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Saxena, A., & Singh, D. S. (2017). Multiproxy Nikahari Tal 26.206278 84.006556 586 0 Lake 3 Radiocarbon records of vegetation and monsoon variability Sediments 2 from Trivedi et al from the lacustrine sediments of eastern 2011 Ganga Plain since 1350 AD. Quaternary International, 444, 24-34. Chauhan, M. S., Kumar, K., Quamar, M. F., & Nitaya Lake 22.683333 77.700000 11950 3030 Lake 5 Radiocarbon Sharma, A. (2013). Correlation of data on loss- Sediments on-ignition and palynology for Late Quaternary climate change in southwestern Madhya Pradesh, India. Current Science(Bangalore), 104(3), 299-301. Quamar, M. F., & Chauhan, M. S. (2012). Late Nitaya Lake 22.666667 77.700000 11950 3030 Lake 5 Radiocarbon Quaternary vegetation, climate as well as lake- Sediments level changes and human occupation from Nitaya area in Hoshangabad District, southwestern Madhya Pradesh (India), based on pollen evidence. Quaternary International, 263, 104-113. Chauhan, M. S., Sharma, A., Phartiyal, B., & Padauna Swamp 22.680050 81.758600 7500 2800 Swamp 3 Radiocarbon Kumar, K. (2013). Holocene vegetation and Sediments climatic variations in central India: a study based on multiproxy evidences. Journal of Asian Earth Sciences, 77, 45-58. Dixit, Y., Hodell, D. A., Sinha, R., & Petrie, C. paleolake Riwasa 28.789333 75.956833 11000 6400 Lake 6 Radiocarbon A. Sediments (2014). Abrupt weakening of the Indian summer monsoon at 8.2 kyr BP. Earth and Planetary Science Letters, 391, 16-23.

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Trivedi, A., Singh, D. S., Chauhan, M. S., Arya, Ropan Chhapra 26.050000 83.966667 1100 100 Lake 2 Radiocarbon A., Sediments Bhardwaj, V., & Awasthi, A. (2011). Vegetation and climate change around Ropan Chhapra Tal in Deoria District, Central Ganga Plain during the last 1350 years. J Palaeontol Soc India, 56(1), 39-43.

Singh, D. S., Gupta, A. K., Sangode, S. J., Ropan Chhapra Tal 26.190758 84.045774 1469 734 Lake 3 Radiocarbon Clemens, S. C., Prakasam, M., Srivastava, P., Sediments & Prajapati, S. K. (2015). Multiproxy record of monsoon variability from the Ganga Plain during 400–1200 AD. Quaternary International, 371, 157-163. Chakraborty, S., Bhattacharya, S. K., Rukti valley, Baspa 31.416667 78.266667 10450 1011 River 3 Radiocarbon Ranhotra, P. S., Bhattacharyya, A., & Bhushan, Sediments R. (2006). Palaeoclimatic scenario during Holocene around Sangla valley, Kinnaur northwest Himalaya based on multi proxy records. Current Science (00113891), 91(6). Ranhotra, P. S., & Bhattacharyya, A. (2010). Rukti valley, Baspa 31.416667 78.266667 10450 1011 River 3 Radiocarbon Holocene palaeoclimate and glacier Sediments fluctuations within Baspa valley, Kinnaur, Himachal Pradesh. Journal of the Geological Society of India, 75(3), 527-532. Ranhotra, P. S., Sharma, J., Bhattacharyya, A., Rukti valley, Baspa 31.500000 78.416667 16600 3500 Lake 3 2 AMS C14, 1 Basavaiah, N., & Dutta, K. (2018). Late Sediments Radiocarbon Pleistocene-Holocene vegetation and climate from the palaeolake sediments, Rukti valley, Kinnaur, Himachal Himalaya. Quaternary International, 479, 79-89. Saxena, A., Singh, I., & Agarwal, P. Sanai Tal 26.200000 81.066667 15000 1500 Lake 6 Radiocarbon Palaeoecological implication of ostracod and Sediments gastropod assemblages of Holocene lake records from the ganga plain. Journal of the Paleontological Society of India. 56 (2), December 2011: 149-163 Sharma, S., Joachimski, M., Sharma, M., Sanai Tal 26.200000 81.066667 14833 1705 Lake 6 Radiocarbon Tobschall, H. J., Singh, I. B., Sharma, C., ... & Sediments Morgenroth, G. (2004). Lateglacial and Holocene environmental changes in Ganga plain, Northern India. Quaternary Science Reviews, 23(1-2), 145-159. 