DOCSLIB.ORG

Schoene-Science-2019.Pdf

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Schoene-Science-2019.Pdf RESEARCH MASS EXTINCTION To estimate the eruption date and associated uncertainty for each sample, we developed an approach using Bayesian statistics to account U-Pb constraints on pulsed eruption for the probability distribution of zircon dates and their analytical uncertainties (20) (fig. S6). Although we considered alternative data inter- of the Deccan Traps across pretations (13), they do not affect the conclusions of this study. Twenty-one of 24 dated horizons the end-Cretaceous mass extinction are from five stratigraphic sections along prom- inent roads in the Western Ghats, providing 1 1 2 3 completecoverageoftheupperfourDeccanfor- Blair Schoene *, Michael P. Eddy , Kyle M. Samperton , C. Brenhin Keller , Gerta Keller1, Thierry Adatte4, Syed F. R. Khadri5 mations (Fig. 1 and figs. S1 and S2). The remaining three samples span the lower five Deccan for- mations, where redboles are rare and less likely Temporal correlation between some continental flood basalt eruptions and mass to contain zircon. extinctions has been proposed to indicate causality, with eruptive volatile release When compiled into a composite stratigraphic driving environmental degradation and extinction. We tested this model for the section (Fig. 1), almost all samples follow anti- Deccan Traps flood basalt province, which, along with the Chicxulub bolide impact, cipated “younging-up” temporal order based on is implicated in the Cretaceous-Paleogene (K-Pg) extinction approximately the independently defined regional stratigraphy 66 million years ago. We estimated Deccan eruption rates with uranium-lead (14–17) (figs. S2 and S7). The exception is the (U-Pb) zircon geochronology and resolved four high-volume eruptive periods. Katraj Ghat south of Pune city, where two sam- According to this model, maximum eruption rates occurred before and after the Downloaded from ples from what was mapped as upper Poladpur K-Pg extinction, with one such pulse initiating tens of thousands of years prior to both Formation are ~100 ka younger than samples the bolide impact and extinction. These findings support extinction models that near the Poladpur-Ambenali contact in other incorporate both catastrophic events as drivers of environmental deterioration sections. To resolve this discrepancy, we placed associated with the K-Pg extinction and its aftermath. the Poladpur-Ambenali contact in the Katraj Ghat sectionas~100mlowerthanpreviouslymapped. ontinental flood basalt provinces are char- within the Deccan Traps volcanic province, India This simple adjustment does not violate geo- http://science.sciencemag.org/ acterized by eruption of >1 million km3 of (Fig. 1). The province is temporally correlated chemical or geological observations in the strat- basalt over a period of <1 million years to the K-Pg mass extinction, in which roughly igraphy, as the Poladpur-Ambenali contact is (1, 2), representing the largest volcanic three-fourths of life on Earth was eradicated, in- geochemically transitional in published datasets C 6 14 events on Earth. Four of the five most cluding non-avian dinosaurs ( ). Previous at- ( ). Furthermore, our placement of the contact severe Phanerozoic mass extinctions [~541 mil- tempts to constrain eruption rates were limited is consistent with geochemical studies of the lion years (Ma) ago to the present] coincided by poor stratigraphic coverage and/or high nearby Sinhagad Fort section suggesting that with emplacement of one of these provinces analytical uncertainties (7–12). We used U-Pb the Poladpur Formation is relatively thin just (3). Although the temporal link between flood geochronology by isotope dilution–thermal ion- south of Pune (14). basalts and extinctions is well established, the ization mass spectrometry (ID-TIMS) (13), which To further refine the composite stratigraphic mechanisms by which eruptions drive extinc- provides analytical uncertainties (±2s)aslowas age model, we used a Bayesian Markov chain tion are poorly understood (4). Two models of 40,000 years (40 ka) for individual dated zircons. Monte Carlo (MCMC) model in which strati- on March 18, 2019 environmental change from volcanic activity Our sampling covers the nine major Deccan for- graphic superposition is imposed on U-Pb zircon relate to eruptive volatile emissions (1, 4). The mations in the Western Ghats, where the most dates (13, 21) (Fig. 1). The result is a deposition first is volcanogenic CO2 release, with associated voluminous (>90% total volume) and complete age estimate for each dated horizon, incorporat- global warming, ocean acidification, and carbon Deccan exposures are preserved (14–17) (Fig. 1). ing dates from all beds above and below each cycle disruption. The second is SO2 injection into We sampled both coarse-grained basalts and sample to produce an internally consistent age the stratosphere and its conversion to sulfate sedimentary