2016

District Survey Report Mahasamund AS PER NOTIFICATION NO. S.O. 141(E) NEW DELHI, 15TH JANUARY, 2016 OF MINISTRY OF ENVIRONMENT, FOREST AND CLIMATE CHANGE

DIRECTORATE OF GEOLOGY AND MINING MINERAL RESOURCES DEPARTMENT Govt. of Chhattisgarh

DGM [Type the company name] 27/05/2016 LOCATION AND COMMUNICATION MAP – MAHASAMUND DISTRICT

1 1.Introduction Mahasamund district is situated in the Eastern part of the Chhattisgarh state. It falls in the Survey of India’s Degree Sheet No. 64 K,O,L and G between the Latitude 20º49’30” : 21º33’07”N and Longitude 81º59’56”:83º16’10” E.t The district is bounded by Raipur district in the north,west and southwest, Raigarh district in the north-east, Kalahandi and Sambalpur dist. Of Orissa state in the south-east,south and east. Mahasamund district came into being in July 1998. It is famous for its traditional background. The region once capital of South Kosala ruled by ‘Somyavansiya Empores’ Mahasamund district is spread out in an area of 4790 sq.km in the Central-East of Chhattisgarh state.Total forest cover of the area is 1101.99 sq.km as per 2010-2011 data. District includes 05 tahsil and 1145 villages. Headquarter Mahasamund is located in the south-west corner of the district with Pithoura,Saraypali, Bagbahra and Basana are the tahsil of the districtLocated on the East Coast Railway Zone.and Mahasamund district has three National Highway which are NH 53 (Nagapur-Sambalpur), NH 217 and NH 216, most of the destinations are well connected with tar roads in the district. District survey report has been prepaired as per notification No. S.O. 141 (E) New Delhi,15 January,2016 of Ministry of Environment,Forest and Climate Change. The report primarily is focused on the Geological Details i.e. minerals its occurrence, deposit and mining activity, along with the mineral production and royalty details, geographical and infrastructure information is also included. District Environment Impact Assessment Authority and District Environment assessment committee will utilize this report in favour of the environment concerned activities and act accordingly. Also this report will act as reference for the lease holders of minerals and those willing to apply for lease.

2 2. Overview of Mining Activity in the District

Mahasamund is important district for minor minerals. These minerals are Quartz, Quartzite, Granite, Limestone, Flag stone, Sand, Soil and Laterite. Occurance of Molybdenum and Flourite are also reported in veins and veinlets in Sheard zone. Quartzite is reported in Chourakhuta and Makarmuta village. About 100 quarry leases have been given for flag stone at villages Barbaspur, Ghodari, Nandgaon, Belsonda, Achholi, Mudhena, Nisda, Paragaon etc. 18 granite quarry leases allotted asordanary stone mining in which is not suitable for cutting and polishing in villages Banskonda, Rengadih, Rampur, Laxmipur, Kishanpur, Tilganpur, Chuipali, Chirraleva, Dhaman ghutkur, Chuhiya etc., 11 quarry lease for soil have given at Barbaspur, Ghodari, Nandgaon, Mudhena, Lafinkhurd, Belsonda, Achholi, Bamhani villages etc., 2 granite leases allotted forstone crusher at Hadaband, 7 Quartz lease given at villages Udela, Khursipahar, Salhetarai, Koliyaridih, Patparpali, Chhindoli, Khogasa etc., One fireclay lease at Benardih village. 8 ratghat (sand) on the bank of Mahanadi and Jonk riverhave been leased out at different villages for sand miningto Panchayat. Approximately in 2015-16 Rs. 6,86,79,281is earned forall minor minerals. State Government is carrying on various infrastructure development project in all district, like Pachri Nirman, Dams, Over bridge on rivers/nala, approach road etc., all above works require Sand in different sizes which is in huge demand.

3 3. List of Mining Leases and Sand in the District with location, area and period of validity

(ii) List of Quary lease in the district with location area and period of validity

S Name of address Date of Number date of period mine Name Name Name of khasr total cordinat Date Date No. No. Remark n the of the applicant and date executi ral/ of the of the a No. area es and and of and and o lessee lesse on. of grant on mine village Gram Block (in toposhe perio transf Dat Date ral Panc Hect.) et no. (if d of er, if e of of EC hayat available renew any app and al/Ext and rov annual ensio the al appro n name of ved and QP/ quantit addre SO y ss of M, the ann transf ual eree app rov ed qua ntit y & peri od 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 Jherh 'kkuw miy 22.2.11 xqIrk ifr LVs'ku ikjk 306/ Q'khZiR 20.2.2 C/k 25.2.10 25.2.11 to 74/2 0.83 1 24.2.11 ?kksMkjh ?kksMkjh egkleqan NA 0 Jh fot; egkleqan 21.2.21 Fkj ugh xqIrk gSA Jh vkjax pUnz'ks[kj 23.7.08 &&^^ rglhy 2717/ pwukiR cjcliq 21.7.1 2 panzkdj vk- 1.5.07 31.7.07 to cjcliqj egkleqan 206 0.69 NA &&^^ vkjax ftyk 26.7.07 Fkj j 7 Jh vUuw 22.7.18 && jk;iqj yky panzkdj

nso izlkn lksuoku h vk- Jh Jh egsUnz xzk- eksgu izrki flag cjcliqj 3.10.08 lksuoku &&^^ lksuokuh 4027/ pwukiR cjcliq 1.10.1 3 rglhy o 12.4.07 14.3.08 to cjcliqj egkleqan 244 0.32 NA h &&^^ vk-Jh eksgu 19.11.07 Fkj j 7 ftyk 2.10.18 fuoklh && yky egkleqan cjccl lksuokuh iqj rglhy o ftyk egkleqa n Jh vt; xzk- panzkdj vk cjcliqj 6.10.08 &&^^ 2060/ Q'khZiR cjcliq 4.10.1 4 Jh eugj.k rglhy o 5.4.08 6.10.08 to cjcliqj egkleqan 209 0.71 NA &&^^ 7.10.08 Fkj j 7 yky ftyk 5.10.18 && panzkdj egkleqan

Jh yfyr xzk- panzkdj vk- cjcliqj 8.8.07 &&^^ 2819/ pwukiR cjcliq 5 Jh tksgu rglhy o 4.8.06 6.9.07 to cjcliqj egkleqan 262/2 0.7 NA 6.8.16 &&^^ 8.8.07 Fkj j yky ftyk 7.8.17 && panzkdj egkleqan Jh jkts'k zxzk- panzkdj fcjdksuh 22.1.11 &&^^ 3628/ Q'khZiR cjcliq 20.1.2 6 vk0Jh rglhy o 24.12.09 22.1.11 to cjcliqj egkleqan 213 0.8 NA &&^^ 4.1.11 Fkj j 0 peu yky ftyk 21.1.21 && panzkdj egkleqan Jh nsokuan xzk- fcjdksuh panzkdj 04.09.0 &&^^ rglhy o 97/ 9 to Q'khZiR cjcliq 28.4.1 7 vk0Jh 29.4.10 23.3.11 cjcliqj egkleqan 166 0.25 NA &&^^ ftyk 19.1.11 03.03.1 Fkj j 5 ukjk;.k && egkleqan 9 panzkdj

1 Jh fnyhi fu- VqjhgVjh 22.7.07 &&^^ dqekj vk- 1278/ pwukiR 20.7.1 8 iqjkuh cLrh 25.5.06 22.7.07 to ?kksMkjh ?kksMkjh egkleqan 10 1.04 NA &&^^ Jh eueksug 11.9.06 Fkj 6 jk;iqj 21.7.17 && vxzoky Jh larks"k fu- xzke dqekj ;kno ?kksMkjh 28.3.11 &&^^ 314/ pwukiR 26.3.1 9 vk-Jh rglhy o 9.3.10 26.2.11 To ?kksMkjh ?kksMkjh egkleqan 4,5,6 0.85 NA &&^^ 24.2.011 Fkj 5 jkevkljs ftyk 27.3.16 && ;kno egkleqan Jh Hkkxpan fu- xzke lrukeh 26.3.12 &&^^ 1 ukanxkao 735/ Q'khZiR 2768, 24.3.2 vk-Jh 8.2.012 26.3.12 To ukanxkoa ukanxkao egkleqan 0.4 NA &&^^ 0 ftyk 14.3.12 Fkj 2769 1 feyÅ 25.3.22 && egkleqan lrukeh Jh eaxyjke fu- lkjkMhg 10.10.1 &&^^ 1 lrukeh rglhy o 2343/ pwukiR 8.10.1 uohuhdj. 4.6.09 8.8.09 0 To ?kksMkjh ?kksMkjh egkleqan 6 0.4 NA &&^^ 1 vk-Jh ftyk 11.8.09 Fkj 9 k 9.10.20 && xkso/kZu egkleqan lrukeh Jh jk;iqj ukdk jtuhdkar egkleqan 19.12.1 &&^^ 1 frokjh vk- 3502/ 0 to Q'khZiR 17.12. rglhy o 15.12.09 30.12.10 ?kksMkjh ?kksMkjh egkleqan 29 1.2 NA &&^^ 2 Jh 27.12.10 18.12.2 Fkj 19 ftyk && 'kf'kHkw"k.k 0 egkleqan frokjh Jh jkekuqt fu- panzkdj vk- cjcliqj 28.9.11 &&^^ 1 1806/ Q'khZiR cjcliq 26.9.2 uohuhdj. Jh Vseu rglhy o 13.7.011 26.9.11 to cjcliqj egkleqan 212 0.75 NA &&^^ 3 13.9.011 Fkj j 0 k yky ftyk 27.9.21 && panzkdj egkleqan v/;{k Jh yfyr fu"kkn xzke eq

