SEARCH

SEARCH BY CITATION

References

  • Agrawal, S., P. Sanyal, A. Sarkar, M. K. Jaiswal, and K. Dutta (2012), Variability of Indian monsoonal rainfall over the past 100 ka and its implication for C3–C4 vegetational change, Quat. Res., 77, 159170.
  • Anderson, D. M., J. T. Overpeck, and A. K. Gupta (2002), Increase in the Asian southwest monsoon during the past four centuries, Science, 297, 596599.
  • Banjeree, P. K. (2000), Holocene and Late Pleistocene relative sea level fluctuations along the east coast of India, Marine Geol., 167, 243260.
  • Bar-Matthews, M., A. Ayalon, A. Kaufman, and G. J. Wasserburg (1999), The eastern Mediterranean palaeoclimate as a reflection of regional events: Soreq Cave, Israel, Earth Planet. Sci. Lett., 166, 8595.
  • Breitenbach, S. F. M., J. F. Adkins, H. Meyer, N. Marwan, K. K. Kumar, and G. H. Haug (2010), Strong influence of water vapor source dynamics on stable isotopes in precipitation observed in Southern Meghalaya, NE India, Earth Planet. Sci. Lett., 292, 212220.
  • Burns, S. J., A. Matter, N. Frank, and A. Mangini (1998), Speleothem-based paleoclimate record from northern Oman, Geology, 26(6), 499502.
  • Chauhan, O. S., E. Vogelsang, N. Basavaiah, and U. S. A. Kader (2009), Reconstruction of the variability of the southwest monsoon during the past 3 ka, from the continental margin of the southeastern Arabian Sea, J. Quat. Sci., 25(5), 798807.
  • Clark, I., and P. Fritz (1997), Environmental Isotopes in Hydrology, Lewis Publishers, New York.
  • Cheng, H., A. Sinha, X. Wang, F. W. Cruz, and R. L. Edwards (2012), The global Paleomonsoon as seen through speleothem records from Asia and Americas, Clim. Dyn., 39, 10451062.
  • COHMAP Members (1988), Climatic changes of the last 18,000 years: Observations and model simulations. Science, 241, 10431052.
  • Dansgaard, W. (1964), Stable isotopes in precipitation, Tellus, 4, 436468.
  • Dash, S. K., J. R. Kumar, and M. S. Shekhar (2004), On the decreasing frequency of monsoon depressions over the Indian region, Curr. Sci., 86, 14041411.
  • Desperat, S., M. F. S. Goñi, and M. Loutre (2003), Revealing climatic variability of the last three millennia in northwestern Iberia using pollen influx data, Earth Planet. Sci. Lett, 213, 6378.
  • Enzel, Y., L. L. Ely, S. Mishra, R. Ramesh, R. Amit, B. Lazar, S. N. Rajaguru, V. R. Baker, and A. Sandler (1999), High-resolution Holocene environmental changes in the Thar Desert, Northwestern India, Science, 284, 125128.
  • Fairbanks, R. G. (1989), A 17,000-year glacio-eustatic sea level record: influence of glacial melting rates on the Younger Dryas event and deep-Ocean circulation, Nature, 342, 637642.
  • Fleitmann, D., S. J. Burns, M. Mudelsee, U. Neff, J. Kramers, A. Mangini, and A. Matter (2003a), Holocene forcing of the Indian monsoon recorded in a stalagmite from Southern Oman, Science, 300, 17371739.
  • Fleitmann, D., S. J. Burns, U. Neff, A. Mangini, and A. Matter (2003b), Changing moisture sources over the last 330,000 years in Northern Oman from fluid-inclusion evidence in speleothems, Quat. Res., 60, 223232.
  • Fleitmann, D., S. J. Burns, U. Neff, M. Mudelsee, A. Mangini, and A. Matter (2004), Palaeoclimatic interpretation of high-resolution oxygen isotope profiles derived from annually laminated speleothems from Southern Oman, Quat. Sci. Rev., 23, 935945.