beds between basalt flows that model (Fig. 1). The accuracy of refined age esti- aerosols, causing global cooling, acid rain, and infrequently contain zircon-bearing volcanic mates depends solely on sample placement in ecosystem poisoning (5). The predicted time ash (11) (fig. S1). These beds, locally termed proper stratigraphic order and is independent of scales of these perturbations contrast sharply. “redboles,” range from oxidized volcaniclas- samples’ exact stratigraphic heights. The emission of SO2 from a single eruption would tic material with visible lithic fragments and To calculate volumetric eruption rates through produce years of cooling, whereas accumulated phenocrysts to paleosol-type horizons produced the Deccan Traps, we adopted the volume model greenhouse warming from CO2 can be sustained by in situ weathering of flow tops (18, 19). Of 141 of Richards et al.(22), in which units of the for many thousands to tens of thousands of sampled redboles and coarse-grained basalts Wai subgroup (i.e., the Poladpur, Ambenali, and years. Testing the effects of this interplay on (Fig. 1 and figs. S1 and S2), 23 redboles and Mahabaleshwar Formations) were interpreted ecosystems thus requires precisely calibrated one basalt sample yielded sufficient zircon (≥5 as more voluminous than is apparent from volcanic eruption rates that can be correlated crystals) to estimate an eruption age, includ- their proportionate thickness in the Western to high-resolution climate proxy and biostrat- ing four distinct bole horizons and one basalt Ghats. This assertion carries nontrivial uncer- igraphic data. previously presented by Schoene et al.(11). tainties, but we believe it is justified given the We applied U-Pb zircon geochronology to Pristine volcanic crystal morphology indicates correlation of these formations to basalt flows construct a precise temporal record of eruption minimal transportation or reworking of zircon on the province’s periphery, including massive in a sedimentary environment. Consequent- flows that traveled ~1000 km to India’s eastern ly, we inferred that this volcaniclastic, zircon- shore (23, 24). Although different volume models 1Department of Geosciences, Princeton University, Princeton, NJ, USA. 2Nuclear and Chemical Sciences Division, Lawrence bearing material was incorporated into redboles produce changes in the magnitude of calculat- Livermore National Laboratory, Livermore, CA, USA. as air fall tuff, consistent with some redboles ed eruption rates, the timing of peak eruption 3Berkeley Geochronology Center, Berkeley, CA, USA. 4ISTE, containing a high-SiO2 (nonbasaltic) com- rates is unaffected by either the volume model Institut des Sciences de la Terre, Université de Lausanne, 5 ponent (19), and that these zircons provide or the interpretation approach of the zircon GEOPOLIS, Lausanne, Switzerland. Department of Geology, 13 Amravati University, Amravati, India. a robust means for dating Deccan eruptive data ( ) (figs. S8 and S9). Additional uncer- *Corresponding author. Email: [email protected] stratigraphy. tainty relates to the unconstrained mass and Schoene et al., Science 363, 862–866 (2019) 22 February 2019 1of4 RESEARCH | REPORT age of Deccan basalt that is currently submerged from ~66.3 to 66.15 Ma ago; the second to the estimate a date of 66.016 ± 0.050 Ma ago for and inaccessible off India’s western shore. We Poladpur Formation from ~66.1 to 66.0 Ma ago; the KPB [95% credible interval, internal un- consider this uncertainty to be intractable be- the third to the Ambenali Formation from ~65.9 certainties only (13)]. Comparison of our data cause current volume models cannot account to 65.8 Ma ago; and the fourth and final to the with recently published 40Ar/39Ar geochronology for this mass component of the province. Con- uppermost Mahabaleshwar Formation, from from the Deccan Traps and the Chicxulub im- sequently, all eruption rates are likely mini- ~65.6 to 65.5 Ma ago. pact (12, 26) is currently not possible at the mum estimates, although we also cannot assess OurDeccaneruptionmodel(Fig.2)constrains necessary level of precision given systematic whether the offshore component erupted during the volcanic tempo with high resolution, provid- bias between the two dating methods, pri- the same time intervals as that of the Western ing a means to correlate eruption records with marily related to uncertainty in ages of 40Ar/ Ghats. biostratigraphic and climate proxy data across 39Ar fluence monitors and the values of the We converted our age model into a proba- the K-Pg extinction. Our model places the second 40K decay constant and physical constants (13). bilistic estimate of volumetric flux of basaltic
Load more

Recommended publications
  • Rays Electronics in Association with IRB Ltd