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D., Bhushan, R., Shakti Bet 69° 29′54′′E 24.062778 69.498333 6000 0 salt marsh 13 TL, U/Th, Thakker, P. S., Thakkar, M. G., & Juyal, N. Radiocarbon (2012). Mid-Holocene sedimentation and landscape evolution in the western Great Rann of Kachchh, India. Geomorphology, 151, 89-98. Sandeep, K., Shankar, R., Warrier, A. K., Shantisagara lake 14.142778 75.882222 11100 0 Lake 3 AMS C14 Yadava, M. G., Ramesh, R., Jani, R. A., ... & Sediments Xuefeng, L. (2017). A multi-proxy lake sediment record of Indian summer monsoon variability during the Holocene in southern India. Palaeogeography, palaeoclimatology, palaeoecology, 476, 1-14. Govil, P., & Naidu, P. D. (2011). SK 218/1 14.035000 82.002000 32000 300 Marine 8 AMS C14 Variations of Indian monsoon precipitation Sediments during the last 32 kyr reflected in the surface hydrography of the Western Bay of Bengal. Quaternary Science Reviews, 30(27-28), 3871- 3879. Bhattacharyya, A., Mehrotra, N., & Shah, S. K. South Srinagar, 22.980000 91.690000 7784 4100 River 3 Radiocarbon (2011). Holocene vegetation and climate of Sediments south Tripura based on palynological analysis. Journal of the Geological Society of India, 77(6), 521-526. Bera, S. K., & Basumatary, S. K. (2013). Subansiri 27.516667 94.266667 12500 4270 River 4 Radiocarbon Vegetation history and monsoonal fluctuations Sediments during the last 12,500 years BP inferred from pollen record at Lower Subansiri Basin, Assam, Northeast India. The Palaeobotanist 62: 1– 100031–0174/2013 Trivedi, A., & Chauhan, M. S. (2009). Holocene Surinsar Lake 32.750000 75.033333 8560 560 Lake 5 Radiocarbon vegetation and climate fluctuations in northwest Sediments Himalaya, based on pollen evidence from Surinsar Lake, Jammu region, India. Journal of the Geological Society of India, 74(3), 402. Warrier, A. K., Sandeep, K., & Shankar, R. Thimmannanayakanakere 14.203878 76.397342 3750 0 Lake 2 Radiocarbon (2017). Climatic periodicities recorded in lake Lake Sediments sediment magnetic susceptibility data: Further evidence for solar forcing on Indian summer monsoon. Geoscience Frontiers, 8(6), 1349- 1355. Shankar, R., Prabhu, C. N., Warrier, A. K., Thimmannanayakanakere 14.203878 76.397342 3750 0 Lake 2 Radiocarbon Vijaya Kumar, G. T., & Sekar, B. (2006). A Lake Sediments multi-decadal rock magnetic record of monsoonal variations during the past 3,700 years from a tropical Indian tank. Journal of the Geological Society of India, 68(3), 447-459. Warrier, A. K., & Shankar, R. (2009). Thimmannanayakanakere 14.203878 76.397342 3750 0 Lake 2 Radiocarbon Geochemical evidence for the use of magnetic Lake Sediments susceptibility as a paleorainfall proxy in the tropics. Chemical Geology, 265(3-4), 553-562. Warrier, A. K., Shankar, R., & Sandeep, K. Thimmannanayakanakere 14.203878 76.397342 3750 0 Lake 2 Radiocarbon (2014). Sedimentological and carbonate data Lake Sediments evidence for lake level variations during the past 3700 years from a southern Indian lake. Palaeogeography, palaeoclimatology, palaeoecology, 397, 52-60. Sinha, A., Cannariato, K. G., Stott, L. D., Li, H. Timta Cave 29.838056 82.033611 15215 11665 Speleothe 22 230Th MSICPMS C., You, C. F., Cheng, H., ... & Singh, I. B. m (2005). Variability of Southwest Indian summer monsoon precipitation during the Bølling- Allerød. Geology, 33(10), 813-816. Bali, R., Chauhan, M. S., Mishra, A. K., Ali, S. Triloknath palaeolake 32.666028 76.674722 6300 500 Lake 4 2 AMS C14, 2 OSL N., Tomar, A., Khan, I., ... & Srivastava, P. Sediments (2017). Vegetation and climate change in the temperate-subalpine belt of Himachal Pradesh since 6300 cal. yrs. BP, inferred from pollen evidence of Triloknath palaeolake. Quaternary International, 444, 11-23.

