p e c e k n a r u k u g n e P n a k u k a li d a y n m u m u i p a t e t n a k a , g n a p m a n e p u t a s m a l a d k it it n a t a p e c e k h e l o r e p m e m k u t n u a t a r n a t a p e c e k h e l o r e p m e m k u t n u -rata dalam satu veritka ldalam satu alrian penampang t a p a d n a r u k u g n e p , a y n t a l a n a p a k g n e l e k n a d n a t a p e c e k n a a d a e k n a k it a h r e p m e M . u t n e tr e t b ir t s i d a w h a b , k il u a r d i h n a it r e g n e p n a k it a h r e p m e m n a g n e d a r a c a p a r e b e b n a g n e d n a k u k a li d us i . a l o b a r a p k u t n e b r e b h a l a d a g n a p m a n e p u t a s m a l a d l a k it r e v a r a c e s n a t a p e c e k l e b a T 1. PenentuanPengukuranKedalamanDanKecepatanAlrian n a m a l a d e K ) m ( i a g n u s Kedalamanpengukuran Perhtiungankecepatanr ata- ar at 0-0.6m 0.6d V=V0.6 6 . 0 - m3 0.2ddan0.8d V=0.5(V0.2+V0.8) 3 - m6 0.2d ,0.6ddan0.8d V=0.25(V0.2+V0.6+V0.8) m 6 > S ,0.2d ,0.6d ,0.8ddanB V=0.1(VS+3V0.2+2V0.6+3V0.8+Vb) 9 0 0 2 , u y a h a R : r e b m u S n e m i d e S h e l o t u y n a h a w a b r e t g n a y n e m i d e S alrian ai rterdri idar idua muatan yatiu berupa ( r a s a d n a t a u m bed load )maupun muatan melayang (suspended load) .Muatan dasa ryatiu n a d , r u c n u l e m , ri l u g r e b a r a c n a g n e d i a g n u s n a ri l a m a l a d k a r e g r e b g n a y l a ir e t a m a p u r e b t a c n o l e m -lonca td iata spermukaan dasa rsungai .Sedangkan muatan melayang yatiu butrian t u r u n e M . ri a m a l a d i d g n a y a l e m a s a it n a n e s g n a y l i c e k h i b e l a y n n a r u k u g n a y s u l a h n a ri t u b n i a l a r a t n a i u h a t e k i d u lr e p g n a y , r o p s n a rt i d g n a y n a h a b t a fi s a p a r e b e b , ) 8 8 9 1 ( n e o k ij r a M a d a s s a m t a p a r , n a r u k u h a l a d a nkecepatanendap. r it u B n a r u k U n a r a b e y n e P i a li n e m k u t n u n a k a n u g i d g n ir e s g n a y n a m a g a r e s k a d it e k r e t e m a r a p a p a r e b e B : n a ri t u b n a m a g a r e s k a d it e k n a ri t u b k ir t e m o e g i s a i v e d r a d n a t s n a k s a l e j n e m ) 0 1 0 2 ( i d i a n u J m a l a d ) 1 9 9 1 ( o a R d n a n e h S :i a g a b e s g n u ti h i d 𝐺 = 0,5 �𝑑84 𝑑50+ d50 d16� ( )2 a t a r n a r u k u n a k s a l e j n e m ) 0 1 0 2 ( i d i a n u J m a l a d ) 2 9 9 1 ( k r u t n e S d n a n o m i S -rata geometir s :t u k ir e b i a g a b e s n a ri t u b 𝜎𝑔 = �𝑑84 d16 ( )3 a t a r n a r u k u a li b a p A – rata geometir slebih besa r1 maka merupakan butrian itdak m a g a r e s (σg 1> ) ,butrian dikatakanseragambliaukuranr ata-ratageomet irsl ebih keci ldar i1

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3 σ ( g 1< ). Apabliar ata– ratas tanda rdevias igeomet irkl ebihbesa r1 ,2makabutrianmerupakan ( m a g a r e s k a d it n a ri t u b G > 21 ), ,butrian dikatakan seragam blia standa rdevias igeometirk G ( 2 , 1 i r a d l i c e k n a ri t u b < 21 ). , n a r it u B i s a k if i s a l K U G A t u r u n e m a k il u a r d i h i l h a a r a p h e l o n a k a n u g i d g n a y n a ri t u b n a r u k u i s a k if i s a l K (Ame ircan Geophysica lUnion )adalahs epert idtiunjukkanpadaTabe l2di bawah. . 