Abstract
Kashmir Valley, the north-western part of India, is home to important geological rock formations, sedimentary deposits, and landforms. These geological entities have preserved the imprints of the Permian–Triassic mass extinction, the evolution of the Himalayas, the waxing and waning of glaciers, ancient civilizations, and paleoclimate dynamics. One of the most impressive rock formations is the Permian–Triassic Boundary (PTB) section. This section exhibits potentially essential information about the character and causes of the Late Permian mass extinction. Likewise, the jointed nature of the Panjal volcanics and the uplift associated with the Himalayan tectonics have resulted in the characteristic relief responsible for the development of waterfalls. The picturesque waterfall, known as Aharbal waterfall, has emerged as one of the best tourist hotspots on the Vishav River. The Karewa deposits witnessed many human civilizations and habitations besides being bystanders to the climatic record of the last 4 million years. Also, the loess-paleosol sequences, low and high-altitude lakes, karst landscape, and glacier geomorphic features impart scenic beauty to the valley. These sedimentary deposits and landforms are valuable proxies for inferring the Quaternary climatic conditions. Because of their scientific, climatic, educational, and geological importance, these prime geoheritage sites need to be protected and developed for geotourism, which would help boost the region's economy.
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References
Agrawal DP, Dodia R, Kotlia BS, Razdan H, Sahni A (1989) The Plio-Pleistocene geologic and climatic record of the Kashmir Valley, India: a review and new data. Paleogeogr Paleoclimatol Paleoecol 73:267–286
Alam A, Ahmad S, Bhat MS, Ahmad B (2015) Tectonic evolution of Kashmir basin in northwest Himalayas. Geomorphology 239:114–126
Algeo TJ, Hannigan R, Rowe H, Brookfield M, Baud A, Krystyn L, Ellwood BB (2007) Sequencing events across the Permian-Triassic boundary, Guryul Ravine (Kashmir, India). Paleogeogr Paleoclimatol Paleoecol 252(1–2):328–346
Ali A, Achyuthan H (2020) Paleoenvironment shifts during MIS 3: loess and loess paleosols of Kashmir Valley, India. J Earth Syst Sci. https://doi.org/10.1007/s12040-020-01440-x
Antic A, Tomic N, Markovic S (2019) Karst geoheritage and geotourism potential in the Pek River lower basin (eastern Serbia). Geogr Pannonica 23:32–46
Bakalowicz M (2005) Karst groundwater: a challenge for new resources. Hydrogeol J 13:148–160
Basavaiah N, Appel E, Lakshmi BV, Deenadayalan K, Satyanarayana KVV, Misra S, Juyal N, Malik MA (2010) Revised magnetostratigraphy and characteristics of the fluviolacustrine sedimentation of the Kashmir basin, India, during Pliocene-Pleistocene. J Geophys Res Solid Earth 115:B08105. https://doi.org/10.1029/2009JB006858
Baud A, Bhat G (2014) Field guidebook: the Permian-Triassic transition in the Kashmir Valley. In IGCP 630 First Annual Field Workshop in North India (17–22 November, 2014) Srinagar, India 630:1–36
Becker L, Poreda RJ, Hunt AG, Bunch TE, Rampino M (2001) Impact event at the Permian-Triassic boundary: evidence from extraterrestrial noble gases in fullerenes. Science 291(5508):1530–1533
Bhat GM, Bhat GD (1997) Stratigraphy and depositional environments of Late Permian carbonates, Kashmir Himalaya. Geological Survey and Mines Bureau, Sri Lanka, pp 205–222
Bhatt DK (1982) A review of the stratigraphy of the Karewa Group (Pliocene/Quaternary), Kashmir. Man Environ 6:46–55