2 Jh ujs'k fu- Jh lru tSu vk- cjcliqj 21.9.11 &&^^ 1 ijekj vk- 397/ Q'khZiR cjcliq 19.9.2 y{eh rglhy o 6.1.10 22.9.11 to cjcliqj egkleqan 358 0.72 NA &&^^ 5 Jh feyki 1.3.11 Fkj j 0 tSu ftyk 20.9.21 && ijekj fuoklh egkleqan egkleqa n Jh x.ks'k egkleqan jke panzkdj 22.9.11 &&^^ 1 rglhy o 1796/ Q'khZiR cjcliq 20.9.2 vk-Jh 15.9.10 26.9.11 to cjcliqj egkleqan 358 0.58 NA &&^^ 6 ftyk 13.9.11 Fkj j 0 tksgu yky 21.9.21 && egkleqn panzkdj Jh panu panzkdj zxzk- fjdks vk-Jh es-ch-,l-lh- iks- eafnj cynkÅ 19.7.11 &&^^ 1 ih-,y- fy- glkSn 1367/ Q'khZiR cjcliq 17.7.2 pankdj 5.5.11 19.7.11 to cjcliqj egkleqan 177 1.1 NA &&^^ 7 izks- Jh th- rglhy 8.7.11 Fkj j 0 fuoklh 18.7.21 && ,l-ds-jko vkjax ftyk xzke jk;iqj fcjdksu h ftyk egkleqa n Jh Hkw"k.k fu- ekjd.Ms ykfQu[kqnZ 19.6.11 &&^^ 1 1344/ Q'khZiR ykfQu[kq cjkSMkck 17.6.1 vk-Jh rglhy o 5.4.11 19.7.11 to egkleqan 602 0.45 NA &&^^ 8 7.7.11 Fkj nZ tkj 5 frtkÅ ftyk 18.6.16 && ekjd.Ms egkleqan v/;{k Jh lq[kjke 904/ catkjs vk- xzk ?kksMkjh 27.9.11 &&^^ 18.5. 1 Jh idyw rglhy o 1438/ 27.9.201 Q'khZiR 25.9.2 7.1.11 to ?kksMkjh ?kksMkjh egkleqan 10 0.8 NA &&^^ 15 9 catkjs bafnjk ftyk 19.7.11 1 Fkj 0 26.9.21 && dkexkj egkleqan 125 lg-lfe- Tan ?kksMkjh

3 xzke 489/ Jh fczts'k y[kuiqj 16.5.07 &&^^ 6.3.0 2 1171/ 16.5.200 iRFkj y[kuiq 14.5.1 feJk vk-Jh rglhy o 8.11.06 to y[kuiqj egkleqan 996 3 NA &&^^ 7 0 8.5.07 7 dzs'kj j 6 'kadj feJk ftyk 15.5.17 && 5000 egkleqan 0cft egkleqan 5.3.12 &&^^ Jh 'kkafrpan rglhy o 1023/ Q'khZiR 6,9,10, 2 15.2.11 16.6.11 to eq

xzke Jh vkj- ds- csylksaMk 1.12.06 275, &&^^ 2 tks'kh vk- 1712/ to Q'khZiR csylksaM 277, rglhy o 6.10.06 5.12.06 csylksaMk egkleqan 0.68 NA 1.1.15 &&^^ 4 Jh ,l- 1.12.06 30.11.1 Fkj k 278 ftyk && ,u- tks'kh 6 279 egkleqaN vkse izdk'k Jh ek[ku xzke eq

4 Jh ;'koar xzke dqekj lkgw fcjdksuh 12.12.0 &&^^ 2 1760/ 6 to Q'khZiR cjcliq 10.12. vk0 Jh rglhy o 26.8.06 12.12.06 cjcliqj egkleqan 264 0.16 NA &&^^ 7 8.12.06 11.12.1 Fkj j 15 Vksgy jke ftyk 6 && lkgw egkleqan Jh dqanu xzke ?kksMkjh ijekj vk0 29.4.11 &&^^ 2 rglhy o 844/ Q'khZiR cjcliq 194, 17.4.2 Jh 10.12.10 29.4.11 to cjcliqj egkleqan 0.45 NA &&^^ 8 ftyk 19.4.11 Fkj j 195 0 fctsyky 28.4.21 && egkleqan ijekj f=ewfrZ Jh lses'k dkWyksuh 9.11.06 &&^^ 2 1311/ Q'khZiR 07.11. nos vk0 Jh rglhy o 6.2.06 09.11.06 to ?kksMkjh ?kksMkjh egkleqan 223 0.16 NA &&^^ 9 19.9.06 Fkj 15 th-,l- nos ftyk 8.11.16 && egkleqan

f=ewfrZ Jh lkses'k dkWyksuh 19.5.06 &&^^ 3 701/ 19.05.20 Q'khZiR 17.5.1 nos vk0 Jh rglhy o 23.3.06 to ?kksMkjh ?kksMkjh egkleqan 4,5,6 1 NA &&^^ 0 10.5.06 06 Fkj 5 th-,l- nos ftyk 18.5.16 && egkleqan Jh fodkl xzke eq

5 Jh vfer dqekj xzke ?kksMkjh 29.5.06 &&^^ 3 oklfud rglhy o 710/ Q'khZiR 27.5.1 4.7.05 19.7.06 to ?kksMkjh ?kksMkjh egkleqan 31 0.9 NA &&^^ 4 vk- Jh ftyk 29.5.06 Fkj 5 28.5.16 && jkepUnz egkleqan oklfud Jh dqanu xzke ?kksMkjh ijekj vk0 03.1.07 &&^^ 3 rglhy o 1829/ Q'khZiR cjcliq 1,91,19 Jh 9..1.06 03.01.07 to cjcliqj egkleqan 0.3 NA 1.1.17 &&^^ 5 ftyk 20.12.06 Fkj j 2 fctsyky 02.1.17 && egkleqan ijekj Jh gky eqdke es-ch-,l-lh- cyhjke ?kksMkjh 01.02.0 &&^^ 3 ih-,y- fy- 296/ Q'khZiR cjcliq 30.1.1 fu"kkn rglhy o 7.12.06 20.02.07 7 to cjcliqj egkleqan 177 0.8 NA &&^^ 6 izks- Jh th- 2.2.07 Fkj j 6 vk0 jh ftyk 31.1.17 && ,l-ds-jko lnkjke egkleqqn fu"kkn Jh y{e.k xzke cEguh jk=s vk0 15.3.07 &&^^ 3 rglhy o 694/ Q'khZiR 5,74,60 13.3.1 Lo- Jh 27.12.06 22.3.07 to cEguh cEguh egkleqan 0.46 NA &&^^ 7 ftyk 16.3.07 Fkj 3 6 lq[knkl 14.3.17 && egklean jk=s jh fQjrw iksVikjk 26.12.0 &&^^ 3 jke lkgw rglhy o 120/ 6 to Q'khZiR cjcliq 24.12. 18.8.06 12.2.07 cjcliqj egkleqan 358 0.6 NA &&^^ 8 vk0 Jh ftyk 11.1.07 25.12.1 Fkj j 15 && xqyky lkgw egkleqan 6

Jherh xzke t;Jh ckbZ cjcliqj 1.2.07 &&^^ 3 6112/ Q'khZiR cjcliq 2,58,31 30.1.1 ifr Jh rglhy o 17.1.06 19.2.07 to cjcliqj egkleqan 0.45 NA &&^^ 9 23.11.07 Fkj j 1 6 lru ftyk 31.1.17 && ijekj egkleqan

xzke bZeyh Jh lanhi HkkBk 25.9.07 &&^^ 4 lkgw vk0 3074/ to Q'khZiR 10,11,1 23.9.1 rglhy o 27.11.06 10.10.07 ?kksMkjh ?kksMkjh egkleqan 0.16 NA &&^^ 0 Jh gj[k 3.10.07 24.09.1 Fkj 3 6 ftyk && jke lkgw 7 egkleqan Jherh xzke rqexkao 1131 izfrHkk 5.10.07 &&^^ 4 rglhy o 3068/ Q'khZiR cjcliq 1132, 23.9.1 panzkdj 4.5.07 12.10.07 to cjcliqj egkleqan 0.74 NA &&^^ 1 ftyk 3.10.07 Fkj j 1133, 6 ifr Jh 4.10.17 && egkleqan 1161 iou

6 panzkdj

Jherh xzke ljkst ikfVyckgjk 3.11.07 &&^^ 4 panzkdj 4020/ qQ'khZiR 1.11.1 rglhy o 14.11.06 27.5.08 to ukanxkoa ukanxkao egkleqan 1820 0.3 NA &&^^ 2 ifr Jh 16.11.07 Fkkj 6 ftyk 2.11.17 && deyukjk; egkleqaN .k panzkdj Jh yhyk/kj xkze panzkdj dksle[kqVk 13.12.0 &&^^ 4 596/ pwukiR cjcliq 1.12.1 vk0 Jh rg- vkjax 5.1.07 9.4.08 7 to cjcliqj egkleqan 159 0.36 NA &&^^ 3 20.3.08 Fkj j 6 rkjkpan ftyk 2.12.17 && panzkdj jk;iqj Jh jk;iqj ukdk ckyeqdqan egkleqan 20.3.08 &&^^ 4 pnzkdj 592/ Q'khZiR cjcliq 31.7.1 rglhy o 12.7.07 22.6.10 to cjcliqj egkleqan 311 0.24 NA &&^^ 4 vk0 Jh 20.3.08 Fkj j 6 ftyk 19.3.18 && eksgu yky egkleqan panzkdj Jh vuqie iqjkuh cLrh 12.7.06 vxzoky vk- jk;iqj 950, &&^^ 4 894/ to Q'khZiR 10.7.1 17.10.05 12.07.06 951, 0.7 Lo- Jh rglhy o 5.7.06 11.07.1 vNksyh vNksyh egkleqan NA 5 &&^^ 5 Fkj 956 jked`".k ftyk 6 && vxzoky jk;iqj

Jh vuqie iqjkuh cLrh vxzoky vk- jk;iqj 15.11.0 1815, &&^^ 4 1530/ 6 to Q'khZiR 1816, 10.7.1 Lo- Jh rglhy o 30.7.05 16.11.06 vNksyh vNksyh egkleqan 0.98 NA &&^^ 6 20.11.06 14.11.1 Fkj 1817 5 jked`".k ftyk 6 1820 && vxzoky jk;iqj Jherh xzke ?kksMkjh fueZyk 16.4.08 &&^^ 4 rglhy o 808/ Q'khZiR 14.4.1 catkjs ifr 26.12.07 2.5.08 to15.4.1 ?kksMkjh ?kksMkjh egkleqan 23 0.5 NA &&^^ 7 ftyk 24.4.08 Fkj 7 Jh ukjk;.k 8 && egkleqan catkjs

