New Delhi annexure-i format for inviting proposal for fresh induction under sap- (drs)



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SIGNATURE & SEAL OF THE HEAD SIGNATURE & SEAL OF THE HEAD OF

/PROPOSED COORDINATOR OF THE THE INSTITUTION/PROGRAMME

PROGRAMME APPLIED FOR WITH APPLIED UNIVERSITY



FOR WITH DATE VICE-CHANCELLOR/REGISTRAR

Please note: PROPOSAL PREPARED OTHER THAN IN THE ABOVE FORMAT AND WITHOUT SIGNATURE OF THE ABOVE MENTIONED AUTHORITIES, MAY NOT BE CONSIDERED. PROPOSAL IN DUPLICATE COPIES IN THE BIND FORM AND NEATLY TYPED AND PRINTED MAY BE SENT TO THE JOINT SECRETARY (SAP DIVISION), UNIVERSITY GRANTS COMMISSION, BAHADUR SHAH ZAFAR MARG, NEW DELHI-110002.

APPENDIX –I to ANNEXURE- I

S. No.

Particular

Amount

(Rs. in Lakh)

I. Non-Recurring





1

Upgradation of existing Scanning Electron Microscope with Cathodoluminiscence Detector (CL) and Electron Back Scattered Refraction (EBSD)

60.0

2

Upgradation of Remote Sensing & GIS facility for the use of teaching

35.0

3

High-resolution Stereozoom (20:1 zoom range) Microscope with Image Analyser Software

18.00

4

Upgradation of Geological Museum

10.00

5

Analytical Charges including seismic profiling to the south of MFT

15.00




Isodynamic separator

15.00

.

Isotope/OSL sample preparation unit

5.00

6
Students labs/class room teaching







Microscopes

10.00




Audio/visual /Projection / Network Scanning/photocopier/ Network computing/communication/laptops/softwares

15.00

7
Geophysical/Groundwater Lab/Geotechnical Lab







Refraction Seismic Meter

1.00




Digital water level recorder with

3.00




Permeameter/Coring bits/Schmidt’s Hammer

2..00

8

Experimental Structural Geology lab.







Deformation Riggs/computer interface

2.00

9

Sedimentology Lab







Digital grain size analyser (Modal analysis)

1.00




Sub-Total

119.00

10

Renovation/upgradation/extension of lab/class rooms

10.00

  1. Recurring

1

Contingency expenses Rs. 300000/- per year

3 lakhs x 5



15.00

2

Chemicals/Consumables Rs. 200000/- per year.

2 lakhs x 5



10.00

3

Field work (TA and DA) Rs. 300000/- per year.

3 lakhs x 5



15.00

4

Seminar/Lecture Series/visiting Fellows Rs. 100000/- per year

1 lakh x 5



5.00

5

Hiring services Technical etc Rs. 200000/- per year

2 lakhs x 5



10.00

6

Advisory Committee meetings Rs. 100000/- per year

1 lakh x 5



5.00

7

Visiting Fellows Rs. 60000/-per year

60000 x 5



3.0

8

R A -- Rs. 600000/-per year

6 lakhs x 5



30.0




Sub-Total

93.00




TOTAL

155.00

Budgetary Estimates of Dr.Shashank Shekar are given below

Serial No.

Item

Approximate cost

1.

Major Instrument requirements: Ion chromatograph complete setup

Rs. 45-50,00,000

2.

laboratorial setup including standards for ion chromatographs and other chemical

Rs. 15-20,00,000

3.

AMC for Instrument

Rs. 20-25,00,000 (30to 40% of the cost of instrument)

4.

High end portable workstation/computer

Rs.1,50,000 to Rs.2,00,000

5.

Software support for groundwater modeling

Rs. 2,00,000 to Rs.3,00,000

6.

Field work, Travel (including local) for research related works

Rs. 5-10,00,000 (including expenses of all co-investigators and students)

7.

Miscellaneous Charges Including appointment of operator of instrument as per institutional guidelines, maintenance of other equipments and lab and etc.

  1. Operator cost (approximately for 3 years): Rs 12,00,000

  2. Maintenance of Lab: Rs.3,00,000

  3. Cost of sample and reagent Bottles etc. over three years at sampling frequency of four times a year .: Rs. 5,00,000

  4. Contingency: Rs. 5,00,000

Totalling to approximately Rs. Rs.25,00,000


Total Estimated cost (in Rs.):1,13,50,000-1,35,00,000

Appendix I1 to Annexure I

Name

Designation

Qualification

Specialisation

Publication (last 5 years)