  • Fleitmann, D., S. J. Burns, A. Mangini, M. Mudelsee, J. Kramers, I. Villa, U. Neff, A. A. Al-Subbary, A. Buettner, D. Hippler, A. Matter (2007), Holocene ITCZ and Indian monsoon dynamics recorded in stalagmites from Oman and Yemen (Socotra). Quat. Sci. Rev., 26, 170188.
  • Gadgil, S., M. Rajeevan, and R. Nanjundiah (2005), Monsoon prediction - why yet another failure? Curr. Sci., 88, 13891400.
  • Govil, P., and P. D. Naidu (2011), Variation of Indian Monsoon precipitation during the last 32 kyr reflected in the surface hydrography of the western Bay of Bengal, Quat. Sci. Rev., 30, 38713879.
  • Gupta, A. K., D. M. Anderson, and J. T. Overpeck (2003), Abrupt changes in the Asian southwest monsoon during the Holocene and their links to the North Atlantic Ocean, Nature, 421, 354357.
  • Hendy, C. H. (1971), The isotopic geochemistry of speleothems-I. The calculation of the effects of different modes of formation on the isotopic composition of speleothems and their applicability as paleoclimatic indicators, Geochim. Cosmochim. Acta, 35, 801824.
  • Hughes, M. K., and H. F. Diaz (1994), Was there a ‘Medieval Warm Period’, and if so, where and when? Clim. Change, 26, 109142.
  • India Meteorological Department (1999), Climatological Tables of Observatories in India 1951–1980, National Data Centre, New Delhi.
  • Islam, M. S., and M. J. Tooley (1999), Coastal and sea-level changes during the Holocene in Bangladesh, Quat. Int., 55, 6175.
  • Kotlia, B. S., S. M. Ahmed, J. Zhao, W. Raza, K. D. Collerson, L. M. Joshi, and J. Sanwal (2012), Climatic fluctuations during the LIA and post-LIA in the Kumaun Lesser Himalaya, India: Evidence from a 400 y old stalagmite record, Quat. Int., 263, 129138.
  • Laskar, A. H., S. Raghav, M. G. Yadava, R. A. Jani, A. C. Narayana, and R. Ramesh (2011), Potential of stable carbon and oxygen isotope variations of speleothems from Andaman Islands, India, for paleomonsoon reconstruction, J. Geolog. Res., 2011, doi:10.1155/2011/272971. Available at: http://www.hindawi.com/journals/jgr/2011/272971/.
  • Laskar A. H., M. Midhun, R. Ramesh, J. Burman, R. A. Jani, and M. G. Yadava (2013a), Stable water isotopic compositions of extreme rainfall events in southern Assam, NE India, J. Geophys. Res., submitted.
  • Laskar, A. H., M. G. Yadava, N. Sharma, and R. Ramesh (2013b), Late Holocene climate in the Lower Narmada valley, Gujarat, Western India, inferred using sedimentary carbon and oxygen isotope ratios, The Holocene, 23(8), 11151122.
  • LeGrande, A. N., and G. A. Schmidt (2009), Sources of Holocene variability of oxygen isotopes in paleoclimate archives, Climate Past, 5, 441455.
  • Mann, M. E. (2002a), Medieval climatic optimum, in Encyclopedia of Global Environmental Change, edited by M. C. MacCracken and J. S. Perry, pp. 514516, John Wiley, Chichester, U. K.
  • Mann, M. E. (2002b), Little Ice Age, in Encyclopedia of Global Environmental Change, edited by M. C. MacCracken and J. S. Perry, pp. 504509, John Wiley, Chichester, U. K.
  • Martinez-Cortizas, A., X. Pontedevedra-Pombal, E. Garcia- Rodeja, J. C. Novoa-Munoz, and W. Shotyk (1999), Mercury in a Spanish peat bog archive of climate change and atmospheric metal deposition, Science, 284, 939942.