2 l e b a T Klasi ifkasiukuranbuit rMenuru tAGU( Ame ircanGeophysica lUnion) e g n a R /l a v r e t n I ) m m ( Nama Inter(vmam/lR)ange Nama 6 9 0 4 – 2048 8 4 0 2 – 1024 4 2 0 1 – 25 1 2 1 5 – 62 5 6 5 2 – 81 2 8 2 1 – 46 4 6 – 23 2 3 – 61 6 1 – 8 8 – 4 4 – 2 2 – 1 1 – 21 / r a s e b t a g n a s u t a B (veryLargeBoulders) r a s e b u t a B (LargeBoulders) g n a d e s u t a B (MediumBoulders) li c e k u t a B (Smal lBoulders) r a s e B l a k a r e K (LargeCobbles) li c e K l a k a r e K (Smal lCobbles) r a s a k t a g n a s li k ir K (VeryCoarseGravel) r a s a K l i k ir K (CoarseGravel) g n a d e S l i k ir e K (MediumGravel) s u l a H l i k ir K (FineGravel) s u l a H t a g n a S l i k ir e K (VeryFineGravel) r a s a k t a g n a s ri s a P (VeryCoarseSand) r a s a K r i s a P (CoarseSand) 2 / 1 – 41 / 4 / 1 – 81 / 8 / 1 – 61 /1 6 1 / 1 – 21 /3 2 3 / 1 – 41 /6 4 6 / 1 – 1/128 8 2 1 / 1 – 1/256 6 5 2 / 1 – 1/512 2 1 5 / 1 – 1/1024 4 2 0 1 / 1 – 1/2048 8 4 0 2 / 1 – 1/4096 g n a d e s ri s a P (Mediums and) s u l a h r i s a P (ifnes and) s u l a h t a g n a s ri s a P (VeryFineSand) r a s a k r u p m u L (coarses itl) g n a d e s r u p m u L (MediumSitl) s u l a H r u p m u L (FineSitl) s u l a h t a g n a s r u p m u L (VeryFineSitl) g n u p m e L kasar (CoarseClay) g n a d e s g n u p m e L (MediumClay) s u l a h g n u p m e L (FineClay) s u l a h t a g n a s g n u p m e L (Very ifneClay) d i o l o K r a M : r e b m u S ( dijkoen ,1988) a s s a m t a p a R r a M dijkoen( 1988 )menyatakanbahwaSedimenumumnyaberasa ldar idesintegras iatau i s i s o p m o k e d batuan .Komposis isedimen dapa tberupa l empung (pecahan f eldspa tdan mica) , n a ri t u b a s s a m t a p a R . )l a s a n a u t a b n a h a c e p ( n a u t a b n a d l i k ir e k , ) s tr a u k ( ri s a p , )t a k il i s ( r u p m u l t a p a d r e t k a y n a b g n il a p s tr a u k a n e r a k a d e b r e b k a y n a b k a d it ) m m 4 < ( a y n m u m u n e m i d e s dalams edimenalam,r ata-ratadapa tdianggapρ s=2650kg/m3 .

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4 n a k i s i n if e d i d s i n e j t a r e B sebagai perbandingan rapa tmassa sedimen dan rapa tmassa :) 8 8 9 1 , n e o k ij r a M ( a d i u lf S = γs γw= ρs ρw= 2, 56 ( 4) r a s a D n a r a s a k e K i a li N e t s n i E t u r u n e M in dalam (Mardijkoen,1988) , untuk mencar i kecepatan alrian dasa r d n a ri t u b n a g n e d r a s a d n a r a s a k e k n a k a n u g g n e m a k a m m a g a r e s k a d it n a ri t u b a li b a p a 65 , .i n i h a w a b i d t a h il i d a s i b t u b e s r e t n a it r e g n e p x Butris edimens eragam :K = d x Butris edimencampuran :K = d65(Einste )i n N A I T I L E N E P I G O L O D O T E M n a it il e n e P r il A m a r g a i D a i d e m i r a d h e l o r e p i d g n a y r e d n u k e s a t a d n a k h u t u b m e m i n i n a it il e n e P Google E ha rt m a l a d t o l p i d g n a y AutoCad berupa peta dan data pirme rdiperoleh melalu isurvei l apangan . Baganail rpeneilitandtiunjukans eperitpadaGamba r1 .dibawahi n.i n a it il e n e P r il A n a g a B . 1 r a b m a G a t a D a s il a n A i a l u M a t a d n a l u p m u g n e P n a r u k u g n e P n a t a p e c e k , r u k u g n e P an i a g n u s n a m a l a d e k , Perhtiungandebti : m u i r o t a r o b a L n a ij u g n e P -Anailsas aringan -Anailsaberatj enis , a s s a m t a p a r , r it u b n a r u k u , i s a d a r g a v r u K Gerak i a g n u s r a s a d i s a r u g if n o k k u t n e b , n a r it u b l a w a n a s a h a b m e P n a li b m a g n e P l e p m a s sedimen PKeatmapSaun,rga i i a s e l e S