International

National

Talat Ahmad

Professor

Ph.D

Igneous & Metamorpic Petrology, Geochemistry

20

11

J. P. Shrivastava

Professor

Ph.D

Igneous Petrology, Geochemistry

09

14

C.S. Dubey

Professor

Ph.D

Metamorphic Petrology, Environmental Geology

09

03

D. K. Sinha

Professor

Ph.D

Biostratigraphy

02

01

G.V.R. Prasad

Professor

Ph.D

Vertebrate Palaeontology

11

04

A.Chattopadhyay

Professor

Ph.D

Structural Geology

09

03

P. Srivastava

Professor

Ph.D

Sedimentary Geology and Geomorphology


06

03

P.P.Chakraborty

Professor

Ph.D

Sedimentary Geology

16

03

N.C. Pant

Professor

Ph.D

Mineralogy, Petrology

17

04

S.K. Singh

Associate Professor

Ph.D

Engineering Geology

00

02

V. Singh

Assistant Professor

Ph.D

Geomorphology, Sedimentology

06

02

S. Shekhar

Assistant Professor

Ph.D

Hydrogeology

02

00

A.Sakia

Assistant Professor

Ph.D

Metamorphic Petrology

06

02

A. Singh

Assistant Professor

Ph.D

Micropaleontology

05

01

P. Kumar

Assistant Professor

Ph.D

Stratigraphy

00

01


Appendix III to Annexure I
List of publications 20011-2015

2015

Chattopadhyay, A., Das, K., Hayasaka, Y., Sarkar, A. (2015) Syn- and post-tectonic granite plutonism in the Sausar Fold Belt, central India: Age constraints and tectonic implications. Journal of Asian Earth Sciences 107, 110-121.

Chattopadhyay, A. (2015) Discussion on: “Carbon and oxygen isotope systematic of a Paleoproterozoic cap-carbonate sequence fromthe Sausar Group, central India by S. Mohanty, A. Barik, S. Sarangi and A. Sarkar” Palaeogeography, Palaeoclimatology, Palaeoecology 433, 156-157.

Angelika D. Rosa, Carmen Sanchez-Valle c, Jingyun Wang, Ashima Saikia (2015). Elasticity of superhydrous phase B, seismic anomalies in cold slabs and implications for deep water transport. Physics of Earth and Planetary Interiors, 243:30 JUNE .

Rohit Srivastava, R. Ramesh, Naveen Gandhi , R.A. Jani , Ashutosh K. Singh. Monsoon onset signal in the stable oxygen and hydrogen isotope ratios of monsoon vapor.Atmospheric Environment. 108.p. 117-124. 2015

Ningthoujam, P.S., Dubey, C.S., Lolee, L.K., Shukla, D.P., Naorem, S.S., Singh, S.K., (2015)Tectonic studies and crustal shortening across Easternmost Arunachal Himalaya Journal of Asian Earth Sciences 111, 339- 349http;//dx.doi.org/10.1016/j.jseaes.2015.07.003.

Stable Isotopes: Tools for understanding past climatic conditions and their applications in Chemostratigraphy. Manish Tiwari, Ashutosh K. Singh, Devesh K. Sinha. Chemostratigraphy Book: edited by RAMKUMAR-9780124199682, Chapter: 03,  Elsevier Inc. 2015. http://dx.doi.org/10.1016/B978-0-12-419968-2.00003-0 65,

Sarkar Aditya, Ali Shakir , Kumar Suman , Shekhar Shashank, Rao SVN (In Press) Groundwater environment in Delhi, India, Groundwater Environment in Asian Cities, Ed. S Shrestha; V Pandey; B R Shivakoti; S Thatikonda, Imprint: Butterworth-Heinemann; Elsevier Publications. (http://store.elsevier.com/Groundwater-Environment-in-Asian-Cities/isbn-9780128031667/).

Devrani, R., V. Singh, S. M. Mudd, and H. D. Sinclair (2015), Prediction of flash flood hazard impact from Himalayan River profiles, Geophys. Res. Lett., 42, 5888 – 5894, doi:10.1002/2015GL063784.

Sucharita Pal, J.P. Shrivastava and S. K. Mukhopadhyay 2015. Mineral Chemistry of Clays Associated with the Late Cretaceous-Early Palaeogene Succession of the Um-Sohryngkew River Section of Meghalaya, India: Palaeoenvironmental Inferences and K/Pg Transition. Journal Geological Society of India, v. 86, No. 6, pp.631-647

Sucharita Pal, J.P.Shrivastava and S. K. Mukhopadhyay 2015.Physils and organic matter-base palaeoenvironmental records of theK/Pg boundary transition from the late Cretaceous-early Palaeogenesuccession of the Um-Sohryngkew River section of Meghalaya, India. Chemie der Erde, v. 75, pp.445-463.