Bhatt DK (1989) Lithostratigraphy of Karewa Group, Kashmir Valley, India and a critical review of its fossil record. Mem Geol Surv India 122:1–85
Bhosale S, Chaskar K, Pandey DK, Lakhote A, Thakkar A, Chauhan G, Bhandari S, Thakkar MG (2021) Jurassic geodiversity and geomorphosite of Kanthkot area, Wagad, kachchh, western India. Int J Geoherit Parks 9(1):51–68
Bollati I, Smiraglia C, Pelfini M (2013) Assessment and selection of geomorphosites and trails in the Miage Glacier Area (Western Italian Alps). Environ Manage 51(4):951–967
Brilha J (2002) Geoconservation and protected areas. Environ Conserv 29:273–276
Bronger A, Pant RK, Singhvi AK (1987) Pleistocene climatic changes and landscape evolution in the Kashmir Basin, India: paleopedologic and chronostratigraphic studies. Quatern Res 27:167–181
Brookfield ME, Twitchett RJ, Goodings C (2003) Paleoenvironments of the Permian-Triassic transition sections in Kashmir, India. Paleogeogr Paleoclimatol Paleoecol 198(3–4):353–371
Brookfield ME, Algeo TJ, Hannigan R, Williams J, Bhat GM (2013) Shaken and stirred: seismites and tsunamites at the Permian-Triassic boundary, Guryul Ravine, Kashmir, India. Palaios 28(8):568–582
Brosse M, Baud A, Bhat GM, Bucher H, Leu M, Vennemann T, Goudemand N (2017) Conodont-based Griesbachian biochronology of the Guryul Ravine section (basal Triassic, Kashmir, India). Geobios 50(5–6):359–387
Burbank DW, Johnson GD (1982) Intermontane-basin development in the past 4 Myr in the north-west Himalaya. Nature 298:432–436
Cameron E (2022) Outside geomorphosites. Geoheritage 14(1):1–15
Chauhan G, Biswas SK, Thakkar MG, Page KN (2021) The unique geoheritage of the Kachchh (Kutch) Basin, Western India, and its conservation. Geoheritage 13(1):1–34
Chavan A, Sarkar S, Thakkar A, Solanki J, Jani C, Bhandari S, Bhattacharya S, Desai BG, Ray D, Shukla AD, Sajinkumar KS (2022) Terrestrial martian analog heritage of Kachchh Basin, Western India. Geoheritage 14(1):1–26
Chen Z, Auler AS, Bakalowicz M, Drew D, Griger F, Hartmann J, Jiang G, Moosdorf N, Richts A, Stevanovic Z, Veni G (2017) The World Karst Aquifer Mapping project: concept, mapping procedure and map of Europe. Hydrogeol J 25:771–785
Chen ZQ, Tong J, Zhang K, Yang H, Liao Z, Song H, Chen J (2009) Environmental and biotic turnover across the Permian-Triassic boundary on a shallow carbonate platform in western Zhejiang, South China. Aust J Earth Sci 56(6):775–797
Chowdury MK, Banerjee PK (1957) A note on the preliminary investigation in some zones of sulphide mineralisation in the state of Jammu and Kashmir. Geological Survey of India, New Delhi
Cresswell ID, Semeniuk V (2018) Australian mangroves: their distribution and protection. In threats to mangrove forests. Springer, pp 3–22. https://doi.org/10.1007/978-3-319-73016-5_1
Crofts R (2014) Promoting geodiversity: learning lessons from biodiversity. Proc Geol Assoc 125:263–266
Crofts R, Gordon JE (2015) Geoconservation in protected areas. Protected area governance and management. ANU Press Canberra, pp 531–568. https://www.jstor.org/stable/j.ctt1657v5d.25
Dar RA, Chandra R, Romshoo SA (2013) Morphotectonic and lithostratigraphic analysis of intermontane Karewa Basin of Kashmir Himalayas, India. J Mt Sci 10:1–15
Dar RA, Romshoo SA, Chandra R, Ahmad I (2014) Tectono-geomorphic study of the Karewa Basin of Kashmir Valley. J Asian Earth Sci 92:143–156
Dar RA, Chandra R, Romshoo SA, Lone MA, Ahmad SM (2015) Isotopic and micromorphological studies of Late Quaternary loess-paleosol sequences of the Karewa Group: inferences for paleoclimate of Kashmir Valley. Quatern Res 371:122–134