7 Lo- Jh ujs'k Jh laxhrk xkze panzkdj panzkdj uokxkao 26.12.0 &&^^ 4 6238/ 7 to Q'khZiR 24.12. fuoklh ifr Lo-Jh rglhy o 15.1.07 12.3.08 ukanxkoa ukanxkao egkleqan 2753 0.25 NA &&^^ 8 28.12.07 25.12.1 Fkj 16 ukanxkao ujs'k ftyk && 7 ftyk panzkdj egkleqan egkleqa n Jh rkfjd eqchu cSju cktkj 23.10.0 300, &&^^ 4 dqjS'kh vk0 jk;iqj 3733/ 7 to iRFkj ckaldwM 21.10. 19.7.07 24.10.07 ckaldwMk egkleqan 302, 1.07 NA &&^^ 9 Jh eqchu ftyk 23.10.07 22.10.1 dzs'kj k 16 303 && vegn jk;iqj 7 dqjS'kh xzke Jh jke'kj.k fcjdksuh 4.10.08 &&^^ 5 VaMu vk0 2051/ pwukiR cjcliq 02.10. rglhy o 19.1.07 19.11.08 to cjcliqj egkleqan 311 0.4 NA &&^^ 0 Jh fM/kk: 4.10.08 Fkj j 2017 ftyk 3.10.18 && jke VaMu egkleqan Jherh ok.kh frokjh ifr Jh Jh vuqie iqjkuh cLrh y{ehdka vxzoky vk- jk;iqj 28.1.09 r &&^^ 5 363/ Q'khZiR csylksaM 26.1.1 Lo- Jh rglhy o 14.1.09 12.2.09 to csylksaMk egkleqan 235 0.9 NA frokjh &&^^ 1 3.2.09 Fkj k 8 jked`".k ftyk 27.1.19 fuoklh && vxzoky jk;iqj csylks. Mk ftyk egkleqa n Jh vt; panzkdj gky eqdke vk-Jh es-ch-,l-lh- ?kksMkjh 15.1.09 eugj.k &&^^ 5 ih-,y- fy- 480/ Q'khZiR cjcliq 13.1.2 rglhy o 22.12.08 21.1.09 to cjcliqj egkleqan 177 2.4 NA panzkdj &&^^ 2 izks- Jh th- 16.2.09 Fkj j 018 ftyk 14.1.19 fuoklh && ,l-ds-jko egkleqqn cjcliq j rglhy o ftyk

8 egkleqqa n

Jh xzke cklhu 15.1.09 &&^^ 5 rstdqekj rglhy o 210/ Q'khZiR 2.10.0 17.9.08 21.1.09 to vNksyh vNksyh egkleqan 14 0.4 NA &&^^ 3 dqjsZ vk0 Jh ftyk 19.1.09 Fkj 8 14.1.19 && ghjk/kj dqjsZ egkleqan

xzke Jh jke'kj.k fcjdksuh 4.10.08 &&^^ 5 VaMu vk0 2052/ Q'khZiR cjcliq 2.10.1 rglhy o 17.7.06 19.11.08 to cjcliqj egkleqan 358 0.2 NA &&^^ 4 Jh fM/kk: 4.10.08 Fkj j 7 ftyk 3.10.18 && jke VaMu egkleqan Jh vej Jh vfer flag egkleqan panzkdj 3.10.08 2649, vk-Jh &&^^ 5 rglhy o 2040/ Q'khZiR 1.10.1 vk0 Jh 30.6.08 15.10.08 to ukanxkoa ukanxkao egkleqan 2650, 0.14 NA Hkkjr &&^^ 5 ftyk 3.10.08 Fkj 8 ukjn 2.10.18 2659, flag && egkleqn panzkdj fuoklh egkleqa n Jh xzke 1750, txUukFk 1751, fcjdksuh 30.8.11 &&^^ 5 lkgw vk0 1615/ 30.8.201 Q'khZiR 1753, 28.8.1 rglhy o 7.12.010 to vNksyh vNksyh egkleqan 0.2 NA &&^^ 6 Jh 23.8.011 1 Fkj 1754, 5 ftyk 29.8.16 && fclsyky 1756, egkleqan lkgw 1757,

iqjkuh cLrh 1405/2 jk;iqj 6.11.09 1407 &&^^ 5 Jh vuqie 2490/ Q'khZiR 13.11. rglhy o 16.7.09 19.11.09 to vNksyh vNksyh egkleqan 1404 2 NA &&^^ 7 vxzoky 9.11.09 Fkj 15 ftyk 5.11.19 1409 && jk;iqj 1276

9 'kadj [knku dke- Jh yfyr lg-lfe- 6.10.08 &&^^ fu"kkn vk0 2070/ pwukiR 4.10.1 5 eq

uokikjk Jh fofiu 779/1,2 jkfte 778, dqekj tSu 1.6.09 &&^^ 5 rglhy 981/ Q'khZiR 758/2 30.5.1 vk0 Jh 27.12.08 1.6.09 to vNksyh vNksyh egkleqan 0.8 NA &&^^ 9 vHkuiqj 20.5.09 Fkj 759 5 /kjepan 31.5.19 && ftyk 760, tSu jk;iqj 761

Jh vej egkleqan 18.5.09 &&^^ 6 flag vk0 rglhy o 938/ Q'khZiR 16.5.1 3.1.09 22.5.09 to ?kksMkjh ?kksMkjh egkleqan 6 0.64 NA &&^^ 0 Lo0 Jh ftyk 19.5.09 Fkj 8 17.5.19 && Hkkjr flag egkleqn Jh pUnzgkl egkleqan panzkdj 18.5.09 &&^^ 6 rglhy o 931/ Q'khZiR 16.5.1 vk0 Lo0 3.1.09 22.5.09 to ?kksMkjh ?kksMkjh egkleqan 346 0.5 NA &&^^ 1 ftyk 19.5.09 Fkj 8 Jh 17.5.19 && egkleqn jkef[kykou Jh jkds'k xzke ?kksMkjh dqekj 20.5.09 &&^^ 6 rglhy o 1047/ Q'khZiR 18.5.2 dkslys vk0 14.1.09 30.6.09 to ?kksMkjh ?kksMkjh egkleqan 10 0.15 NA &&^^ 2 ftyk 25.5.09 Fkj 018 Jh esgr: 19.5.19 && egkleqan dkslys Jh f'ko dqekj jk=s vk- Jh Jh bnzlsu jkfte lqdqy HkkaMsdj rglhy 20.5.09 &&^^ 6 1049/ Q'khZiR cjcliq 18.5.2 jk=s vk0 Jh jkfte 23.6.08 3.6.09 to cjcliqj egkleqan 226 0.25 NA &&^^ 3 25.5.09 Fkj j 018 fuoklh uanwjke ftyk 19.5.19 && ?kksMkjh HkkaMsadj jk;iqj rglhy o ftyk egkleqa n

10 xzke ?kksMkjh Jh v:.k 27.2.09 &&^^ 6 rglhy o 685/ Q'khZiR 25.2.2 dqekj vk0 23.5.08 19.5.09 to ?kksMkjh ?kksMkjh egkleqan 10 0.16 NA &&^^ 4 ftyk 3.3.09 Fkj 018 Jh ikaMsjke 26.2.19 && egkleqan

Jh fnus'oj xzke panzkdj fcjdksuh 19.5.09 &&^^ 6 962/ Q'khZiR 17.5.1 vk0 Jh rglhy o 13.4.09 25.5.09 to ?kksMkjh ?kksMkjh egkleqan 108 0.29 NA &&^^ 5 20.5.09 Fkj 8 useu yky ftyk 18.5.19 && panzkdj egkleqan jkfte rglhy 1.7.09 &&^^ 6 ujsUnz dqekj 2128/ Q'khZiR 29.6.2 jkfte 17.10.08 25.7.09 to vNksyh vNksyh egkleqan 1885 0.45 NA &&^^ 6 lq;Zoa'kh 7.7.09 Fkj 018 ftyk 30.6.19 && jk;iqj Jh vksedkj jkfte lq;Zoa'kh rglhy 9.7.12 &&^^ 6 1338/ Q'khZiR 7.7.20 vk0 Jh jkfte 15.9.11 9.7.2012 to vNksyh vNksyh egkleqan 1406 0.18 NA &&^^ 7 13.6.012 Fkj 16 jkeyky ftyk 8.7.17 && lq;Zoa'kh jk;iqj Jh nhi dqekj xzke ?kksMkjh vxzoky 14.9.09 &&^^ 6 rglhy o 2575/ Q'khZiR 12.9.1 vk0 Lo0 14.5.09 23.9.09 to13.9.1 ?kksMkjh ?kksMkjh egkleqan 95/1 2.7 NA &&^^ 8 ftyk 16.9.09 Fkj 8 Jh 9 && egkleqan jkefuokj.k vxzoky Jh vej Jh fot; flag egkleqan panzkdj 24.10.0 vk-Jh &&^^ 6 rglhy o 2340/ 9 to Q'khZiR 22.10. vk0 Jh 22.2.08 28.10.09 ?kksMkjh ?kksMkjh egkleqan 10 0.8 NA Hkkjr &&^^ 9 ftyk 24.10.09 23.10.1 Fkj 18 ukjn jke flag && egkleqn 9 panzkdj fuoklh egkleqa n Jh vuqie iqjkuh cLrh vxzoky vk- jk;iqj 20.10.0 &&^^ 7 2193/ 9 Q'khZiR csylksaM 2,35,27 18.10. Lo- Jh rglhy o 3.3.09 27.10.09 csylksaMk egkleqan 1.62 NA &&^^ 0 22.10.09 to19.10. Fkj k 6 18 jked`".k ftyk 19 && vxzoky jk;iqj

11 Jh cynkÅ xzke panzkdj cjcliqj 4.9.09 &&^^ 7 2607/ Q'khZiR cjcliq vk0 Jh rglhy o 18.6.09 11.9.09 to cjcliqj egkleqan 166/1 0.15 NA 2.9.18 &&^^ 1 30.9.09 Fkj j ukjk;.k ftyk 3.9.19 && panzkdj egkleqan