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5 i s a k o L danWaktuPeneilitan g n a n i k g n a B n e m g e s a y n t a p e t r a p m a K i a g n u S i d i s a k o lr e b i n i r i h k A s a g u T n a it il e n e P – Ai r t e r a M 3 2 l a g g n a t a d a p n a k a n a s k a li d n a g n a p a l n a it il e n e p u t k a W . r a p m a K n e t a p u b a K , s ir i T 2 1 0 2 t e r a M 5 2 n a g n e d i a p m a s 0 1 0 2 r a b m a G 1 Lokas iSunga iKampar s e s k a h tr a E e l g o o G : r e b m u S ( 2J ul i2013) a t a D n a l u p m u g n e P Pengumpulan data in i terdri i dar i data sekunde r dan data pirmer . Data sekunde r pada a i d e m i r a d h e l o r e p i d u ti a y i n i n a it il e n e p Google Eatrh yang telah diplo tkedalam program o t u A C adberupapeta/gambaransunga iKampar .Pengumpulandatap irme rdiperolehdalam2 i ri d r e t n a g n a p a li d n a it il e n e P . m u ir o t a r o b a l i d n a ij u g n e p n a d n a g n a p a l n a it il e n e p u ti a y p a h a t e c e k n a r u k u g n e p , n a m a l a d e k n a r u k u g n e p i r a d patan dan pengamblian sedimen dasar . a d a p n a k t a h il r e p i d r a s a d n e m i d e s l e p m a s n a a m a n e P Tabe l 2 . Sedangkan penguijan .s i n e j t a r e b n a ij u g n e p n a d n a ri t u b n a r u k u a s il a n a n a ij u g n e p i r a d i ri d r e t m u ir o t a r o b a li d l e b a T 3 .Penamaan/Kodes ampel e d o K Keterangan C B A 1 S C Cross1pada ititkpengamblianABC C B A 1 V Kecepatan cross 1 pada seitap ititk C B A n a li b m a g n e p γ B1A Bera t jeni s pada cros s 1 pada ititk C B A l e p m a s n a li b m a g n e p C B A 1 ρ Rapa t massa pada cros s 1 pada ititk C B A l e p m a s n a li b m a g n e p N A S A H A B M E P N A D L I S A H n a r it u b n a r u k U n a d i s a d a r G a v r u K .i s a d a r g a v r u k k u t n e b m a l a d t u p n ii d n e m i d e s a d a p n a g n ir a s i j u l i s a H Ukuran butrian r a b m a G . m u ir o t a r o b a l i d n a g n ir a s i j u i d g n a y n e m i d e s a t a d i r a d h e l o r e p i d 3 dibawah in i . A 1 C n e m i d e s ir a d i s a d a r g a v r u k n a k a p u r e m g n a n i k g n a B s i r i T r i A

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6 r a b m a G 3 .KurvaGradas ibutrianC1A n a ri t u b i s a k if i s a l K . ri t u b n a r u k u i s a k if i s a l k m a l a d n a k u lr e p i d t a g n a s n a ri t u b n a r u k U l e b a t a d a p n a k t a h il r e p i d U G A n a k r a s a d r e b n a it il e n e p n e m i d e s l e p m a s a d a p t a p a d r e t g n a y 4 .t u k ir e b 4 l e b a T . Klasi ifkas iukuranbutrians edimen " 2 50.000 32- 64 Ke irki lsanga tkasar " 2 / 1 1 37.500 32- 64 Ke irki lsanga tkasar " 1 25.000 16- 32 ke irki lkasar " 4 / 3 19.000 16- 32 ke irki lkasar " 2 / 1 12.500 8- 16 ke irki lsedang " 8 / 3 9.500 8- 16 ke irki lsedang 4 . o N 4.750 4- 8 ke irki lhalus 8 . o N 2.360 2- 4 Ke irki lsanga thalus 6 1 . o N 1.180 1- 2 Pasi rsanga tkasar 0 5 . o N 0.300 0,25- 0,5 Pasi rsedang 0 0 2 . o N 0.075 0,062- 0,125 Pasi rsanga thalus n e m i d e s n a r u k u e g n a R ) m m ( n e m i d e s i r o g e t a K U G A n a k r a s a d r e b . o N n a g n ir a S r e t e m a i D ) m m ( l e b a t a d a p t a h il r e t U G A a d a p u c a g n e m g n a y n a ri t u b i s a k if i s a l K 4 menunjukkan bahwa g n a n i k g n a B n e m g e s r a p m a K i a g n u s a d a p t a p a d r e t g n a y r a s a d n e m i d e s – Ai rTiir spada ir e t a m a p u r e b i n i n a it il e n e p a lsedimenkeirki lsanga tkasar( very coarsegravel) ,keirki lkasa r (coarse gravel) ,ke irki lsedang (medium gravel) ,keirki lhalu s(ifne gravel) ,ke irki lsanga t ( s u l a h very ifne gravel) ,pasi rsanga tkasa r(very coarse sand) ,pasi rsedang (mediumsand) , a p sris anga thalus( very ifnes and).