Nishi Rani, J.P.Shrivastava and R.K.Bajpai 2015. Natural glass from Deccan volcanic province: an analogue for radioactive waste form. International Journal of Earth Science(Geol Rundsch) DOI 10.1007/s00531-015-1244-5

Sucharita Pal, J.P.Shrivastava and S. K. Mukhopadhyaya 2015.PAH excursions and K/Pg transition in the late Cretaceous-early Paleogene succession of the Um-Sohryngkew river section, Meghalaya. Current Science, Current Science, v. 109, No. 6, 1140-1150.

Robert A. Duncan, J.P.Shrivastava and Mamta Kashyap 2015. Post-K/PB younger 40Ar–39Ar ages of the Mandla lavas: Implications for the duration of the Deccan volcanism.Lithos, v. 224–225, pp. 214–224.

Vimal Singh 2015.Commentary on The Indian Critical Zone – A case for priority studies.Current Science, vol. 108 (6); 1045-1046.

Mehdi, S.M., Kumar, S., Pant, N.C. (2015) Characterization of metamorphic conditions in the Lalsot-Bayana sub basin of the North Delhi Fold Belt (NDFB)- implications for its status within the Delhi Fold Belt, Jour. Geol. Soc. Ind., 85, 397-410.

Chakraborty, P.P., Pant, N.C. and Paul, P.P. (2015) Controls of sedimentation in Paleoproteozoic basins- A case study from the Gwalior and Bijawar basins, central India, Accepted for publication in Spl. Publication, Geol. Soc. LondonMemoirs, 43, 67–83, http://dx.doi.org/10.1144/M43.5

Naresh C. Pant, Santosh Kumar, Mayuri Pandey, A.K. Bajaj, A. Kundu, Sonalika Joshi and R.V.S. Shimyaphy, (2015) New insights on the genesis and controls of mineralization in Khetri Copper Belt and adjacent low-grade Cu mineralization, northwest Indian shield, In: P.K. Golani (ed.) Recent Developments in Metallogeny and Mineral Exploration in Rajasthan. Geological Survey of India Special Publication, 101, 109-128.

Abul Amir Khan, Naresh C. Pant, Anuj Goswami, Ravish Lal, Rajesh Joshi, (2015) Critical evaluation and assessment of average annual precipitation in the Indus, the Ganges and the Brahmaputra basins, Northern India, in R. Joshi et al. (eds.), Dynamics of Climate Change and Water Resources of Northwestern Himalaya, Society of Earth Scientists Series, 67-84, DOI 10.1007/978-3-319-13743-8_7, © Springer International Publishing Switzerland

Banerjee, S., Modal, S., Chakraborty, P.P. and Meena, S,S., 2015 Distinctive compositional characteristics and evolutionary trend of Precambrian glaucony: Example fromBhalukona Formation, Chhattisgarh basin, India. Precambrian Research v. 271, p.33-48.

Das, K., Chakraborty, P.P., Hayasaka, Y., Kayama M., Saha S. and Kimura K. (2015)~1450 Ma regional felsic volcanism at the fringe of East Indian craton: Constraints fromgeochronology and geochemistry of tuff beds from detached sedimentary basins.Geological Society of London Memoir No. 43 on 'Precambrian basins of India:Stratigraphic and Tectonic context'. p. 207-222

Chakraborty, P.P., Saha, S. and Das, P., (2015). Geology of MesoproterozoicChhattisgarh basin, central India: current status and future goals. Geological Society ofLondon Memoir No. 43 on 'Precambrian basins of India: Stratigraphic and Tectoniccontext'. Eriksson, P.G and Mazumdar, R. (Eds.) p. 185-206.

Prasad, G.V.R., Sharma, A., Verma, O., Khosla, A., Singh, L.R. & Priyadarshini, R.K. Testudoid and crocodiloid eggshells from the Upper Cretaceous Deccan Intertrappean Beds of Central India. C.R. Palevol14: 513-526 (Paris).

Parmar, V. & Prasad, G.V.R.Cricetid rodents from the Lower Siwalik Subgroup of Jammu, India: Biochronological Significance. Palaeoworld 24: 324-335 (Nanjing, China).

Srivastava, P., K, M. Aruche, Arya, A, Pal, D. K., Singh, L. P. 2015. A micromorphological record of contemporary and relict pedogenic processes in soils of the Indo-Gangetic Plains: Implications for mineral weathering, provenance, and climatic changes. Earth Surface Processes and Landforms. (DOI: 10.1002/esp.3862). (John Wiley & Sons Ltd.Publication).

Srivastava, P., D. K. Pal, K M. Aruche, S.P. Wani, K. L. Sahrawat, 2015. Soils of the Indo-Gangetic Plains: A pedogenic response to landscape stability, climatic variability and anthropogenic activity during the Holocene. Earth Science Reviews 140:54-71; DOI 10.1016/j.earscirev.2014.10.010). (Elsevier).



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