    The first ever Tunnel Expressway in India: Mumbai-Pune Expressway. Operation & Maintenance by Rays Electronics in association with IRB Ltd. Chhatrapati Shivaji Terminus, formerly known as Victoria Terminus. A historical terminal train station and UNESCO World Heritage Site in Mumbai, Maharashtra, India. DMX Controlled Lighting System, designed by Bajaj Electricals Ltd. and executed by Rays Electronics. Anik Tunnel, Chembur, Mumbai. Lighting System by Rays Electronics in association with RAYS ELECTRONICS Bajaj Electricals Ltd. An ISO 9001 : 2015 Certified Company A few words… The year was 2000, when Rays Electronics ventured into Tunnel Management Systems, focusing purely on operation and maintenance. Having gained in experience and earned the confidence of our clients, we went one step ahead in integrating the system itself. In the process, we also ended up upgrading some products within the system, eventually leading to the manufacturing of various products that go into the design and control of Tunnel Management Systems. Over the years, we have now grown into a dedicated team, capable and competent of comprehensively managing projects on EPC basis. Our dedication from concept to completion of a project, a keen eye for innovation and adherence to project schedules, have seen many a client repose their trust in Rays Electronics. Clients such as Bajaj Electricals, KMC Constructions, Larsen & Toubro, Modern Roadways, Railways: Central + Konkan + Northern, Siemens and more. Significantly, if you take a close look at our latest projects, what would you find? Here is the answer that gives us immense satisfaction: Apart from the few we import, most of the products we integrate – to manage the Lighting, Ventilation, Sub-station, Power Back-up, Security and monitoring of the Tunnel Management Systems – are designed and developed by Rays Electronics in accordance with prescribed codes and standards.
    [Show full text]
  • Chapter- 4 Profile of Pmpml
    CHAPTER- 4 PROFILE OF PMPML C H A P T E R - 4 PROFILE OF PMPML 4.1 Introduction 4.2Authorities of PMPML 4.3 Important terms used in the chapter 4.4 Location of study area 4.5 PMPML’s field of activities 4.6 PMPML bus depots 4.7 Important statistical data of PMPML 72 C H A P T E R - 4 PROFILE OF PMPML 4.1 Introduction Pune and Pimpri-C'hinchwad are twin cities in which PMPML buses are operating. These are historical cities where various communities hve harmoniously together since many years. The 11' parks and the auto components hubs are established in the part o f these cities.The industrial development o f Pune and Pimpri-Chinchwad and its environs covers a span of last sixty years. The Pune Region has come into existence on 7th July 1967 and contains four prominent industrial growth areas. The north west o f the city comprising Chinchwad and its environs, the eastern part o f the city comprising lladpsar. Loni-kalbhor and Mundhwa. the north -eastern part comprising lirandwana. Paud road and Kothrud. Out o f these areas. Chinchw'ad and its environs is most prominent in development of industries in the region. The area contains a number of large, medium and small-scale units.' In 1916-17 City Development Act was made applicable to Pune and development of the city started slowly. Population also began to increase, due to which difficulties arose in the communication between various parts o f the city. Consequently the idea o f bus services in the city was born.
    [Show full text]
  • The Eruptive Tempo of Deccan Volcanism in Relation to The
    RESEARCH 40 39 MASS EXTINCTION We measured 19 high-precision Ar/ Ar ages for the DT that complement the previous geo- chronology to create a higher-resolution tempo- ral framework for DT volcanism. We collected The eruptive tempo of Deccan samples for geochronological analysis from the Western Ghats region of the DT, the most rele- volcanism in relation to the vant region for understanding DT-induced climate change, as the record of the most voluminous Cretaceous-Paleogene boundary eruptive phase of the DT occurs here (Fig. 1). The total lava stratigraphy is called the Deccan Group, 1,2 1,3 4 5 which is divided into formations within the larger Courtney J. Sprain *, Paul R. Renne , Loÿc Vanderkluysen , Kanchan Pande , Stephen Self1, Tushar Mittal1 Kalsubai, Lonavala, and Wai subgroups (in ascend- ing order) (Fig. 1). These formational and subgroup boundaries arise from geochemical and volcano- Late Cretaceous records of environmental change suggest that Deccan Traps logical properties (23). Each formation comprises (DT) volcanism contributed to the Cretaceous-Paleogene boundary (KPB) multiple eruptive units. In total, we sampled each ecosystem crisis. However, testing this hypothesis requires identification of subgroup and all but two formations within these the KPB in the DT. We constrain the location of the KPB with high-precision subgroups, including the stratigraphically high- argon-40/argon-39 data to be coincident with changes in the magmatic plumbing est and lowest dated samples from the Western system. We also found that the DT did not erupt in three discrete large pulses and Ghats. Our samples came from multiple sections.