Dar RA, Jaan O, Murtaza KO, Romshoo SA (2017) Glacial-geomorphic study of the Thajwas glacier valley, Kashmir Himalayas, India. Quatern Int 15:157–171
Dar RA, Zeeden C (2020) Loess-paleosol sequences in the Kashmir Valley, NW Himalayas: A review. Front Earth Sci 8:113
de Terra H, Patterson TT (1940) Studies on the Ice Age in India and associated human cultures. J Geol 48:110–111
Derbyshire E (2001) Geological hazards in loess terrain, with particular reference to the loess regions of China. Earth Sci Rev 54(1–3):231–260
Dhirendra PK, Sudesh WK, Suraj B (2022) Geoconservation through geotourism around geologically significant sites and desert landscapes in potential geopark in Jaisalmer Basin, Western India. Geoheritage 14(4):1–24
Dowling RK (2010) Geotourism’s global growth. Geoheritage 3(1):1–13
Farsani NT, Coelho CO, Costa CM (2012) Tourism crisis management in geoparks through geotourism development. Rev Tur Desenvolv 3:1627–1638
Farsani NT, Coelho CO, Costa CM, Amrikazemi A (2014) Geo-knowledge management and geoconservation via geoparks and geotourism. Geoheritage 6(3):185–192
Ford D, Williams PD (2007) Karst hydrogeology and geomorphology. John Wiley & Sons
Fox N, Graham LJ, Eigenbrod F, Bullock JM, Parks KE (2022) Geodiversity supports cultural ecosystem services: an assessment using social media. Geoheritage 14(1):1–16
Godwin Austen HH (1859) On the lacustrine or Karewah deposits of Kashmere. Quart J Geol Soc 15(1–2):221–229
Godwin Austen HH (1864) Geological notes on part of the North-Western Himalayas. Quart J Geol Soc London 20:383–387
Ganju JL, Khar BM (1984) Tectonics and hydrocarbon prospects of Kashmir valley-possible exploration targets. Petrol Asian J 207–216
Gray M (2011) Other nature: geodiversity and geosystem services. Environ Conserv 38(3):271–275
Gray M (2004) Geodiversity: valuing and conserving abiotic nature. John Wiley & Sons
Gupta SK, Sharma P, Juyal N, Agrawal DP (1991) Loess-paleosol sequence in Kashmir: correlation of mineral magnetic stratigraphy with the marine paleoclimatic record. J Quat Sci 6:3–12
Haas J, Demeny A, Hips K, Zajzon N, Weiszburg TG, Sudar M, Palfyf J (2007) Biotic and environmental changes in the Permian-Triassic boundary interval recorded on a western Tethyan ramp in the Bukk Mountains, NE Hungary. Glob Planet Change 55(1–3):136–154
Hall AB, Day MJ (2011) Water as a focus of ecotourism in the karst of northern Puerto Rico. Tour Karst Areas 4:17–25
Hongfu Y, Kexin Z, Jinnan T, Zunyi Y, Shunbao W (2001) The global stratotype section and point (GSSP) of the Permian-Triassic boundary. Episodes 24(2):102–114
Hose TA (2000) European geotourism-geological interpretation and geoconservation promotion for tourists. Geological heritage: its conservation and management, Madrid, Spain, pp 127–146
Hose TA, Vasiljevic DA (2012) Defining the nature and purpose of modern geotourism with particular reference to the United Kingdom and South-East Europe. Geoheritage 4(1–2):25–43
Huang Y, Chen ZQ, Algeo TJ, Zhao L, Baud A, Bhat GM, Guo Z (2019) Two-stage marine anoxia and biotic response during the Permian-Triassic transition in Kashmir, northern India: pyrite framboid evidence. Glob Planet Change 172:124–139
Joshi AU, Gorania P, Limaye MA, Chauhan GD, Thakkar MG (2022) Geoheritage values of the Champaner-Pavagadh Archaeological Park, UNESCO World Heritage site, Gujarat, Western India. Geoheritage 14(3):1–16