Jh fczts'k xzke panzkdj cjcliqj 19.5.09 178/4, &&^^ 7 1208/ Q'khZiR cjcliq 17.5.1 vk0 Jh rglhy o 8.4.09 22.5.09 to cjcliqj egkleqan 180 0.33 NA &&^^ 2 8.6.09 Fkj j 8 eksgu yky ftyk 18.5.19 181/4 && panzkdj egkleqan Nfcyk jkfte y lkgw Jh fd'kksj rglhy 26.5.09 1797 fuoklh &&^^ 7 lpnso vk- 1176/ Q'khZiR 24.5.1 jkfte 24.1.08 5.6.09 to vNksyh vNksyh egkleqan 1798 0.12 NA vNksyh &&^^ 3 Jh eqjyh/kj 4.6.09 Fkj 8 ftyk 25.5.19 1799 ftyk && lpnso jk;iqj egkleqa n Jherh fp=ys[kk xzke vNksyh 26.9.09 &&^^ 7 panzkdj rglhy o 2659/ Q'khZiR 24.9.1 8.6.09 28.10.09 to vNksyh vNksyh egkleqan 1111 0.2 NA &&^^ 4 ifr Jh ftyk 7.10.09 Fkj 8 25.9.19 && fo".kq jke egkleqan panzkdj Jh xzke >kykjke cjcliqj 10.9.12 168, &&^^ 7 panzkdj 1389/ Q'khZiR cjcliq rglhy o 6.1.012 10.9.12 to cjcliqj egkleqan 169, 0.5 NA 8.9.21 &&^^ 5 vk0 Jh 21.6.012 Fkj j ftyk 9.9.22 177 && ,eu yky egkleqan panzkdj Jh jktsUnz egkleqan panzkdj 11.12.0 &&^^ 7 rglhy o 536/ 7 to pwukiR cjcliq 311, 9.12.1 uohuhdj. vk0 Jh 2.6.07 27.3.08 cjcliqj egkleqan 1.67 NA &&^^ 6 ftyk 17.3.08 10.12.1 Fkj j 244 6 k [kkseu yky && egkleqn 7 panzkdj Jh jks'ku fQaxs'oj 23.9.11 1713, &&^^ 7 nsokaxu v0 rg- jkfte 1846/ Q'khZiR 21.9.2 15.2.011 23.9.11 to vNksyh vNksyh egkleqan 1714, 0.12 NA &&^^ 7 Jh [ksnjke ftyk 19.9.11 Fkj 0 22.9.21 1716, && nsokaxu xfj;kcan

12 [knku xzke ?kksMkjh 17.11.0 &&^^ 7 dkexkj rglhy o 1861/ 7 to Q'khZiR 15.11. 10.7.06 13.3.07 ?kksMkjh ?kksMkjh egkleqan 223 0.46 NA &&^^ 8 lg- lfefr ftyk 22.12.06 16.11.1 Fkj 16 && ?kksMkjh egkleqan 7 Jh [kkseu xzke yky fcjdksuh 11.12.0 &&^^ 7 panzkdj 2958/ 7 to pwukiR cjcliq 20.3.1 rglhy o 11.7.08 27.3.08 cjcliqj egkleqan 208 1.95 NA &&^^ 9 vk0 Jh 26.10.10 10.12.1 Fkj j 8 ftyk && fcgkjhyky 7 egkleqan panzkdj Jh /khjt xzke ?kksMkjh 20.10.1 &&^^ 8 dksgyh vk- rglhy o 3134/ 0 to Q'khZiR 18.10. 5.1.010 3.2.11 ?kksMkjh ?kksMkjh egkleqan 132 0.86 NA &&^^ 0 Jh ujs'k ftyk 12.11.10 19.10.2 Fkj 19 && dksgyh egkleqan 0

iqjkuh cLrh 8 jk;iqj 1405/2 1407 NA 1 rglhy o 6.11.09 1404 Jh vuqie ftyk 2490/ to Q'khZiR 1409 4.11.1 vxzoky jk;iqj 16.7.09 9.11.09 19.11.09 5.11.19 Fkj vNksyh vNksyh egkleqan 1276 2.00 8 Jherh usgk vxzoky xzke ?kksMkjh &&^^ 8 ifr Jh rglhy o &&^^ 2 21.3.11 NA f'kjh"k ftyk 336/ to Q'khZiR 19.3.1 && vxzoky egkleqan 1.12.06 25.2.11 21.3.11 20.3.16 Fkj ?kksMkjh ?kksMkjh egkleqan 74/1 0.3 5 Jh Hkkxor fQaxs'oj &&^^ 8 gfjr vk- rg- jkfte 15.3.11 &&^^ 3 Lo- Jh ftyk Q'khZiR NA 471/ to 13.3.2 && lq[kyky xfj;kcan 15.12.10 7.3.11 15.3.11 14.3.21 Fkj vNksyh vNksyh egkleqan 14 1 0 Jh fMys'oj xzke izlkn

13 f=ewfrZ &&^^ 8 dkWyksuh &&^^ 6 NA Jh lkses'k rglhy o 23.9.11 && nos vk0 Jh ftyk 1677/ to Q'khZiR 21.9.2 th-,l- nos egkleqan 13.8.09 3.9.11 23.9.11 22.9.21 Fkj ?kksMkjh ?kksMkjh egkleqan 9,10 0.59 0

;kno nq/k &&^^ 8 Ms;jh NA &&^^ 7 Jh Hkksykjke dkslkuxj 1270/2, ;kno vk0 usg: uxj 27.9.11 1271, && Jh c`tyky iwoZ fHkykbZ 1673/ to Q'khZiR 1272, 25.9.1 ;kno ftyk nqxZ 7.2.11 3.9.11 27.9.11 26.9.16 Fkj vNksyh vNksyh egkleqan 1273, 0.3 5

xzke &&^^ 8 Jh gsear cjcliqj 24.10.1 &&^^ 8 NA panzkdj vk- rglhy o 1 to && Jh mRre ftyk 2091/ 23.10.1 Q'khZiR cjcliq 22.10. pnzkdj egkleqan 16.5.11 18.10.011 24.10.11 6 Fkj cjcliqj j egkleqan 178/2 0.18 15 Jh bnzlsu jkfte HkkaMsdj rglhy &&^^ 8 vk0 Jh jkfte &&^^ 9 10.1.12 NA uanwjke ftyk 2531/ to Q'khZiR cjcliq && HkkaMsadj jk;iqj 18.10.11 27.12.11 10.1.12 9.1.17 Fkj cjcliqj j egkleqan 187/1 0.3 8.1.16 Jh ujsUnz 12.1.12 &&^^ 9 lq;Zoa'kh vk- v;ks/;kuxj 2509/ Q'khZiR 1806, 10.1.1 31.3.11 12.1.12 to vNksyh vNksyh egkleqan 0.3 NA &&^^ 0 Jh jkeyky egkleqan 24.12.11 Fkj 1807, 6 11.1.17 && lq;Zoa'kh iqjkuk Jh lqjs'k jk;iqj ukdk 3.3.12 &&^^ 9 panzkdj vk- 412/ Q'khZiR cjcliq egkleqan 13.9.11 3.3.12 to cjcliqj egkleqan 207 0.72 NA 1.3.21 &&^^ 1 Jh eksgu 15.2.12 Fkj j ftyk 2.3.22 && panzkdj egkleqan >kykjk e panazkdj egkleqan 23.6.10 fuoklh &&^^ 9 Jh fgjsUnz rglhy o 430/ pwukiR cjcliq 177. 21.6.1 22.6.09 1.3.12 to cjcliqj egkleqan 0.56 NA cjcliq &&^^ 2 lkgw ftyk 15.2.012 Fkj j 186/2 9 22.6.20 j && egkleqn rglhy o ftyk egkleqa

14 n

Jh xzke >kykjke cjcliqj 23.6.10 &&^^ 9 panzkdj 422/ pwukiR cjcliq 21.6.1 rglhy o 4.10.07 1.3.12 to cjcliqj egkleqan 210 0.41 NA &&^^ 3 vk0 Jh 15.2.12 Fkj j 9 ftyk 22.6.20 && ,eu yky egkleqan panzkdj Jh lquhy 780/2, vxzoky vk- cluk rg- 5.9.12 &&^^ 9 1418/ pwukiR 781, 7.5.12 5.9.12 to 0.41 3.9.16 Jh cluk ftyk 25.6.12 vNksyh vNksyh egkleqan 783, NA &&^^ 4 4.9.17 Fkj jkevokrkj egkleqan 784 && vxzoky Jh v'kksd flag fQaxs'oj 83,93, 15.7.13 &&^^ 9 jktiwr vk- rg- jkfte 2236/ Q'khZiR 94,95, 13.7.2 440/ 14.6.12 15.7.13 to vNksyh vNksyh egkleqan 0.58 NA &&^^ 5 Jh jru ftyk 3.11.12 Fkj 96, 2 14.7.23 && 5.7.13 flag xfj;kcan 97/2 12000 jktiwr mt

1359, 1360, 1362, 1370, Jherh okMZ u- 18 1372, dqys'ojh 15.7.13 1375, &&^^ 9 rglhy o 2234/ Q'khZiR 13.7.2 ckbZ ifr 14.6.12 15.7.13 to vNksyh vNksyh egkleqan 1377, 0.49 NA &&^^ 6 ftyk 3.11.12 Fkj 2 Jh ckyd 14.7.23 1379/2, && egklean jke 1382, 1386, 1387, 442/ 1389, 5.7.13 1392 15000 mt