    [Show full text]
  • 2015 R Maple Brochure Copy
    , !! Kondhwa Annexe : . , . . 20 ‘ ’ 2000 550 . 2 18 ‘ ’ . . , , . , , . 40 , , , , , , , , , - . “ , , . ‘ ’ .” CMD १८ �क� x • 2000 • 700 • 10 • 15 kondhwa Hadapsar Rajiv Gandhi Bangalore - Mumbai highway zoological Park Fursungi Lonikand katraj Khadi Machine chowk iskon Towards temple Saswad Wagholi Kesnand Bopdev Ghat Kanifnath Temple Kondhva-Annex Bopgon ULT RA Wagholi Annex Shiraswadi Promoters & Developers -4 • 0 • 1000 • • • , Lonikand Wagholi Kesnand SANASWADI Wagholi • • • • • • - , , , • • Katraj Ghat Towards Pirangut Lavasa Pune Paud Ambegaon Annex Balaji Lonand Kothrud Temple Phata Bus Stand Shirwal Chandani Mulshi Chowk Hinjewadi Towards Ambegaon Satara New Tunnel Khed Kapurhol In Association with Shivapur Shindewadi In Association with Bavdhan Paud () - - • • • • - - • • . • - • , Theur Hadapasar ChakanTalegaon Pune Courtyard Talegaon Chakan Rd Marriott Chakan Shikrapur Rd Loni Kalbhor Kunjirwadi uralikanchan Chowk In Association with Old Pune Mumbai Highway Pune Nashik Rd Nashik Pune Mutkewadi In Association with Chakan Uralikanchan Medankanwadi (Lakeside) Moshi Toll Naka Pune Nashik Rd x x •
    [Show full text]
  • Pune Urban Biodiversity-A Case of Millennium
    .. "- \. ill } JOURNAL OF ECOLOGICAL SOCIETY Val.s 13 and 14, 2000-2001 Biodiversity Profile of an Urban Area Special Double Issue Foreword Urban biodiversity sounds like a misnomer! What diversity of (non-human) life a burgeoning city with three million plus human population is likely to retain? The proof of the pudding is in eating. Here is a gallant attempt to draw a picture of the extant biodiversity of the Pune urban area based on field-work. Enthusiastic collegians under the guidance of their teachers have probed various natural and urban habitats to complete this picture. The wherewithal was provided by Ranwa, a Pune-based NGO deeply interested in the study and conservation of nature. The guest editors for this volume, Prof. Sanjeev Nalavade and Utkarsh Ghate, themselves involved in inspiring this effort have painstakingly edited the available material to give a shape and form that is at once interesting and informative. Hopefully this effort will prove a bench-mark and a useful guide in formulating the future development policies and plans of the Pune urban area. This special double issue is grandly embellished by excellent photographs. Thanks to the contribution made by leading nature photographers of Pune. The web of life that still permeates our urban setting proves the tenacity and adaptive capacities of natural beings in the face of insuperable odds. Notwith- standing the loss of invertebrates and fish species and some of the interesting birds, nature shows extraordinary capabilities to cling to whatever habitat traces that remain. We, the citizens of Pune, must remember that the biodiversity pictured here is not because of any conscious efforts on our part.