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7 . n a ri t u b s ir t e m o e g n a d i s a i v e d r a d n a t s i a li n a d a p t a h il i d n a ri t u b n a m a g a r e s e K Nliair ata- m i d e s n a ri t u b s ir t e m o e g n a d k ir t e m o e g i s a i v e d r a d n a t s a t a r e n dihtiung berdasarkan butrian ( % 6 1 s o l o l g n a y d16) ,50% (d50 )dan 84% (d84 )untuk menggambarkan dist irbus ibutrian . n e m i d e s Hasi lperhtiungan nlia irata – rata standa rdevias i(G )dan geomet ir sbutrian (σg) l e b a t a d a p n a k t a h il r e p i d 5 beirku.t l e b a T 5 Standa rDevias idanGeomet ir sButrian A 1 C 5.25 >1,2 4.29 >1 TidakSeragam B 1 C 1.78 >1,2 1.76 >1 TidakSeragam A 2 C 6.96 >1,2 4.79 >1 TidakSeragam B 2 C 2.95 >1,2 2.63 >1 TidakSeragam A 3 C 10.42 >1,2 7.85 >1 TidakSeragam B 3 C 4.73 >1,2 3.54 >1 TidakSeragam A 4 C 2.60 >1,2 2.48 >1 TidakSeragam B 4 C 4.36 >1,2 3.75 >1 TidakSeragam C 4 C 3.54 >1,2 3.21 >1 TidakSeragam A 5 C 2.79 >1,2 2.58 >1 TidakSeragam B 5 C 2.15 >1,2 2.00 >1 TidakSeragam A 6 C 2.07 >1,2 2.02 >1 TidakSeragam B 6 C 2.34 >1,2 2.25 >1 TidakSeragam A 7 C 6.31 >1,2 4.36 >1 TidakSeragam B 7 C 2.07 >1,2 2.02 >1 TidakSeragam C 7 C 10.52 >1,2 5.58 >1 TidakSeragam A 8 C 1.66 >1,2 1.65 >1 TidakSeragam B 8 C 2.14 >1,2 2.11 >1 TidakSeragam A 9 C 2.60 >1,2 2.44 >1 TidakSeragam B 9 C 1.86 >1,2 1.83 >1 TidakSeragam A 0 1 C 1.73 >1,2 1.72 >1 TidakSeragam B 0 1 C 1.70 >1,2 1.69 >1 TidakSeragam A 1 1 C 7.33 >1,2 5.12 >1 TidakSeragam B 1 1 C 2.00 >1,2 1.99 >1 TidakSeragam e d o K G Krtieria σg Krtieria Karakte rBuitran i a li N koeifsieni n imenunjukkanbahwa sedimen cenderung itdakseragam ,yangbera tr i n a k r a b m a g g n e m i n i l a H . k i a b g n a y i s a d a r g i k il i m e m n e m i d e s adanya pergerakan pada n a d k u t n e b i a g a b r e b n a g n e d n a r u k u n a d k u t n e b n a r a b e y n e p h a li d a jr e t a g g n i h e s n e m i d e s d e s ir o g e t a k imenyangberbeda– beda.

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8 ) y ti s n e d ( a s s a M t a p a R i d s i n e j t a r e b n a ij u g n e p h a l e t e s n a k u t n e ti d t a p a d n e m i d e s a s s a m t a p a r i a li n a y n r a s e B n a g n e d s i n e j t a r e b n a il a k r e p l i s a h u ti a y n e m i d e s a s s a m t a p a r h e l o r e p m e m k u t n U . m u ir o t a r o b a l l i s a H . ri a a s s a m t a p a r perhtiungan rapa tmassa sedimen memperilhatkan bahwa sedimen g n a n i k g n a B n e m g e s r a p m a K i a g n u s – Ai rTi ir smempunyair apa tmassadenganr entangnlia i m / g k 6 9 5 2 3hingga2644kg/m3 . n a r it u B l a w A k a r e G g n a y k i m a n i d o r d i h a y a g t a b i k a i d a jr e t n a ri t u b l a w a k a r e G diitmbulkan oleh alrian aru s a y n i h u r a g n e p m e m g n a y r e t e m a r a p n a k u lr e p i d n e m i d e s l a w a k a r e g i u h a t e g n e m k u t n U . i a g n u s .i a g n u s r a s a d s it ir k k e s e g n a g n a g e t n a d s it ir k k e s e g n a t a p e c e k a p u r e b s it i r K n a t a p e c e K a p u r e m ) s n o it a u q E y ti c o l e V l a c it ir C ( s it ir K n a t a p e c e K kan pergerakan sedimen yang t u b e s r e t l e k it r a p n a k b a b e y n e m a g g n i h e s r a s a d l e k it r a p p a d a h r e t r i a h u r a g n e p i r a d u a j n it i d . k a r e g r e b i a l u m Kecepatan yang digunakan adalah kecepatan rata-rata alrian saa tsurve i n a g n a p a l dan diamete rbutrian yang digunakan adalah d35. Untuk mengetahu isuatu sunga i e n u p u a m i s a tr o p s n a rt , i s a t n e m i d e s i m a l a g n e m ros idigunakan graifk krtie ira eros i– deposis i r a b m a G . m o rt s l u j H h e l o 4 memperilhatkankondisis edimens ungais aa tpeneilitan . i s o r E a ir e ti r e k k if a r G . 