15 Jh f'ko dq- xzke ?kksMkjh 26.8.13 &&^^ 9 jk=s vk- rglhy o 4406/ Q'khZiR 24.8.2 8.8.12 26.8.13 to ?kksMkjh ?kksMkjh egkleqan 31 0.8 NA &&^^ 7 Lo- Jh ftyk 2.8.013 Fkj 2 25.8.23 && lqdqy jk=s egkleqan Jh lkabZ Hk.Mkj 128 Dyc lapkyd Jh 423/ ikjk 21.1.14 &&^^ 9 /khjszUnz 4782/ Q'khZiR cjcliq 19.1.2 2.7.013 rglhy o 18.12.12 21.1.14 to cjcliqj egkleqan 186/1 0.42 NA &&^^ 8 yks.kjs vk- 19.12.13 Fkj j 3 40000 ftyk 20.1.24 && Jh Cum egkleqan uhydwekj yks.kkjs

es-ch-,l-lh- xzke ?kksMkjh 618/ 10.5.12 &&^^ 9 ih-,y- fy- rglhy o 1040/ Q'khZiR cjcliq 6.8.13 20.4.012 10.5.12 to cjcliqj egkleqan 177 1.6 NA 8.5.21 &&^^ 9 izks- Jh th- ftyk 30.4.12 Fkj j 120000 9.5.22 && ,l-ds-jko egkleqan Sp

Jh jkekuqt xzke 1 panzkdj vk- cjcliqj 4.1.14 &&^^ 4852/ Q'khZiR cjcliq 193, 0 Jh Vseu rglhy o 6.8.12 4.1.14 to cjcliqj egkleqan 0.65 NA 2.1.23 &&^^ 27.12.13 Fkj j 187/2 0 yky ftyk 3.1.24 && panzkdj egkleqan Jh lkabZ Q'khZ m?kksx lapkyd Jh xzke eq

16 es phek fczDl egk- ikVZuj 1 Jh txchj flag phek 2 Jh egkleqan 1 28.1.09 feV~Vh &&^^ tliky rglhy o 390/ csyVqd 26.1.2 0 12.1.09 18.2.09 to ¼fpeuh csyVqdjh egkleqan 3, 2 1.15 NA &&^^ flag phek ftyk 4.2.09 jh 018 4 27.1.19 ½ && 3 Jh egkleqn xw:eq[k flag ja/kkok 4 Jh fcjsUnzj flag phek Jherh egkleqan 1 lkfo=h 21.3.11 feV~Vh &&^^ rglhy o 592/ 19.3.2 0 panzkdj fr 9.4.10 9.5.11 to ¼fpeuh eksj/kk eksj/kk egkleqan 5,2 0.58 NA &&^^ ftyk 22.3.11 0 5 Jh lqjsUnz 20.3.21 ½ && egkleqn panzkdj es phek fczDl egk- ikVZuj 1 Jh txchj flag phek 2 Jh egkleqan 1 3.3.11 feV~Vh &&^^ tliky rglhy o 512/ vNjhMh 354, 0 19.2.10 18.4.11 to ¼fpeuh vNjhMhg egkleqan 0.34 NA 1.3.20 &&^^ flag phek ftyk 9.3.11 g 355, 6 2.3.21 ½ && 3 Jh egkleqn xw:eq[k flag ja/kkok 4 Jh fcjsUnzj flag phek Jherh yrk xzke 1 panzkdj yHkjk[kqnZ 27.5.08 feV~Vh &&^^ 870/ lkYgsHkkB lkYgsHkk 25.5.1 0 ifr Jh rg- o 3.10.07 27.5.08 to ¼fpeuh egkleqan dqy 7 0.89 NA &&^^ 15.5.08 k Bk 8 7 thojkt ftyk 26.5.18 ½ && panzkdj egkleqan Jherh f=ewfrZ 2378/ vxs'ojh 1 dkWyksuh 25.11.0 feV~Vh &&^^ 12.10.0 panzkdj 1409/ 6 to 23.11. 6 0 rglhy o 7.9.06 27.11.06 ¼fpeuh dusdsjk dusdsjk egkleqan dqy 19 2.7 NA &&^^ ifr Jh 18.10.06 24.11.1 15 20.00 8 ftyk ½ && iadt 6 Lakh egkleqan panzkdj Nose

17 Jh fot; 1 2.11.06 feV~Vh &&^^ xqIrk vk0 LVs'ku ikjk 1399/ xksikyiq 30.10. 0 16.1.06 2.11.06 to ¼fpeuh xksikyiqj egkleqan dqy 17 2.63 NA &&^^ Jh frjFk egkleqan 11.10.06 j 06 9 1.11.16 ½ && jke xqIrk Jherh yrk xzke 1 panzkdj yHkjk[kqnZ 15.3.07 feV~Vh &&^^ 685/ 13.3.1 24.11.06 27.3.07 to 2.01 1 ifr Jh rg- o 15.3.07 ¼fpeuh 'ksj 'ksj egkleqan dqy 20 NA 6 &&^^ 0 thojkt ftyk 14.3.17 ½ && panzkdj egkleqan es phek fczDl egk- ikVZuj 1 Jh txchj flag phek 2 Jh egkleqan 1 27.3.08 feV~Vh &&^^ tliky rglhy o 961/ 25.3.1 1 28.12.07 27.3.08 to ¼fpeuh cMxkao cMxkao egkleqan dqy 5 1.47 NA &&^^ flag phek ftyk 9.5.11 7 1 26.3.18 ½ && 3 Jh egkleqn xw:eq[k flag ja/kkok 4 Jh fcjsUnzj flag phek iqjkuh Jherh izhrh flfoy 3701/ 1 25.2.11 feV~Vh &&^^ 'kekZ ifr ykbZu 333/ 23.2.2 8.3.11 1 1.2.11 3.3.11 to ¼fpeuh 'ksj 'ksj egkleqan dqy 17 2.41 NA &&^^ Jh lat; rglhy o 25.2.11 0 30.00 2 24.2.21 ½ && 'kekZ ftyk Lakh jk;iqj

Jherh 1705, fLerk egkleqan 1714, 1 12.5.11 feV~Vh &&^^ paanzkdj rglhy o 1063/ 1716, 10.5.2 1 21.2.11 7.7.11 to ¼fpeuh /kulqyh /kulqyh egkleqan 1.6 NA &&^^ ifr Jh ftyk 13.5.11 1718, 0 3 11.5.21 ½ && fgrss'k egkleqn 1719, panzdkj 1720,

iqjkuk Jherh izhrh 1 flfoy 24.10.1 feV~Vh &&^^ 'kekZ ifr 2201/ 1 to 22.10. 1 ykbZu rg- 14.6.11 8.2.12 ¼fpeuh 'ksj 'ksj egkleqan dqy 17 2.48 NA &&^^ Jh lat; 2.11.11 23.10.1 17 4 o ftyk ½ && 'kekZ 8 egkleqan

18 Jherh fu- fiFkkSjk 1 26.12.0 &&^^ 'kkjnk ,ju rg-fiFkkSjk 6 to iRFkj 24.12. 1 30.8.06 34/ 3.1.07 16.1.07 y{ehiqj y{ehiqj fiFkkSjk 221 1.2 NA &&^^ ifr Jh ftyk 25.12.1 dzs'kj 15 5 && lqnj ,ju egkleqaan 6

fuoklh Jh vkyksd Mxfu;k 861/ 1 dkuwuxks 19.4.07 &&^^ jk;iqj 892/ iRFkj fryatuiq lkfo=h 17.4.1 9.4.07 1 vk0 Jh 19.12.06 20.4.07 to fiFkkSjk 57, 38 0.25 NA &&^^ rglhy o 10.4.07 dzs'kj j iqj 6 23040c 6 r:.k 18.4.17 && ftyk um dkuquxks jk;iqj

fuoklh Jh vk'kh"k fiFkkSjk 1 29.12.0 &&^^ vxzoky vk- rglhy 6248/ 7 to iRFkj fd'kuiq 27.12. 1 26.11.07 2.1.08 fd'kuiqj fiFkkSjk 569 1.12 NA &&^^ Jh xksfoan fiFkkSjk 29.12.07 28.12.1 dzs'kj j 16 7 && vxzoky ftyk 7 egkleqan

okMZ ua- 15 Jh dqyoar fiFkkSjk 1 flag [kuwtk 11.9.12 &&^^ rglhy 693/ iRFkj fd'kuiq 9.9.20 1 vk-Jh 27.5.011 11.9.12 to jkeiqj fiFkkSjk 291 0.92 NA &&^^ fiFkkSjk 13.3.12 dzs'kj j 21 8 vthr flag 10.9.22 && ftyk [kutk egkleqan Jh xzke dstqaok Vhdepan 570/ 1 rglhy 3.3.08 &&^^ uk;d 494/ iRFkj jktkMh 29.2.08 1 ljk;ikyh 29.10.07 14.3.08 to Hkkywdksuk ljk;ikyh 166 0.32 NA 1.3.17 &&^^ vk0Jh 5.3.08 dzs'kj g 5000C 9 ftyk 2.3.18 && lqcus'oj um egkleqan uk;d fu- Jherh ehjk ljk;ikyh 1 vxzoky 20.2.08 &&^^ rglhy 383/ iRFkj pVVhfxj pV~Vhfx 18.2.1 2 ifr Jh 28.1.08 29.2.08 to ljk;ikyh 45,55 2.78 NA &&^^ ljk;ikyh 20.2.08 dzs'kj kSyk jkSyk 7 0 fxj/kkjh 19.2.18 && ftyk yky egkleqan

19 esu jksM Jh izgykn ljk;ikyh 1 jk; 15.1.09 &&^^ rglhy 233/ iRFkj jktkMh 103, 13.1.1 2 vxzoky vk- 4.8.08 21.1.09 to jktkMhg ljk;ikyh 2.5 NA &&^^ ljk;ikyh 20.1.09 dzs'kj g 104 8 1 Jh euksgj 14.1.19 && ftyk yky egkleqan