    [Show full text]
  • Description of the Region (Geographical Extent, Topography, Climate, and Vegetation)
    Description of the Region (Geographical extent, topography, climate, and vegetation) The Maharashtra state is about 800 km east-west and 700 km north-south, an irregular dentate pentagon, lying between 22" r-16 " 4' north latitude and 72 " 6'-80 " 9' east longitude, covering an area of 3,07,690 sq km. It is limited to the west by the Arabian Sea, making a long coastline of 720 km. by Goa and Karnataka to the south, by Andhra Pradesh on the south-east, and Madhya Pradesh on the north, and Gujarat to its north-west (Map 1). Western Ghats or Sahyadri separate coastal strip of Konkan from rest of the plateau and thereby altitude ranges from mean sea level to about 1200 m on Western Ghats (with some highest peaks in the range like Kalsubai- 1654 m, Mahabaleshwar- 1382 m) and about 200-900 m over the rest. Average rainfall in the state varies from 250 cm in Konkan to 60-75 cm in Marathwada and again increasing to 150 cm towards eastern most part of Maharashtra that is Vidarbha. It forms a large part of Indian Peninsula. Similarly temperature varies between I5"C-47''C. Relative humidity fluctuate between 15% to 90%. Nearly 21% of the geographical area is under forest. Physiography Physiographically the state is divided into 5 divisions 1. Konkan, 2. Deccan or Desh, 3. Khandesh, 4. Marathwada and 5. Vidarbha (Map 2). Konkan, a narrow coastal strip of the west of Sahyadris, varies between 27-48 km in breadth and 800 km in length from Goa to Tapi Basin.
    [Show full text]
  • Systematic Studies Ndemic Species of the Family
    SYSTEMATIC STUDIES NDEMIC SPECIES OF THE FAMILY ACANTHACEAE FROMeTHE NORTHERN AND PARTS OF CENTRAL WESTERN GHATS THESIS O GOA UNIVERSITY ARD OF DEGREE OF OF PHILOSOPHY IN TANY MARIA E STA MASCARENHAS DEP. TMENT OF BOTANY GOA UNIVERSITY GOA 403 206 JUNE 2010 SYSTEMATIC STUDIES ON THE ENDEMIC SPECIES OF THE FAMILY ACANTHACEAE FROM THE NORTHERN AND PARTS OF CENTRAL WESTERN GHATS THESIS SUBMITTED TO GOA UNIVERSITY FOR THE AWARD OF DEGREE OF DOCTOR OF PHILOSOPHY IN BOTANY BY MARIA EMILIA DA COSTA MASCARENHAS DEPARTMENT OF BOTANY EV3toll_ GOA UNIVERSITY GOA 403 206 JUNE 2010 "7— oc) STATEMENT As required by the University Ordinance 0.19.8 (ii), I state that the present thesis "Systematic Studies on the Endemic Species of the Family Acanthaceae from the Northern and parts of Central Western Ghats" is my original contribution and the same has not been submitted on any occasion for any other degree or diploma of this University or any other University/Institute. To the best of my knowledge, the present study is the first comprehensive work of its kind from the area mentioned. The literature related to the problem investigated has been cited. Due acknowledgments have been made wherever facilities and suggestions have been availed of. Place: Goa University (Maria Emilia da Costa Mascarenhas) Date: OS 04.. 02pl o Candidate CERTIFICATE As required by the University Ordinance 0. 19.8 (iv), this is to certify that the thesis entitled "Systematic Studies on the Endemic Species of the Family Acanthaceae from the Northern and parts of Central Western Ghats", submitted by Ms.
    [Show full text]
  • Bucerosbuceros Vol
    BUCEROSBuceros Vol. 8, Nos. 2 & 3 (2003) ENVIS Newsletter: Avian Ecology & Inland Wetlands Vol. 8, Nos. 2 & 3, May-December 2003 Annotated checklist of the Birds of Western Maharashtra Compiled by Anand Prasad Bombay Natural History Society 2003 Buceros Vol. 8, Nos. 2 & 3 (2003) ENVIS ENVIS (Environmental Information System) is a network of subject specific nodes located in various institutions throughout the country. The Focal Point of the present 25 ENVIS centres in India is at the Ministry of Environment and Forests, New Delhi, which further serves as the Regional Service Centre (RCS) for INFOTERRA, the global information network of the United Nations Environment Programme (UNEP) to cater to environment information needs in the South Asian sub-region. The primary objective of all ENVIS centres is to collect, collate, store and disseminate environment related information to various user groups, including researchers, policy planners and decision makers. The ENVIS Centre at the Bombay Natural History Society was set up in June 1996 to serve as a source of information on Avian Ecology and Inland Wetlands. ENVIS TEAM AT THE BNHS Centre-in-Charge : Mr. J.C. Daniel Project Coordinator : Dr. Asad R. Rahmani Senior Scientist : Dr. Gopinathan Maheswaran Scientist : Dr. Ashok Verma Editorial Adviser : Dr. Gayatri Ugra Citation: Prasad, A. (2003) Annotated checklist of the Birds of Western Maharashtra. Buceros 8 (2 & 3): 1-174 Cover Photograph: Indian Pond Heron Ardeola grayii by V. I. Thayil Cover Design and page layout: Mr. Gopi Naidu, BNHS. Copyright BNHS: All rights reserved. This publication shall not be reproduced either in full or in part in any form, either in print or electronic or any other medium, without the prior written permission of the Bombay Natural History Society.