4 r a b m a G – deposisi ,Hjulsrtom n a i d u m e k u l u h i r a d l a s a r e b g n a y n a t u k g n a h e l o n a k b a b e s i d t a p a d i s a t n e m i d e S i m a l a g n e m k a d it a g g n i h e s p a d n e g n e m h a d u s t u b e s r e t n a ri t u b l a w a n a a d a e k u a t a p a d n e g n e m a n a m i d , g n ir u o m r a k e f e a y n a d a h e l o n a k a n e r a k i d t a p a d n a ri t u b i s a t n e m i d e S . n a k a r e g r e p n a ri t u b -butrian kecli t erilndung ioleh butrian yang l ebih besa rdar ipengaruh kecepatan rata -n a k b a b e y n e m n a ri l a n a t a p e c e k h e l o a w a b r e t i s o r e a n o z a d a p a d a r e b g n a y n a ri t u B . n a ri l a a t a r . s u r e g r e t r a s a d

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9 k e s e G n a g n a g e T i u h a t e g n e m k u t n U apakahsuatubutrianbergerakatau itdakbergerakdapa tdiilha tpada ( s it ir k k e s e g n a g n a g e t n a g n u b u h k if a r g τc )terhadap bliangan Reynold. Gamba r5 . be irku t . d l e i h S m a r g a i d n a k a n u g g n e m n a ri t u b n a a d a e k n a k t a h il r e p m e m r a b m a G 5 .DiagramShield itapcross Butrian itdak bergerak adalah adanya efek armou irng pada pada dasa rsungai .Aritnya u t a b -batu keci lberadadalaml apisan peilndung yangt erdri idar ibatu-batubutrianbesa ryang it u b n a k b a b e y n e m g n a y n i a l b a b e S . i a g n u s r a s a d a d a p n a s u r e g a y n i d a jr e t h a g e c n e m ran itdak i k il i m e m t u b e s r e t n a ri t u b a g g n i h e s r a s e b f it a l e r g n a y n a ri t u b r e t e m a i d n a r u k u h a l a d a k a r e g r e b . n a ri l a n a t a p e c e k h e l o a w a b i d u p m a m k a d it g n a y i ri d n e s n a ri t u b t a r e b p a d n E n a t a p e c e K r e t e m a i d n a g n e d n a g n u b u h r e b i s a t n e m i d e s m a l a d p a d n e n a t a p e c e K butrian sedimen r e t e m a i d n a r u k u n a d p a d n e n a t a p e c e k n a g n u b u h a v r u k i u l a l e m i u h a t e k i d t a p a d a y n a s a i b g n a y d n a k a n u g i d g n a y l e k it r a p r e t e m a i d ( l e k it r a p 35sebagaimanadisarankanolehEinstein) .Be irku t n a k t a h il r e p i d i n i tabe lkecepatan endap berdasarkan Rubey dan gra ifk hubungan kecepatan . C B A 4 C s s o r c a d a p n e m i d e s n a ri t u b r e t e m a i d n a r u k u n a g n e d p a d n e l e b a T 6 .Nlia ikecepatanendap y e b u R a v r u k n a k r a s a d r e b e d o K d35(mm) w( mm/s) A 4 C 14.83 3 90 B 4 C 9 .98 3 40 C 4 C 10.51 3 50

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0 1 h e l o i h u r a g n e p i d p a d n e n a t a p e c e K ukuranbutrian ,semakinbesa rdiamete rbutrianmaka . n a ri t u b a d a p p a d n e n a t a p e c e k a l u p r a s e b n i k a m e s r a b m a G 6 .GraifkHubunganKecepatanEndapdenganUkuranButrianpada C4ABC i a g n u S r a s a D i s a r u g if n o K d n e r T n a k a p u r e m i a g n u s r a s a d i s a r u g if n o k n e r T bentuk dasa rsunga iyang diketahu imelalu i . n a ri l a n e rt i s a k if i s a l k Klasi ifkas i rtend alrian in idapa tdiketahu imelalu ibesarnya bliangan g n a n i k g n a B n e m g e s r a p m a K i a g n u s a d a p t a p a d r e t g n a y r a s a d i s a r u g if n o k i s a k if i s a l K . d u o r F – d n a it il e n e p t a a s s ir i T r i A iperilhatkandalamTabe l5. t a r a y s a tr e s e b d u o r F n a g n a li b n a k r a s a d r e B -syara tklasiifkas ipembentukkankonifguras i , u ti a y i a g n u s r a s a d i s a r u g if n o k s i n e j t a p a d r e t n a it il e n e p n e m g e s g n a j n a p e s a w h a b t a h il r e t r a s