Srivastava, J., & Farooqui, A. (2013). Late TS Pettai mangrove 11.416667 79.800000 3630 500 Coastal 4 Radiocarbon Holocene mangrove dynamics and coastal wetland Sediments environmental changes in the Northeastern Cauvery River Delta, India. Quaternary international, 298, 45-56. Demske, D., Tarasov, P. E., Wünnemann, B., Tso Kar 33.166667 78.000000 15000 -55 Lake 32 AMS C14 & Riedel, F. (2009). Late glacial and Holocene Sediments vegetation, Indian monsoon and westerly circulation in the Trans-Himalaya recorded in the lacustrine pollen sequence from Tso Kar, , NW India. Palaeogeography, Palaeoclimatology, Palaeoecology, 279(3-4), 172-185. Leipe, C., Demske, D., Tarasov, P. E., & 32.929444 78.323333 12000 0 Lake 6 AMS C13 Members, H. P. (2014). A Holocene pollen Sediments record from the northwestern Himalayan lake Tso Moriri: implications for palaeoclimatic and archaeological research. Quaternary International, 348, 93-112. Mishra, P. K., Anoop, A., Schettler, G., Prasad, Tso moriri 32.320000 78.320000 27000 0 Lake 13 AMS C14 S., Sediments Jehangir, A., Menzel, P., ... & Wiesner, M. G. (2015). Reconstructed late Quaternary hydrological changes from Lake Tso Moriri, NW Himalaya. Quaternary International, 371, 76-86. Mishra, P. K., Prasad, S., Anoop, A., Plessen, Tso moriri 32.320000 78.320000 27000 0 Lake 13 AMS C14 B., Sediments Jehangir, A., Gaye, B., ... & Yousuf, A. R. (2015). Carbonate isotopes from high altitude Tso Moriri Lake (NW Himalayas) provide clues to late glacial and Holocene moisture source and atmospheric circulation changes. Palaeogeography, Palaeoclimatology, Palaeoecology, 425, 76-83. Prasad, S., Mishra, P. K., Menzel, P., Gaye, B., Tso moriri 32.320000 78.320000 27000 0 Lake 13 AMS C15 Jehangir, A., & Yousuf, A. R. (2016). Testing Sediments the validity of productivity proxy indicators in high altitude Tso Moriri Lake, NW Himalaya (India). Palaeogeography, palaeoclimatology, palaeoecology, 449, 421-430. Srivastava, J., & Farooqui, A. (2014). Uppanar river mouth 11.433333 79.800000 3260 200 Coastal 3 Radiocarbon Environmental impact on coastal wetlands Pollen since 4 ka in Cauvery Delta: Palynology and thecamoebian study. Journal of the Geological Society of India, 84(4), 459-466. Banerji, U. S., Pandey, S., Bhushan, R., & Vasoj village 20.750472 71.003972 4710 2000 River 3 1 AMS C14, 2 Juyal, N. (2015). Mid-Holocene climate and Sediments Radiocarbon land–sea interaction along the southern coast of Saurashtra, western India. Journal of Asian Earth Sciences, 111, 428-439. Farooqui, A., Ray, J. G., Farooqui, S. A., Vazhapally 8.583333 76.500000 41000 1600 Lake 4 an isothermal Tiwari, R. K., & Khan, Z. A. (2010). Sediments plateau fissiontrack Tropical rainforest vegetation, climate and sea age on glass in level during the Pleistocene in Kerala, India. Malaysia of Quaternary International, 213(1-2), 2-11. 68000+/-7000 a (Chesner et al., 1991) and by the O- isotope chronology at the stage 5.1/4 boundary (74,000+/-7000 a) in deep sea cores (Ninkovich et al., 1978; Rampino and Self, 1993). Veena, M. P., Achyuthan, H., Eastoe, C., & Vellayani Lake 8.400000 76.983333 3464 0 Lake 5 Radiocarbon Farooqui, A. (2014). Sediments Human impact on low-land Vellayani Lake, south India: A record since 3000 yrs BP. Anthropocene, 8, 83-91. Veena, M. P., Achyuthan, H., Eastoe, C., & Vellayani lake, Kerela 8.400000 76.983333 3000 0 Lake 5 Radiocarbon Farooqui, A. (2014). Human impact on low-land Sediments Vellayani Lake, south India: A record since 3000 yrs BP. Anthropocene, 8, 83-91. Prasad, V., Farooqui, A., Sharma, A., Phartiyal, Wadhavana 22.170794 73.483856 7500 1297 Lake 3 Radiocarbon B., Sediments Chakraborty, S., Bhandari, S., ... & Singh, A. (2014). Mid–late Holocene monsoonal variations from mainland Gujarat, India: A multi-proxy study for evaluating climate culture relationship. Palaeogeography, Palaeoclimatology, Palaeoecology, 397, 38-51.

Ghosh, R., Paruya, D. K., Khan, M. A., Ziro 27.533333 93.816667 19500 1200 Lake 4 2 Radiocarbon and Chakraborty, S., Sarkar, A., & Bera, S. (2014). Sediments 2 IRSL Late Quaternary climate variability and vegetation response in Ziro Lake Basin, Eastern Himalaya: A multiproxy approach. Quaternary International, 325, 13-29.