235, gky eqdke 364, es-ch-,l-lh- 270, 1 ?kksMkjh 15.5.12 &&^^ ih-,y- fy- 1048/ iRFkj 271, 13.6.2 2 rglhy o 10.1.12 6.6.12 to NqbZikyh NqbZikyh ljk;ikyh 2.59 NA &&^^ izks- Jh th- 30.4.12 dzs'kj 272, 1 2 ftyk 14.6.22 && ,l-ds-jko 273, egkleqqn 228/5, 228/6 Jh bejku nYyk vk-Lo- Jh 436 gky eqdke es-ch-,l-lh- bfy;k date 1 ?kksMkjh 26.2.15 &&^^ 7/8/14 ih-,y- fy- 2778/ iRFkj fNjkZyso 24.2.2 l 2 rglhy o 28.8.14 26.2.15 to fNjkZysok cluk 97 3.2 NA &&^^ 300 izks- Jh th- 30.12.14 dzs'kj k 4 nYyk 3 ftyk 25.2.25 && Tane ,l-ds-jko fuoklh egkleqqn per ljk;ik year yh ftyk egkleqa n Jh lquhy 1 vxzoky vk- cluk rg- 21.1.11 &&^^ 2654/ iRFkj /kkeu?kqV 19.1.2 2 Jh cluk ftyk 22.12.09 18.11.10 to pan[kqjh cluk 343 1.2 NA &&^^ 6.10.10 dzs'kj dqjh 0 4 jkevokrkj egkleqan 20.1.21 && vxzoky Jh fot; 1 vxzoky cluk rg- 18.4.11 &&^^ 3626/ iRFkj /kkeu?kqV 16.4.2 2 vk0 Jh cluk ftyk 8.3.10 3.2.11 to pan[kqjh cluk 343 1.44 NA &&^^ 4.1.11 dzs'kj dqjh 0 5 jkevorkj egkleqan 17.4.21 && vxzoky

20 Jh fot; 966/ 1 vxzoky cluk rg- 3.1.14 &&^^ 28.11.1 4807/ iRFkj feykjkck ukudl 2 vk0 Jh cluk ftyk 3.9.12 3.1.14 to cluk 389 2.86 NA 1.1.23 &&^^ 3 24.12.13 dzs'kj n kxj 6 jkevorkj egkleqan 2.1.24 && 30000 vxzoky Tan Jh lquhy 1250/ 26.12.1 1 vxzoky vk- cluk rg- &&^^ 12.12.1 4807/ 3 to iRFkj feykjkck ukudl 24.12. 10.7.12 26.12.13 389 2.58 3 2 Jh cluk ftyk 19.12.13 25.12.2 cluk NA 24 &&^^ dzs'kj n kxj 120000 7 jkevokrkj egkleqan 3 && vxzoky Tan Jh eksfur 979/ 1 vxzoky cluk rg- 15.3.07 &&^^ 689/ iRFkj feykjkck ukudl 370, 13.3.1 29.7.11 7.11.06 16.4.07 to 0.72 2 vk0 Jh cluk ftyk 15.3.07 cluk 371 NA 6 &&^^ 18000 14.3.17 dzs'kj n kxj 8 rqylhnkl egkleqan && mt vxzoky es- jruk [kfut v|ksx kzks- 1 cluk rg- 24.7.07 &&^^ Jh lquhy 2807/ iRFkj 22.7.1 2 cluk ftyk 19.1.07 3.9.07 to rjsdsy rjsdsyk cluk 618 2.09 NA &&^^ vxzoky vk- 7.8.07 dzs'kj 6 9 egkleqan 23.7.17 && Jh jkevorkj vxzoky Jh jktsUnz ljk;ikyh 1 17.10.0 &&^^ 1583/ 'kekZ vk0 rg- o 3706/ 7 to iRFkj cEguhMh 15.10. 27.9.07 3 1.8.07 4.1.08 [kksxlk cluk 545 0.16 NA &&^^ Jh /keZohj ftyk 17.10.07 16.10.1 dzs'kj g 15 5000 0 && 'kekZ egkleqan 7 Cum Jh lkxjikyh 1 Nfcyky 01.08.0 &&^^ 1774/ rg- cluk 2794/ 7 to iRFkj culwyhM lkxjik 38, 29.7.1 2.7.7 3 iVsy vk0 16.5.07 3.9.07 cluk 0.18 NA &&^^ ftyk 4.8.07 31.07.1 dzs'kj hg yh 37/1 6 18000 1 Jh :i/kj && egkleqan 7 Mt iVsy vjfoan ds'kj ljk;ikyh 1 lapkyd Jh 12.10.0 &&^^ rg- o 2652/ 8 to iRFkj 10.10. 3 yfyr tSu 13.10.08 29.11.08 yfyriqj cuMcjh cluk 8 0.86 NA &&^^ ftyk 28.11.08 11.10.1 dzs'kj 17 2 vk0 Jh && egkleqan 8 cPNjkt tSu

21 es- v[kjkHkkBk LVksu ekbZu 1012/ Jh ftrsUnz okMZZ u- 22 26.12.1 1 117, &&^^ 29.11.0 d';Ik vk0 QkjsLV 4780/ 3 to iRFkj v[kjkHkk ukudl 24.12. 27.12.12 26.12.13 322, 3.55 13 3 19.12.13 25.12.2 cluk NA 22 &&^^ Jh ,l- ih- vkfQl ds dzs'kj Bk kxj 323, 63000 3 3 && d';I ikl esu Tan jksM rg- cluk ftyk egkleqan

Jh t;ar ijlnk rg- 1 pkS/kjh vk0 29.10.0 &&^^ 2288/ ljk;ikyh 3869/ 7 to iRFkj :ikik 111, 27.10. 17.9.07 3 Jh 13.2.07 3.1.08 Likikyh cluk 2.14 NA &&^^ ftyk 3.11.07 28.10.1 dzs'kj yh 112, 17 45000 4 'kkSdhyky && egkleqan 7 Mt pkS/kjh wes- mMhlk 1 dkadzhV ,aM Hkuiqjh 2.11.06 &&^^ 947/ iRFkj irsjkiky irssjkik 31.10. 3 ,ykbZM ftyk 5.8.04 2.11.06 to ckxckgjk 28 1.3 NA &&^^ 19.7.06 dzs'kj h yh 15 5 baaMlVªht jk;iqj 1.11.16 && fy-

Jh cyohj [kfj;kj jksM 2011/2. 1 19.7.06 &&^^ flag cSl mMhlk rg- 947/ iRFkj irsjkiky irssjkik 17.7.1 9.5 3 23.3.05 2.8.06 to ckxckgjk 28 1.3 NA &&^^ vk0 Jh o ftyk 19.7.06 dzs'kj h yh 5 10000 6 18.7.16 && tujSy flag uqvkikjk Cum wes- mMhlk 1 dkadzhV ,aM ckxckgjk 12.7.06 &&^^ 396/ iRFkj irsjkiky irssjkik 10.7.1 3 ,ykbZM ftyk 5.8.04 12.7.06 to ckxckgjk 28 3.5 NA &&^^ 2.3.06 dzs'kj h yh 5 7 baaMlVªht egkleqan 11.7.16 && fy- Jh nkuohj 1 'kekZ vk0 ckxckgjk 22.7.07 &&^^ 2289/ iRFkj fcjktik fcjkti 20.7.1 3 Jh ftyk 30.6.06 11.6.07 to ckxckgjk 85 3.6 NA &&^^ 31.5.07 dzs'kj yh kyh 6 8 fcgkjhyky egkleqan 21.7.17 && 'kekZ Jh Jh vCnqy d`".k 1 jghe [kku okMZ u- 13 20.5.09 iVijik dqekj &&^^ 1090/ iRFkj iVijik 18.5.1 3 vk0 Jh [kfj;kj jksM+ 3.12.08 27.5.09 to yh ckxckgjk 11 1.25 NA vxzoky &&^^ 27.5.09 dzs'kj yh [kqnZ 8 9 vCnqy mMhlk 19.5.19 [kqnZ fuoklh && erhu [kku ckxckg jk

22 ftyk egkleqa n

Jh eqds'k xkatj rg- 1 4.3.09 &&^^ lkgw vk0 ckxckgjk 2365/ iRFkj 4 29.6.09 5.9.09 to NbZgk NqbZgk ckxckgjk 1206 1 NA 2.3.18 &&^^ Jh

23 es- mMhlk xzukbZV dzkadzhV ¼;af=d 1 ,yk- baM- jk;iqj rg- 21.1.14 fdz;k &&^^ 19.1.2 23.5.12 30/ 4.1.14 21.1.14 to 518 1.4 4 fy- o ftyk }kjk gkMkcan gkMkcan ckxckgjk NA 3 &&^^ 5 lpkyd Jh jk;iqj 20.1.24 fxVVh && peqHkZt cukus vxzsoky gsrq½

Jh iadt iqjkuh 3- 1 25.3.97 vxzoky vk- xate.Mh ds 82/95/12/ IBM/106 4 to Jh cztjkt ikl lqHkk"k 1date 68/2012 6 24.3.17 vxzoky jksM jk;iqj 27.8.96 23.3.1 31.194 25.3.97 DokVZt mMsyk mMsyk ljk;ikyh '19/1 2.21 NA 6 Jherh xzke cVdh xkserh 3- 1 rg- 23.3.99 &&^^ iVsy ifr 169/97/12/ IBM/987 4 ljk;ikyh to &&^^ Lo-Jh 1Date 2/2012 7 ftyk 22.3.19 && lq[kyky 22.8.98 egkleqan Qk;jD 14/1 21.3.1 iVsy 23.3.12 23.3.99 ys cujMhg cujMhg ljk;ikyh 14/2 0.769 NA 8 Jh fnus'k gky eqdke 1 f-3-3/5/12 27.7.05 &&^^ 'kekZ vk-Jh jk;iqj rg0 IBM/957 4 Date to &&^^ iwju pan o ftyk 2/2012 8 12.7.05 26.7.25 [kq'khZigk [kq'khZig && 'kekZ jk;iqj 564 25.7.2 17.11.04 6.5.04 DokVZt j kj fiFkkSjk 566 1.51 NA 4 Jh fnus'k gky eqdke 1 f-3-20/5/12 15.9.06 &&^^ 'kekZ vk-Jh jk;iqj rg0 IBM/957 4 Date to &&^^ iwju pan o ftyk 2/2012 9 12.7.05 14.9.26 lkYgsrjk lkYgsrj && 'kekZ jk;iqj 13.9.2 9.2.15 23.9.06 DokVZt bZ kbZ fiFkkSjk 639 1.6 NA 5