a d n a k a e m i g e R w o l F r e w o L a d a P . e m i g e R w o l F r e w o L ada kemungkinan tejrad i phase e s a h p a p u r e b r a s a d i s a r u g if n o k n a k k u t n e b m e p planebed ,phase irpples ,danphasedunes. l e b a T 7 .Klasi ifkas iKon ifguras iDasa rSungai B A 1 C 0.118 Lowe rFlowRegime B A 2 C 0.081 Lowe rFlowRegime B A 3 C 0.131 Lowe rFlowRegime C B A 4 C 0.260 Lowe rFlowRegime B A 5 C 0.096 Lowe rFlowRegime B A 6 C 0.273 Lowe rFlowRegime C B A 7 C 0.040 Lowe rFlowRegime B A 8 C 0.138 Lowe rFlowRegime B A 9 C 0.056 Lowe rFlowRegime B A 0 1 C 0.277 Lowe rFlowRegime B A 1 1 C 0.067 Lowe rFlowRegime e m i g e R w o l F r e p p U 1 ≥ r F e d o K e m i g e R w o l F r e w o L 1 < r F n a g n a r e t e K r F Klasiifkasi 0 1 h e l o i h u r a g n e p i d p a d n e n a t a p e c e K ukuranbutrian ,semakinbesa rdiamete rbutrianmaka . n a ri t u b a d a p p a d n e n a t a p e c e k a l u p r a s e b n i k a m e s r a b m a G 6 .GraifkHubunganKecepatanEndapdenganUkuranButrianpada C4ABC i a g n u S r a s a D i s a r u g if n o K d n e r T n a k a p u r e m i a g n u s r a s a d i s a r u g if n o k n e r T bentuk dasa rsunga iyang diketahu imelalu i . n a ri l a n e rt i s a k if i s a l k Klasi ifkas i rtend alrian in idapa tdiketahu imelalu ibesarnya bliangan g n a n i k g n a B n e m g e s r a p m a K i a g n u s a d a p t a p a d r e t g n a y r a s a d i s a r u g if n o k i s a k if i s a l K . d u o r F – d n a it il e n e p t a a s s ir i T r i A iperilhatkandalamTabe l5. t a r a y s a tr e s e b d u o r F n a g n a li b n a k r a s a d r e B -syara tklasi ifkas ipembentukkankonifguras i , u ti a y i a g n u s r a s a d i s a r u g if n o k s i n e j t a p a d r e t n a it il e n e p n e m g e s g n a j n a p e s a w h a b t a h il r e t r a s a d n a k a e m i g e R w o l F r e w o L a d a P . e m i g e R w o l F r e w o L ada kemungkinan tejrad i phase e s a h p a p u r e b r a s a d i s a r u g if n o k n a k k u t n e b m e p planebed ,phase irpples ,danphasedunes. l e b a T 7 .Klasi ifkas iKon ifguras iDasa rSungai B A 1 C 0.118 Lowe rFlowRegime B A 2 C 0.081 Lowe rFlowRegime B A 3 C 0.131 Lowe rFlowRegime C B A 4 C 0.260 Lowe rFlowRegime B A 5 C 0.096 Lowe rFlowRegime B A 6 C 0.273 Lowe rFlowRegime C B A 7 C 0.040 Lowe rFlowRegime B A 8 C 0.138 Lowe rFlowRegime B A 9 C 0.056 Lowe rFlowRegime B A 0 1 C 0.277 Lowe rFlowRegime B A 1 1 C 0.067 Lowe rFlowRegime e m i g e R w o l F r e p p U 1 ≥ r F e d o K e m i g e R w o l F r e w o L 1 < r F n a g n a r e t e K r F Klasiifkasi 0 1 h e l o i h u r a g n e p i d p a d n e n a t a p e c e K ukuranbutrian ,semakinbesa rdiamete rbutrianmaka . n a ri t u b a d a p p a d n e n a t a p e c e k a l u p r a s e b n i k a m e s r a b m a G 6 .GraifkHubunganKecepatanEndapdenganUkuranButrianpada C4ABC i a g n u S r a s a D i s a r u g if n o K d n e r T n a k a p u r e m i a g n u s r a s a d i s a r u g if n o k n e r T bentuk dasa rsunga iyang diketahu imelalu i . n a ri l a n e rt i s a k if i s a l k Klasi ifkas i rtend alrian in idapa tdiketahu imelalu ibesarnya bliangan g n a n i k g n a B n e m g e s r a p m a K i a g n u s a d a p t a p a d r e t g n a y r a s a d i s a r u g if n o k i s a k if i s a l K . d u o r F – d n a it il e n e p t a a s s ir i T r i A iperilhatkandalamTabe l5. t a r a y s a tr e s e b d u o r F n a g n a li b n a k r a s a d r e B -syara tklasi ifkas ipembentukkankon ifguras i , u ti a y i a g n u s r a s a d i s a r u g if n o k s i n e j t a p a d r e t n a it il e n e p n e m g e s g n a j n a p e s a w h a b t a h il r e t r a s a d n a k a e m i g e R w o l F r e w o L a d a P . e m i g e R w o l F r e w o L ada kemungkinan tejrad i phase e s a h p a p u r e b