Kapoor HM (2003) Permo-Triassic of the Indian subcontinent and its intercontinental correlation. In: Sweet WC, Yang Z, Dickens JM, Yin H (eds) Permo-triassic events in the Eastern Tethys. Stratigraphy, classification, and relations with the Western Tethys, Cambridge University Press, Cambridge, pp 21–36. https://doi.org/10.1017/CBO9780511529498.004
Kumar K, Tewari R, Agnihotri D, Sharma A, Pandita SK, Pillai SSK, Singh V, Bhat GM (2017) Geochemistry of the Permian-Triassic sequences of the Guryul Ravine section, Jammu and Kashmir, India: implications for oceanic redox conditions. GeoResearch J 13:114–125
Law R (2011) Inter-regional interaction and urbanism in the ancient Indus Valley: a geologic provenience study of HARAPPA’S rock and mineral assemblage. Indus Project, Research Institute for Humanity and Nature, University of Wisconsin, Madison, p 800
Liu T, Ding Z (1998) Chinese loess and the paleomonsoon. Annu Rev Earth Planet Sci 26(1):111–145
Liu X, Ma M, Wu H, Zhou Z (2017) Identification of aeolian loess deposits on the Indo-Gangetic Plain (India) and their significance. Sci China Earth Sci 60(3):428–437
Liu X, Mao X, Yuan Y, Ma M (2019) Aeolian accumulation: an alternative origin of laterite on the Deccan Plateau, India. Paleogeogr Paleoclimatol Paleoecol 15:34–44
Lone AM, Achyuthan H, Shah RA, Sangode SJ, Kumar P, Chopra S, Sharma R (2020) Paleoenvironmental shifts spanning the last ~6000 years and recent anthropogenic controls inferred from a high-altitude temperate lake: Anchar Lake, NW Himalaya. Holocene 30(1):23–36
Lone AM, Singh SP, Shah RA, Achyuthan H, Ahmad N, Qasim A, Tripathy GR, Samanta A, Kumar P (2022) The late Holocene hydroclimate variability in the Northwest Himalaya: sedimentary clues from the Wular Lake, Kashmir Valley. J Asian Earth Sci 229:105184
Mc Keever PJ., Narbonne GM (2021) Geological world heritage: a revised global framework for the application of criterion (viii) of the World Heritage Convention. IUCN 2021 Report, pp 1–118. https://doi.org/10.2305/IUCN.CH.2021.12.en
Mir AR, Balaram V, Ganai JA, Dar SA, Krishna AK (2016) Geochemistry of sedimentary rocks from Permian-Triassic boundary sections of Tethys Himalaya: implications for paleo-weathering, provenance, and tectonic setting. Acta Geochim 35(4):428–436
Mir JA, Dar RA, Vinnepand M, Laag C, Rolf C, Zeeden C (2022) Environmental reconstruction potentials of Loess-Paleosol-Sequences in Kashmir through high-resolution proxy data. Paleogeogr Palaeoclimatol Palaeoecol 601:111100
Muhs DR, Bettis EA (2003) Quaternary loess-paleosol sequences as examples of climate-driven sedimentary extremes. Special Papers Geological Society of America, pp 53–74. https://doi.org/10.1130/0-8137-2370-1.53
Murtaza KO, Romshoo SA (2021) Applications of glacial geomorphological and lichenometric studies for reconstructing the Late Holocene glacial history of the Hoksar valley, Kashmir Himalaya, India. Geogr Ann 103(1):51–68
Murtaza KO, Dar RA, Paul OJ, Bhat NA, Romshoo SA (2021) Glacial geomorphology and recent glacial recession of the Harmukh Range, NW Himalaya. Quatern Int 575:236–248
Mylroie JR, Mylroie JE (2007) Development of the carbonate island karst model. J Cave Karst Stud 69:59–75
Nohegar A, Norouzi A, Hosseinzadeh MM (2012) The role of karst formations in groundwater resources development. Int J Geol Earth Environ Sci 2:284–292
Ollier C (2012) Problems of geotourism and geodiversity. Quaest Geogr 31(3):57–61
Osborne RAL (2000) Geodiversity:” green” geology in action. In: Proceedings of the Linnean Society of New South Wales 122:149–173
Pant RK, Basavaiah N, Juyal N, Saini NK, Yadava MG, Appel E, Singhvi AK (2005) A 20-ka climate record from Central Himalayan loess deposits. J Quat Sci 20:485–492