Jh jkts'k gky eqdke f-3- 1 2.1.07 &&^^ 'kekZ jk;iqj rg0 48/05/12 dksfy;kj dksfy;k IBM/104 5 to &&^^ vk-Jh o ftyk Date21.12 h Mhg jh Mhg 84/2012 0 1.1.27 && iwjupan jk;iqj .06 30.12. 8.4.05 27.12.06 DokVZt cluk 694 2.4 NA 25 Jh yfyr 1 ckxckgjk f-2-33/5/12 6.10.08 &&^^ vxzoky vk- iVijik iVijik IBM/106 5 ftyk Date to &&^^ Jh jktsUnz yh [kqnZ yh [kqnZ 26/2012 1 egkleqan 4.7.06 5.10.18 && vxzoky 1.2.07 6.10.08 DokVZt ckxckgjk 639 1.48 NA 4.1.17 fu- Jh jfo tSu f-2- 1 egkleqan 19.9.11 &&^^ vk-Jh 25/10812 IBM/106 5 rglhy o to &&^^ uhyepan Date 8-11- 26/2012 2 ftyk 18.9.31 && tSu 10 17.9.3 egkleqan 9.10.09 21.9.11 DokVZt fNankSyh fNankSyh egkleqan 181 4.2 NA 0

24 xzke Ik;kZoj.k 1 fcjdksuh 6.3.14 Jh [kseyky 463/ vukifRr 5 rglhy o 20.12.13 to panzkdj 21.2.14 izek.k i= 3 ftyk 5.3.24 izkIr egkleqan Q'khZiR 6.3.14 Fkj cjcliqj Cjcliqj egkleqan 467 0.5 NA 5.3.23 Jh jkekuqt xzke 1 panzkdj vk- cjcliqj 28.9.11 &&^^ 5 Jh Vseu rglhy o to &&^^ 4 yky ftyk 27.9.21 && panzkdj egkleqan 1799/ pwukiR 26.9.2 13.7.11 13.9.11 28.9.11 Fkj cjcliqj Cjcliqj egkleqan 212 0.75 NA 0 >kykjke xzke 1 panzkdj vk- cjcliqj 4.10.08 &&^^ 2907/ to 5 Jh ,eu rglhy o 16.12.07 &&^^ 5 yky ftyk 3.10.18 && panzkdj egkleqan pwukiR 2.10.1 4.10.07 Fkj cjcliqj Cjcliqj egkleqan 311 0.4 NA 7 >kykjke xzke 1 panzkdj vk- cjcliqj 23.6.10 &&^^ 422/ to 5 Jh ,eu rglhy o 15.2.12 &&^^ 6 yky ftyk 22.6.20 && panzkdj egkleqan pwukiR 21.6.1 22.609 1.3.12 Fkj cjcliqj Cjcliqj egkleqan 210 0.41 NA 9 Jh fVds'oj xzke iVsy f-3- 1 eks[kkiqVdk 20.4.15 311/1 &&^^ ikVZuj Jh 51/2010/1 5 rglhy to 313 &&^^ dUgS;k 2 date 31- 7 cluk ftyk 19.4.35 455/2 && yky 10-14 egkleqan 455/1 18.4.3 vxzoky 11.10.10 20.4.15 DokVZt [kksxlk [kksxlk cluk 456 4.08 NA 4 Jh lakbZ HkaMkj lpkyd Jh /khjsUnz xzke 1 yks.kkjs vk- cjcliqj 21.1.14 &&^^ 4782/ to 5 Jh rglhy o 19.12-13 &&^^ 8 uhydekj ftyk 20.1.24 && yks.kkjs egkleqan fuoklh 128 Dyc ikjk Q'khZiR Ckjcliq 19.1.2 617/5.5. egkleqan 18.12.15 21.1.16 Fkj cjcliqj j egkleqan 186/1 0.42 NA 3 13

25 4. Details of Royalty or Revenue Received in Last Three Year

(i) Major Minerals

In Mahasamund district there have no any mining lease.

(ii) Details of Royalty or Revenue Received in Last Three Year

Minor Minerals

S Mineral Royalty or Revenue Received . 2013-14 2014-15 2015-16 N Production Royalty Production Royalty Production Royalty o (Rs.) (Tonne) (Rs.) (Tonne) (Rs.) . 1 Quartz 11098 tonne 832365 16493 tonne 1237000 34313 tonne 2573500 2 Stone Bolder 1070 m3 110210 790 m3 81370 - - 3 Stone Crusher 69315m3 7139456 269206 m3 27728179 50411 m3 5192300 m3 4 Limestone 3634 tonne 228939 2767 tonne 174328 7132 tonne 570575 tonne 5 Flagstone 163931 m3 16884878 183266 m3 18876381 256305 m3 26399422 m3 (farsi stone) 6 Soil(Chimney) 71605 m3 1432100 52200 m3 1044000 81875 m3 1637500 7 Lateritic soil 241000 m3 4820000 307550 m3 6151000 256300 m3 5126000 (murram) m3 Total 3144794 55292258 41499297 5.Details of Production & Royalty of Sand in last Three years Ordanary Sand

S.No. Financial Year Production of Sand (in M3) Royalty Recieved in Rs.

1 2013-14 260989.5 5219490

2 2014-15 130006 2600120

3 2015-16 2774600 2774600 ftyk jktukanxkao esa fnukad 15-05-2016 dh fLFkfr esa ?kksf"kr jsr ?kkVks dh tkudkjh

S.no. Mine(Village) Khasara no. Area Duration name 1 Barbaspur (a) 1 4.00 Hect. 21.11.2013 to 20.11.2016 2 Barbaspur (b) 175 4.00 Hect. 21.11.2013 to 20.11.2016 3 Ghodari 1 4.00 Hect. 21.11.2013 to 20.11.2016 4 Achholi 1 4.00 Hect. 23.12.1013 to 22.12.2016 5 Mohakam 1 14.00 Hect. 06.11.2015 to 05.11.2017 6 Khadsa 1 15.00 Hect 06.11.2015 to 05.11.2017 7 Kanekera 2604 7.00 Hect. 08.02.2016 to 07.02.2018 8 Navgaon 3151,3152 15.00 Hect. 15.03.2016 to 14.03 2018

1 6. PROCESS OF DEPOSITION OF SEDIMENTS IN THE RIVERS The district forms a part of the Mahanadi basin. The general slope on the eastern part of the area is towards south –east, in the central part of the area is towards north and on the western part is towards north western direction. The western boundary of the district is running along the Mahanadi River . The Jonk River passes through the central part of the district and is running in northern direction. The Kurar nala, Nami nala, Keswa nala and sukha nadi forms part of the drainage system for Mahanadi River basin. the Mechka nala, Bagh nala, Racme nala Lath nala forms part of the Jonk River basin. The Kunti nala, Surangi nala and Chinar nala forms part of the Ong River basin.

The obvious things rivers transportload, erode load and erode the channel through which they flow. Erosion Erosion is the breaking down of material by an agent. In the case of a river, the agent is water. The water can erode the river’s channel and the river’s load. A river’s load is bits of eroded material, generally rocks, which the river transports until it deposits its load. A river’s channel is eroded laterally and vertically making the channel wider and deeper. The intensity of lateral and vertical erosion is dictated by the stage in the river’s course, discussed in more detail here but essentially, in the upper stage of the river’s course (close to the source of the river) there is little horizontal erosion and lots of vertical erosion. In the middle and lower stages vertical erosion is reduced and more horizontal erosion takes place.

There are several different ways that a river erodes its bed and banks. The first is hydraulic action, where the force of the water removes rock particles from the bed and banks. This type of erosion is strongest at rapids and waterfalls where the water has a high velocity. The next type of erosion is corrasion. This is where the river’s load acts almost like sandpaper, removing pieces of rock as the load rubs against the bed & banks. This sort of erosion is strongest when the river is transporting large chunks of rock or after heavy rainfall when the river’s flow is turbulent.

Corrosion is a special type of erosion that only affects certain types of rocks. Water, being ever so slightly acidic, will react with certain rocks and dissolve them. Corrosion is highly effective if the rock type of the channel is chalk or limestone (anything containing calcium carbonate) otherwise, it doesn’t have much

2 of an effect. Cavitation is an interesting method of erosion. Air bubbles trapped in the water get compressed into small spaces like cracks in the river’s banks. These bubbles eventually implode creating a small shockwave that weakens the rocks. The shockwaves are very weak but over time the rock will be weakened to the point at which it falls apart. The final type of erosion is attrition. Attrition is a way of eroding the river’s load, not the bed and banks. Attrition is where pieces of rock in the river’s load knock together, breaking chunks of rock off of one another and gradually rounding and shrinking the load.

Transportation When a river erodes the eroded material becomes the river’s load and the river will then transport this load through its course until it deposits the load. There are a few different ways that a river will transport load depending on how much energy the river has and how big the load is. The largest of particles such as boulders are transported by traction. These particles are rolled along the bed of the river, eroding the bed and the particles in the process, because the river doesn’t have enough energy to move these large particles in any other way. Slightly smaller particles, such as pebbles and gravel, are transported by saltation. This is where the load bounces along the bed of the river because the river has enough energy to lift the particles off the bed but the particles are too heavy to travel by suspension. Fine particles like clay and silt are transported in suspension; they are suspended in the water. Most of a river’s load is transported by suspension. Solution is a special method of transportation. This is where particles are dissolved into the water so only rocks that are soluble, such as limestone or chalk, can be transported in solution. Capacity & Competence Rivers can only carry so much load depending on their energy. The maximum volume of load that a river can carry at a specific point in its course is called the river’s capacity. The biggest sized particle that a river could carry at a specific point is called the river’s competence.

Deposition To transport load a river needs to have energy so when a river loses energy it is forced to deposit its load. There’s several reasons why a river could lose energy. If the river’s discharge is reduced then the river will lose energy because it isn’t flowing as quickly anymore. This could happen because of a lack of precipitation or an increase in evaporation. Increased human use (abstraction) of a river could also reduce its discharge forcing it deposit its load. If the gradient of the river’s course flattens out, the river will deposit its load because it will be travelling a lot slower. When a river meets the sea a river will deposit its load because the gradient is generally reduced at sea level and the sea will absorb a lotof

3 energy. As rivers get nearer to their mouths they flow in increasingly wide, gentle sided valleys. The channel increases in size to hold the extra water which the river has to receive from its tributaries. As the river gets bigger it can carry larger amounts of material.