r a s a d i s a r u g if n o k n a k k u t n e b m e p planebed ,phase irpples ,danphasedunes. l e b a T 7 .Klasi ifkas iKon ifguras iDasa rSungai B A 1 C 0.118 Lowe rFlowRegime B A 2 C 0.081 Lowe rFlowRegime B A 3 C 0.131 Lowe rFlowRegime C B A 4 C 0.260 Lowe rFlowRegime B A 5 C 0.096 Lowe rFlowRegime B A 6 C 0.273 Lowe rFlowRegime C B A 7 C 0.040 Lowe rFlowRegime B A 8 C 0.138 Lowe rFlowRegime B A 9 C 0.056 Lowe rFlowRegime B A 0 1 C 0.277 Lowe rFlowRegime B A 1 1 C 0.067 Lowe rFlowRegime e m i g e R w o l F r e p p U 1 ≥ r F e d o K e m i g e R w o l F r e w o L 1 < r F n a g n a r e t e K r F Klasiifkasi

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1 1 i a g n u S r a s a D i s a r u g if n o K n a k k u t n e b m e P a d i s a r u g if n o k n a k u t n e b m e P sa r sunga i dtientukan dengan menggunakan kurva h e l o r e p i d r a s a d i s a r u g if n o k a v r u K . k k d , n o m i S h e l o n a k l u s u i d g n a y i a g n u s r a s a d i s a r u g if o k n a g n e d k e s e g n a t a p e c e k a r a t n a n a g n i d n a b r e p i a li n n a g n e d d l o n y e R n a g n a li b n a g n u b u h i r a d il r e p i d t u k ir e B . p a d n e n a t a p e c e k hatkankurvakonifguras idasa rSimon ,dkk. r a b m a G 7 .KurvaKon ifguras iDasars ungai g n a y i a g n u s r a s a d i s a r u g if n o k k u t n e b n a k t a h il r e p m e m s a t a i d r a s a d i s a r u g if n o k a v r u K g n a n i k g n a B n e m g e S a d a p i d a jr e t – Ai rTiirs .Fase pembentukkan kon ifguras idasar t ersebu t m a l a d t a h il i d t a p a d Tabe l8. be irkuti n.i l e b a T 8 .PembentukkanKon ifguras iDasa rSungai A 1 C _P_l_a_n_e_b_e_d C1B _P_l_a_n_e_b_e_d - -A 2 C Planebed C2B Planebed - -A 3 C Planebed C3B Dunes - -A 4 C Tanssii C4B Tanssii C4C Tanssii A 5 C Planebed C5B Planebed - -A 6 C Tanssii C6B Transsii - -A 7 C Planebed C7B Planebed C7C Planebed A 8 C Planebed C8B Planebed - -A 9 C Planebed C9B Planebed - -A 0 1 C Planebed C10B Planebed - -A 1 1 C Planebed C11B Planebed - -e d o K Kon ifgurasi Kode Kon ifgurasi e d o K Kon ifgurasi l e b a T 8. diata smemperilhatkan bahwa phase pembentukkan kon ifguras idasa rsunga i g n a n i k g n a B n e m g e s – Ai rTi ir sterdri idar iplane bed , rtansisi ,dan dunes .Dasa rplane bed m a l a d h a l a d a i n i i a g n u s r a s a d i s i d n o k a n a m i d a t a r g n a y r a s a d n a a d a e k i k li m e m i a g n u s i tr a r e b

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2 1 g n a y n a ri t u b r e t e m a i d n a r u k u h e l o n a k b a b e s i d t a p a d i n i l i b a t s g n a y i s i d n o K . li b a t s n a a d a e k a g u j g n ir u o m r a k e f e u ti n i a l e S . n a ri l a n a t a p e c e k h u r a g n e p h e l o k a r e g r e b k a d it a g g n i h e s r a s e b n a ri t u b a y n a d a a n e r a k i d a jr e t t a p a d s e n u d r a s a D . li b a t s p a t e t i a g n u s r a s a d r a g a a g a j n e m a s i b e s t u k g n a r e t g n a y s u l a h n a ri t u B . i s n e p s u s i a g a b e s t u k g n a r e t s u l a h g n a y baga isuspens iakan t u k g n a r e t g n a y s u l a h n a ri t u b u ti a y i s i s n a rt i s i d n o K . g n a b m o l e g k u t n e b m e m n a d p a d n e g n e m i n i s u l a h n a ri t u B . a t a r i d a j n e m r a s a d i s i d n o k k u t n e b m e m n a d p a d n e g n e m i s n e p s u s i a g a b e s n i h e s n a ri l a n a t a p e c e k t a b i k a i l a b m e k i s n e p s u s i m a l a g n e m t a p a d gga kembal idapa tmerubah . i a g n u s r a s a d k u t n e b Kon ifguras i dasa r pada sunga i Kampa r dipengaruh i terganggunya t u r u n e M . i a g n u s l a ir e t a m n a g n a b m a n e p t a b i k a i a g n u s s a ti li b