Parray KA (2011) Karewas: a geological treasure and heritage of Kashmir. Current Science 100(6):805
Paul OJ, Dar RA, Romshoo SA (2021) Paleo-glacial and paleo-equilibrium line altitude reconstruction from the Late Quaternary glacier features in the Pir Panjal Range, NW Himalayas. Quat Int 642:5–16. https://doi.org/10.1016/j.quaint.2021.03.005
Paul OJ, Dar RA, Romshoo SA (2022) Cirque development in the Pir Panjal Range of North-Western Himalaya, India. CATENA 213:106179
Paul OJ, Romshoo SA, Dar RA, Kumar P, Dhal SP, Chopra S (2022) Paleo-glacial reconstruction of the Thajwas glacier in the Kashmir Himalaya using 10Be cosmogenic radionuclide dating. Geosci Front 13(6):101432
Pelfini M, Bollati I (2014) Landforms and geomorphosites ongoing changes: concepts and implications for geoheritage promotion. Quaest Geogr 33(1):131–143
Porter SC (2001) Chinese loess record of monsoon climate during the last glacial-interglacial cycle. Earth Sci Rev 54:115–128
Prins MA, Vriend M, Nugteren G, Vandenberghe J, Lu H, Zheng H, Weltje GJ (2007) Late Quaternary aeolian dust input variability on the Chinese Loess Plateau: inferences from unmixing of loess grain-size records. Quatern Sci Rev 26(1–2):230–242
Rashid I, Romshoo SA, Abdullah T (2017) The recent deglaciation of Kolahoi valley in Kashmir Himalaya, India in response to the changing climate. J Asian Earth Sci 138:38–50
Reedy CL (1997) Himalayan bronzes: technology, style, and choices. Associated University Presses, Newark: London, Cranbury, p 341
Shah RA, Jeelani G, Goldscheider N (2018) Karst geomorphology, cave development and hydrogeology in the Kashmir valley, Western Himalaya, India. Acta Carsologica 47(1)
Shah RA, Achyuthan H, Lone AM, Kumar S, Kumar P, Sharma R, Amir M, Singh AK, Dash C (2020) Holocene paleoenvironmental records from the high-altitude Wular Lake, Western Himalayas. Holocene 30(5):733–743
Shah RA, Achyuthan H, Lone AM, Jaiswal MK, Paul D (2021) Constraining the timing and deposition pattern of loess-palaeosol sequences in Kashmir Valley, Western Himalaya: implications to paleoenvironment studies. Aeolian Res 49:100660. https://doi.org/10.1016/j.aeolia.2020.100660
Shekhar S, Kumar P, Chauhan G, Thakkar MG (2019) Conservation and sustainable development of geoheritage, geopark, and geotourism: a case study of Cenozoic successions of Western Kutch, India. Geoheritage 11(4):1475–1488
Shellnutt JG, Bhat GM, Wang KL, Yeh MW, Brookfield ME, Jahn BM (2015) Multiple mantle sources of the early Permian Panjal traps, Kashmir, India. Am J Sci 315(7):589–619
Sheth H, Samant H, Patel V, D’Souza J (2017) The volcanic geoheritage of the Elephanta caves, Deccan traps, Western India. Geoheritage 9(3):359–372
Singh IB (1982) Sedimentation pattern in the Karewa Basin, Kashmir Valley, India, and its geological significance. J Paleontol Soc India 27:71–110
Singh V, Pandita SK, Tewari R, van Hengstum PJ, Pillai SS, Agnihotri D, Kumar K, Bhat GD (2015) Thecamoebians (Testate Amoebae) straddling the Permian-Triassic boundary in the Guryul Ravine section, India: evolutionary and palaeoecological implications. PLoS ONE 10(8):0135593
Smalley I, O’Hara-Dhand K, Wint J, Machalett B, Jary Z, Jefferson I (2009) Rivers and loess: the significance of long river transportation in the complex event-sequence approach to loess deposit formation. Quatern Int 198:7–18
Solarska A, Hose TA, Vasiljevic DA, Mroczek P, Jary Z, Markovic SB, Widawski K (2013) Geodiversity of the loess regions in Poland: inventory, geoconservation issues, and geotourism potential. Quatern Int 296:68–81