    [Show full text]
  • Ib Vol 1.3 Final
    Indian Birds Vol. 1 No. 3 (May-June 2005) 61 White-rumped Snowfinch Pyrgilauda at Shey-Tikse marshes – favours group of seven above Yurutse; a group taczanowskii One bird above the slopes blooming willow trees and feeding on its of six males on the southern ridge above of Thadsang Karu Lake. seeds; occasional above Leh town; Startsapuk-Tso; two females in slope at Plain-backed Snowfinch Pyrgilauda common in Rumbak Valley, feeding at southern end of Startsapuk-Tso. blanfordi Occasional to quite common blooming willow; occasional towards Ladakh Urial Ovis vignei Two females and amongst the sandy slopes of Startsapuk- Yurutse (4,500m); common at Hemis one ‘fresh’ lamb in the plains after Lama Tso (feeding into nest or fledged chicks). Shukpachan (a pair observed: female Guru Sikh temple before Zanskar-Indus Plain Mountain-Finch Leucosticte alone is constructing nest while male junction; two sub-adult males in Wanla nemoricola Three birds after Rumbak followed her on material collection and area. gorge (3,900m) but common around / perched in vicinity singing); common in Bharal (Blue Sheep) Pseudois nayaur A above Yurutse (to 4,500m); occasional in Wanla area but occasional in Chumatang. group of 30 (mixed females with yearlings the Wanla area. Rock Bunting Emberiza cia Occasional in and younger males) just after Rumbak Brandt’s Mountain-Finch Leucosticte the Rumbak region, in Hemis gorge; common above Yurutse; brandti Common towards Kardung-La Shukpachan and one record in the Wanla occasional above Rumbak; two females around South Pulu; common at Yoye-Tso, area. before Likche; a group of 14 juveniles and around Sumdo-Puga, Tsomoriri and Tso- sub-adults on north-facing rock-wall Kar.
    [Show full text]
  • Freshwater Crabs (Crustacea: Decapoda: Brachyura: Gecarcinucidae) in the Collection of the Western Regional Centre, Pune
    Occasional Paper No. 363 FRESHWATER CRABS (CRUSTACEA: DECAPODA: BRACHYURA: GECARCINUCIDAE) IN THE COLLECTION OF THE WESTERN REGIONAL CENTRE, PUNE S.K. PATI R.M. SHARMA Zoological Survey of India, Western Regional Centre, Pune- 411 044 Edited by the Director, Zoological Survey of India, Kolkata Zoological Survey of India Kolkata CITATION Editor : Director, 2014. Freshwater Crabs (Crustacea: Decapoda: Brachyura: Gecarcinucidae) in the collection of the Western Regional Centre, Pune, Occasional Paper No., 363 : 1-44 (Published by the Director, Zool. Surv. India, Kolkata). Published : August, 2014 ISBN 978-81-8171-383-4 © Govt. of India, 2014 ALL RIGHTS RESERVED ■ No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording or otherwise without the prior permission of the publisher. ■ This book is sold subject to the condition that it shall not, by way of trade, be lent, re-sold hired out or otherwise disposed of without the publishers consent, in any form of binding or cover other than that in which it is published. ■ The correct price of this publication is the price printed on this page. Any revised price indicated by a rubber stamp or by a sticker or by any other means is incorrect and should be unacceptable. PRICE India Rs. 385.000 Foreign $ 20; £ 15 Published at the Publication Division by the Director, Zoological Survey of India, M- Block, New Alipore, Kolkata-700 053 and printed at Calcutta Repro Graphics, Kolkata700 006. RECORDS
    [Show full text]
  • Katraj to Sinhagad K2S Night Trek INCLUSIONS and EXCLUSIONS ENQUIRE NOW the PLAN in DETAIL THINGS to CARRY GALLERY ABOUT YOUR HO