a t s Aristy (2013) , prose s n u s n a g n a b m it e s e k i h u r a g n e p m e m n a k a i a g n u s l a ir e t a m n a g n a b m a n e p ga iyang menyebabkan .r a s e b g n a y n e m i d e s n a t u k g n a a y n i d a jr e t Padapeneilitani n i itdakdibaha smengena istablitia s i a g n u s t i b e d n a d n a ri l a n a t a p e c e k , n a ri t u b n a r a s a k e k h u r a g n e p i p a t e t n a k a i a g n u s g n i b e t i a g n u s r a s a d i s a r u g if n o k n a h a b u r e p i h u r a g n e p m e m Kampar(Bangkinang–Ai rTi irs). N A R A S N A D N A L U P M I S Simpulan Hasi l anailsa pergerakan sedimen terhadap pembentukan kon ifguras i dasa r sunga i g n a n i k g n B n e m g e s r a p m a K – Ai rTi ir smenghaslikanbeberapakesimpulanyatiu: . 1 Berdasarkan hasi lanailsa sa irngan maka klasi ifkas iukuran buit ryang terdapa tpada g n a n i k n a B n e m g e S r a p m a K i a g n u S – Ai rTiir smenuru tAGU adalah berupa mateira l ( r a s a k t a g n a s l i k ir e k n e m i d e s very coarse gravel) ,ke irki lkasa r(coarse gravel) ,keirki l a d e s ng (medium gravel ,) ke irki lhalu s(ifne gravel) ,ke irki lsanga thalu s(Very ifne l e v a r g ) ,pasi rsanga tkasar( verycoarsesand) ,pasi rsedang( mediumsand) ,pasi rsanga t ( s u l a h very ifnes and .) . 2 Kurva anailsa sairngan menggambarkan bahwa mate ira l dasa r sunga i memiilk i n a ri t u b s ir t e m o e g n a d 2 , 1 > G , i s a i v e d r a d n a t s i a li n n a g n e d r a b e l g n a y r it u b n a r a b e y n e p , n e m i d e s σg > 1 .Nlia ikoeifsien t ersebu tmemperilhatkan bahwa butrian sedimen pada g n a n i k g n a B n e m g e s r a p m a K i a g n u s – Ai rTiir sadalahbutrian yang itdakseragamyang . k i a b g n a y i s a d a r g i k il i m e m n e m i d e s n a ri t u b i tr a r e b . 3 Rapa t massa butrian sedimen sunga i Kampa r segmen Bangkinang – Ai r Ti ir s m / g k 6 9 5 2 i a li n g n a t n e r n a k ir e b m e m 3_h_i_n_g_g_a₂₆₄₄_k_g_/_m3_. . 4 Berdasarkan gra ifk krti ira eros i – deposis i butrian sedimen berada dalam zona .i s o r e n a d i s a t n e m i d e s . 5 Regime sunga iKampa rsegmen Bangkinang – Ai rTiir sdiklasiifkasikan dalam Lowe r e m i g e R w o l F ,dimanaFroudnumber ,F rmemiilk inlia ikeci ldar i1. . 6 Mekanismekon ifguras idasa rsunga iyangt e jrad idisunga iKampa rsegmenBangkinang – Ai rTi ir smemiilk ikon ifguras idasa rPlanebed ,Transis idanDune .s Saran :t u k ir e b i a g a b e s n a k ir e b i d t a p a d g n a y n a r a s n u p a d A . 1 Untuk peneilitan selanjutnya disarankan melakukan kaijan mengena i rtanspotras i n a k a s u r e k p a d a h r e t n e m i d e s bangunans unga.i . 2 Melakukankaijanpergerakanbutrians ediment erhadaps tablitiast ebings unga.i . 3 Peneilitans elanjutnyamengenais edimendapa tmengkaijt entangs tablitia sdasars unga.i

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3 1 A K A T S U P R A T F A D . 3 1 0 2 . y r a w S , it s i r A Pengaruh Pola Alrian Terhadap Perubahan Morfolog iSunga i(Stud i n i g n a r e B u a t n a R n e m g e S r a p m a K i a g n u S s u s a K – KotaBangkinang) .Universtia sRiau . . u r a b n a k e P 4 8 9 1 . s n a H r e tl a W , f a r G . Hydrauilc so fSedimen tTransport .Chelsea : Wate r Resource s .s n o it a c il b u P . 0 1 0 2 , i d i a n u J Keitdakseragaman Buitran Pada Angkutan Sedimen .Wahana Teknik Sipi l 9 1 . l a H . g n a r a m e S . 1 . o N - 92 n e o k ij d r a M , PdanAdamPR .1988 .Transportas iSedimen .Yogyaka tra .KMTSUGM. . 9 0 0 2 . B t s i b r e V n a d I i d a y r u S , M k ji w d r o o N n a v , H R o d o d i W , S u y a h a R MontioringAi rD i S n a r il A h a r e a D ungai .Bogor ,Indonesia :Wo lrd Agroforesrty Cenrte - Southeas tAsia . e c if f O l a n o i g e R