Stokes T, Griffiths P, C Ramsey (2010) Karst geomorphology, hydrology & management. In: Pike RG, Redding TE, Moore RD, Winkler RD, KD Bladon (eds) Compendium of forest hydrology and geomorphology in British Columbia: volume 1 of 2, forum for research and extension in natural re-sources, Kamloops, pp 373–400. http://www.for.gov.bc.ca/.../Lmh66.htm
Tewari R, Awatar R, Pandita SK, McLoughlin S, Agnihotri D, Pillai SSK, Singh V, Kumar K, Bhat GD (2015) The Permian-Triassic palynological transition in the Guryul Ravine section, Kashmir, India: implications for Tethyan-Gondwanan correlations. Earth Sci Rev 149:53–66
Thakur VC, Rawat BS (1992) Geologic map of Western Himalaya: Dehra Dun, Scale: 1(1,000,000). Wadia Institute of Himalayan Geology, India, p 5
Vasiljevic DA, Markovic SB, Hose TA, Smalley I, Basarin B, Lazic L, Jovic G (2011) The introduction to geoconservation of loess-paleosol sequences in the Vojvodina region: significant geoheritage of Serbia. Quatern Int 240:108–116
Vasiljevic DA, Markovic SB, Hose TA, Smalley I, O’Hara-Dhand K, Basarin B, Lukic T, Vujicic MD (2011) Loess towards (geo) tourism-proposed application on loess in Vojvodina region (north Serbia). Acta Geogr Slov 51(3):391–406
Vasiljevic DA, Markovic SB, Hose TA, Ding Z, Guo Z, Liu X, Smalley I, Lukic T, Vujicic MD (2014) Loess-paleosol sequences in China and Europe: shared values and geoconservation issues. Catena 117:108–118
Waltham AC (1971) British karst research expedition to the Himalaya, 1970: full report. Hawthornes of Nottingham, Cornell University, p 99
Wignall PB, Newton R, Brookfield ME (2005) Pyrite framboid evidence for oxygen-poor deposition during the Permian-Triassic crisis in Kashmir. Paleogeogr Paleoclimatol Paleoecol 216:183–188
Williams JC, Basu AR, Bhargava ON, Ahluwalia AD, Hannigan RE (2012) Resolving original signatures from a sea of overprint| - the geochemistry of the Gungri Shale (Upper Permian, Spiti Valley, India). Chem Geol 324:59–72
Zagorchev I, Nakov R (1998) Geological heritage of Europe. Geologica Balcanica special issue 28:3–4
Zeeden C, Mir JA, Vinnepand M, Laag C, Rolf C, Dar RA (2021) Local mineral dust transported by varying wind intensities forms the main substrate for loess in Kashmir. E&G Quat Sci J 70(2):191–195
Acknowledgements
The authors express their sincere thanks to guest editors Prof. M. G. Thakkar, Dept. of Earth and Environmental Science, K.S.K.V. Kachchh University Bhuj, Prof. S. C. Mathur, Suresh Gyan Vihar University Jaipur Rajasthan, and Dr. Gaurav D. Chauhan, Dept. of Earth and Environmental Science, K.S.K.V. Kachchh University Bhuj, for inviting to contribute in this particular issue. Dr. Omar Jaan Paul is acknowledged for his assistance during the field surveys. The authors are also grateful to the anonymous reviewers for insightful suggestions, which have greatly improved the quality of the manuscript.
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JAM conceived the idea and took the lead in writing the manuscript with support from IMB, KOM, and RD. WQ and RD provided critical feedback, helped in fieldwork, prepared figures, and carried out the geomorphic analysis of fluvial-glacial-geomorphic features. All authors contributed and approved the submitted manuscript.
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Mir, J.A., Bhat, I.M., Murtaza, K.O. et al. Geological Heritage of the Kashmir Valley, North-Western Himalaya, India. Geoheritage 15, 26 (2023). https://doi.org/10.1007/s12371-023-00791-3
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DOI: https://doi.org/10.1007/s12371-023-00791-3