This material will be small in size, as larger rocks will have broken up on their way from the mountains. Much of the material will be carried in suspension and will erode the river banks by abrasion. When rivers flow over flatter land, they develop large bends called meanders. As a river goes around a bend most of the water is pushed towards the outside causing increased erosion.

The river is now eroding sideways into its banks rather than downwards into its bed, a process called lateral erosion. On the inside of the bend, in contrast, there is much less water. The river will therefore be shallow and slow-flowing. It cannot carry as much material and so sand and shingle will be deposited. This is called a point bar or slip off slope Due to erosion on the outside of a bend and deposition on the inside, the shape of a meander will change over a period of time. Notice how erosion narrows the neck of the land within the meander. In time, and usually during a flood, the river will cut right through the neck. The river will then take the new, shorter route.

The fastest current, called the thalweg, will now tend to be in the centre of the river, and so deposition is likely to occur in gentler water next to the banks. Eventually deposition will block off the old meander to leave an oxbow lake. The oxbow lake will slowly dry up , only refilling after heavy rain or during a flood. Streams lose velocity and make deposits when their gradient decreases, when the vwater decreases, when there is an increase in cross section, when they encounter obstructions, or when they enter still water. They deposit alluvial fans, alluvial cones, piedmont alluvial plains, channel fill, bars, flood plains and deltas.

4 7. General Profile of the District

S.No. Particulars Statistics 1 General Information Geographical Area 4790 sq. km Geographical Position 20º49’30” to21º33’07” 81º59’56” to 83º16’10” Administrative Division/Number of Tehsil 5 No. of Panchayat/Villages 1145 Population (As Per Census 2011) 1032275 Population Density (As Per Census 2011) 260/km2 (690/sq mi) 2 Geographology Major Physiographic Units Granite, Limestone, Flag Stone, Gold and Tin,Lead ore, Fluorite,Beryl etc. Major Drainage Mahanadi River, sukha nala, Nami nala, Machka nala, Jonk nala, Racmel nala, Lillar nala,nLath nala and Surangi nala. 3 Land use (Km2) Forest Area 98610.145 Hact. 4 Major Soil Types 5 Number of Ground Water Monitoring Stations of CGWB (10.05.2016) Water Level 27 mtr. No. of Stop Dam 03 No. of Anikat 14 No. of Major Bridges 6 Hydrologeology Major Water Bearing Formation Pre-Monsoon depth of water level During 2012 Post Monsoon depth of water level during 2012 7 Mining Scenario Total No. of Mining Leases (Major Minerals Nil Total Area of Mining Leases (Major Minerals) Nil Total Royalty or Revenue Received from Major . Minerals in 2015-16 Total No. of Mining Leases (Minor Minerals) 158 Total No. of Mining Leases (Minor Minerals) Total Royalty or Revenue Received from Minor 6,86,79,281 Minerals in 2015-16 Total No. Notified Sand Leas 08 Total Area of Sand Leases 67 Hect.

Total Production of Sand in 2015-16 2774600 No. of Quarry lease extended As per Amended CGMMR 2015

5 6 8. Land Utilition Pattern in the district: Forest, Agriculture, Horticulture, Mining etc. i. Horticulture:

ii.Forest :

7 ii)Agriculture and Irrigation:

Chhattisgarh State is known as Rice Bowl of central India about 80% of the population in the state is engaged in agriculture. Mahasamund district is one of the richest bio-diversity area in the state. To reduce the farmersdependence

8 on rainfall, Government is working towards increasing the irrigation potential of the district.

9 iii. River :

10 iv)Transportation : Mahasamund district has three National Highway which are National Highway 6,National Highway 217 and National Highway 216. The construction of four lane road in National Highway 6 from Arang- Mahasamund to Saraipali up to Orisa is in progress. Mahasamund station is well connected to Raipur, Durg, Nagpur, Mumbai, Delhi, Bhopal, sambalpur, Ttilagarh, Vishakhapatnam, Tirupati, Puri, Bilaspur, Koraba, Jodhpur, Ajmer, Ahemdabad etc. through the Indian railway system.

11 9. Physiography of the District

Physiographically, the major area of the Mahasamund district exhibits pediment/ pediplain landforms. The other landforms are structural plain, structural hills and velleys, dedudational slope, denudetional hills and velleys in the western and eastern part and floodplain including in filled river beds along the course of Mahanadi River. The district forms a part of Mahanadi basin. the general slope of eastern, central and western parts of the district is towards southeast, north and northwest direction respectively. The tributaries of Mahanadi River drain the district.

12 10. Rainfall of District Rajnandgaon Month wise ftys esa eklokj o’kkZ dh tkudkjh fuEukuqlkj gS %

11. Geology and Mineral 1. Geology :-

13 14 1.1 .Archaean :- Rock formations ranging in age from Archean to Neo Proterozoic are exposed in the district. The flood plains of Mahanadi River are occupied by recent alluvium. The oldest rocks in the area arerepresented by Bengpal Group of Archean age (>2500 m.y.) and are exposed in the cetral part of the district Bengpal Group comprises grey granite gneiss. Porphyroblastic gneiss and magmatite with enclaves of quartzite, banded amphibole-magnetite quartzite, fuchsite quartzite ,quartz-mica schist, andalucite schist, meta- ultramafic. The rocks of the Sonakhan Group of Paleao Proterozoic age (2200-2000m.y.) comprising meta volcanic and associated meta- sedimentaries, unconformably overlie the gneissic complex and exposed in the northeastern part of the district. Sonakhan Group is classified into three formations viz. Baghmara, Arjuni and Bilari. Baghmara formation comprises meta-ultramafic amphibolite, actinolite-chlorite schist and basaltic agglomerate. Arjuni Formation comprises meta-conglomerate,meta-greywacke, meta- argillite with banded ferruginous chert, meta rhyolite, tuff and meta-besalt. Billari formation comprises meta-conglomerate,meta greywacke, meta-argilite, meta-basalt with basaltic conglomerate and agglomerate, meta-rhyolite with agglomerate and tuff, meta-greywacke and dacit. The volcano sedimentary sequence of the Sonakhan Group is intruded by a large gabbroic complex of variable composition like peridolite, pyroxenite,anorthositic gabbro and gabbro.

1.2. PalaeoProterozoic :- Bundeli/Dongargarh Granitoids of Palaeo Proterozoic age occupy major part of the district. It comprises granodiorite, biotite and hornblende granite, lecogranite and granophyres. Granophyre with well developed micrographic texure is marked as a separate lithounit within the granitoids and is exposed in the southwestern and central part of the district. Numbers of younger intrusive of Meso Proterozoic age (2000-1600 m.y.) viz. gabbro and doleritic dykes and qurtz veins have traversed the granitoids and Sonakhan volcano-sedimentary sequence.

15 1.3.Meso to Neo Proterozoic :- Unformed and unmetamorphosed sedimentary cover sequence of rocks belonging to Chhattisgarh Supergroup of Meso to Neo Proterozoic age (2000-900 m.y.) overlie the granitoids and rocks of Sonakhan Group. The Chhattisgarh Supergroup occupies the eastern and western part of district and is represented by Singhora, Chandrapur and Raipur Group. Singhora Group of sediments are identified as four litho facies and exposed in the eastern part of district.these four litho facies have been given status of Rehatikhol, Saraipali, Bhalukona and Chhuipali formations arranged in ascending order. Rehatikhol formation is predominantly arenitic facies, resting unconformably over the granitic basement and comprises arkose and feldspathic sandstone with minor intercalations of siltstone and shale with a pebble horizon towards the base. Saraipali formation is the argillite facies and a charecterised dominantly by purple and green shale, banded chert and minor limestone. Bhalukona formation is predominantly arenitic facies and comprises quartz arenite,shale and siltstone. Chhuipali formation is the calc- argillite facies and comprises dominantly variegated shale, ferruginous arenite, chirt and bedded stromatolitic and dolomitic limestone. Chandrapur Group has been classified into three formationsviz. Lohardih, Chapordih and Kansapathai. Lohardih Formation is mostly arenitic in nature and comprises feldspathic sandstone and ferruginous arenite, wacke arenit, arkos, sub- arkose and chirt with polymictic conglomerate at the base.Chapordih formation is predominatly an argillite facies and comprises black,pink and light grey shale intercalated with arenite bands. Black shale is generally laminated with alternate fine silt-rich lamellae. In the western part of the district, it become arenitiv in nature and comprises sub-arkosic arenite to fine grained arenite intercalated with shale, siltstone and mudstone.kansapather formation is dominantly an arenitic facies and comprises highly matured glouconitic quartz arenite. Charmuria formation of Raipur Group is dominantly a carbonate facies and it is represented by cherty limestone, dark grey bedded pyritiferous and argillaceous limestone and purple phasphatic limestone.

16 Minerals :- In Mahasamund district there are no economic minerals deposits of any significance except reported occurrence of fluorite and molybdenum. Fluorite occurring as veins and veinlets in sheared feldspathic quartzite is reported at Charkuta, Chiwrakuta, Chatkachar and Makannuta. Molybdenum occurring in the form of specks in pink granite and granodiorite is reported at 10 km southwest of Sankra.

17 Other Information of the District Drainage system with description of main rivers

Sand is mined from the bank of Shivnath, Patesri, Kotri, ,Darekasa and,Amner, Surhi and Folk river. Motinala and Tehri Nala also contribute to the sand minning from the respective area along their bank.The lease for sand minning is granted to Panchyat and Janpad.

¼i½ egRoiw.kZ ufn;ksa vkSj /kkjkvksa dh eq[;&eq[; tkudkjh eq[; ufn;ksa ds fooj.k lfgr fudklh iz.kkyh %

18 19 fuek.kkZ/khu ;kstuk % 1 Lkakdjk ,uhdV Lkakdjk FiFkkSjk 2 eapdkukyk ¼Hkqjdksuh½ ,uhdV Hkqjdksuh FiFkkSjk 3 cMs+ lktkikyh ,uhdV cMs lktkikyh Cluk

20