    Katraj to Sinhagad K2S Night Trek About This Experience Katraj to Sinhagad or as we call it “K2S” is a popular night trek for professional trekkers, amateurs, and newbies. The route stas from the Katraj Tunnel Top (Old), travels through a series of mountains and hills (more than 15) and approximately (16kms.) which leads to the destination Sinhagad Fo Ghat road. It is denitely a trek which will test your physical tness, stamina, and endurance. The trek ends at Sinhagad. Information about the places:- Katraj Ghat: The Route which connects Pune to South Maharashtra. Both Katraj Tunnel and Sinhagad are connected by a single mountain range. This connecting mountain range gives a fascinating view of slopes and valleys surrounded by Pune and the amazing view of Pune city. All these things make one test the stamina, patience, and endurance. Which makes the trek, a peect one to sta o the trekking, and for this reason, the Trek has become one of the favorites amongst the Trekkers. Sinhagad: Sinhagad is a foress located roughly 30 kilometers southwest of the city of Pune, India. Previously called Kondhana, the fo has been the site of many impoant bales, most notably the bale of Sinhagad in 1670. It was also strategically located at the center of a string of other fos such as Rajgad, Purandar, and Torna. Perched on an isolated cli of the Bhuleswar range of the Sahyadri Mountains, it is situated on a hill rising 1312 meters above sea level. Given natural protection by its very steep slopes, the walls and bastions were constructed at only key places; it has two gates – the Kalyan Darwaja in the south-east and the Pune Darwaja in the noh-east.
    [Show full text]
  • Notice for Appointment of Regular / Rural Retail Outlet Dealership HPC Proposes to Appoint Retail Outlet Dealers in Maharashtra, As Per Following Details
    Notice for appointment of Regular / Rural Retail Outlet Dealership HPC proposes to appoint Retail Outlet Dealers in Maharashtra, as per following details: Estimate Fixed Security Finance to be d Category Type of Minimum Dimensions (in M) / Mode of Fee / Deposit ( Sl No Name Of Location Revenue District Type of RO arranged by the monthly Site * Area of the site (in Sq. M.).* selection Minimu Rs in Applicant Sales m Bid Lakhs) 1 2 3 4 5 6 7 8 9(a) 9(b) 10 11 12 SC Estimat SC CC 1 Estimate ed SC PH d fund working ST required capital ST CC 1 for require ST PH develop Draw of (Regular/Rural MS+HSD CC / DC Fronta ment OBC Depth Area ment of Lots/Biddi ) in Kls /CFS ge for OBC CC 1 infrastru ng operati OBC PH cture at on of OPEN RO (Rs RO (Rs OPEN CC 1 in Lakhs in OPEN CC 2 ) Lakhs) OPEN PH FROM JAFRABAD PHATA IN CHIKHLI CITY TOWARDS JAFRABAD UP TO 5 DRAW OF 1 BULDHANA Regular 150 SC CFS 40 50 2000 0 0 0 3 KM ON SH-228 LOTS WITHIN 3 KM FROM SHELU BAZAR JUNCTION, LHS ON SHELUBAZAR DRAW OF 2 WASHIM Regular 152 SC CFS 40 50 2000 0 0 0 3 KARANJA ROAD TOWARDS KARANJA LOTS WITHIN 4 KM OF KHEMANAND ENGLISH SCHOOL TOWARDS BHOOM DRAW OF 3 AHMEDNAGAR Regular 150 ST CFS 40 50 2000 0 0 0 3 ON AHMEDNAGAR BHOOM ROAD SH-157 LOTS UPTO 4 KM FROM KRISHI UTPANNA BAZAR SAMITI GATE, LONI KHURD DRAW OF 4 AHMEDNAGAR Regular 150 ST CFS 40 50 2000 0 0 0 3 TOWARDS SINNAR ON SH 31 LOTS 5 VILLAGE KADRABAD, ON KADRABAD-KACHNER ROAD AURANGABAD Regular 150 SC CFS 40 50 2000 0 0 DRAW OF 0 3 DRAW OF 6 VILLAGE BHATKUDGAON ON SH- 44 ON NEWASA–SHEVGAON ROAD AHMEDNAGAR Regular
    [Show full text]