  • Mook, W. G. (1980), Carbon-14 in hydrological studies, in Handbook of Environmental Isotope Geochemistry 1. The Terrestrial Environment, A, edited by P. Fritz and J. Fontes, pp. 4974, Elsevier, Amsterdam.
  • Neff, U., S. J. Burns, A. Mangini, M. Mudelsee, D. Fleitmann, and A. Matter (2001), Strong coherence between solar variability and the monsoon in Oman between 9 and 6 kyr ago, Nature, 411, 290293.
  • O'Neil, J. R., R. N. Clayton, and T. K. Mayeda (1969), Oxygen isotope fractionation of divalent metal carbonates, J. Chem. Phys., 30, 55475558.
  • Phadtare, N., and R. Pant (2006), A century-scale pollen record of vegetation and climate history during the past 3500 years in the Pinder Valley, Kumaon Higher Himalaya, J. Geol. Soc. India, 68, 495506.
  • Ponton, C., L. Giosan, T. I. Eglinton, D.Q. Fuller, J. E. Johnson, P. Kumar, and T. S. Collett (2012), Holocene aridification of India, Geophys. Res. Lett., 39, L03704, doi:10.1029/2011GL050722.
  • Ramesh, R., M. Tiwari, S. Chakraborty, S. Managave, M. G. Yadava, and D. K. Sinha (2010), Retrieval of south Asian monsoon variation during the Holocene form natural climate archives, Curr. Sci., 99(12), 17701786.
  • Rashid, H., B. P. Flower, R. Z. Poore, and T. M. Quinn (2007), A ∼25 ka Indian Ocean monsoon variability record from the Andaman Sea, Quat. Sci. Rev., 26, 25862597.
  • Reimer, P. J., et al. (2009), IntCal09 and Marine09 Radiocarbon Age Calibration Curves, 0–50,000 Years cal BP, Radiocarbon, 51, 11111150.
  • Richards D. A., and J. A. Dorale (2003), Uranium-series chronology and environmental applications of speleothems, in Uranium Series Geochemistry. Reviews in Mineralogy and Geochemistry, edited by B. Bourdon et al., 52, pp. 407460, Mineralogical Society of America, Washington, D. C.
  • Sano, M., R. Ramesh, M. S. Sheshshayee, and R. Sukumar (2011), Increasing aridity over the past 223 years in the Nepal Himalaya inferred from a tree-ring δ18O chronology, The Holocene, 22(7), 809817.
  • Shakun, J. D., S. J. Burns, D. Fleitmann, J. Kramers, A. Matter, and A. Al-Subary (2007), A highresolution absolute-dated deglacial speleothem record of Indian Ocean climate from Socotra Island, Yemen, Earth Planet. Sci. Lett., 259, 442456.
  • Sharma, S., M. Joachimski, H. Tobschall, H. Singh, C. Sharma, M. Chauhan, and G. Morgenroth (2004), Late glacial and Holocene environmental changes in Ganga plain, northern India, Quat. Sci. Rev., 23, 145159.
  • Sharma, S., M. M. Joachimski, H. J. Tobschall, I. B. Singh, C. Sharma, and M. S. Chauhan (2006), Correlative evidences of monsoon variability, vegetation change and human inhabitation in Sanai lake deposit: Ganga Plain, India, Curr. Sci., 90, 973978.
  • Sharp, Z. (2007), Principles of Stable Isotope Geochemistry, Prentice Hall, Upper Saddle River, N. J.
  • Shen, C., R. L. Edwards, H. Cheng, J. Dorale, R. B. Thomas, S. B. Moran, S. E. Weinstein, and H. N. Edmonds (2002), Uranium and thorium isotopic and concentration measurements by magnetic sector inductively coupled plasma mass spectrometry, Chem. Geol., 185, 165178.
  • Sinha, A., K. G. Cannariato, L. D. Stott, H. Cheng, R. L. Edwards, M. G. Yadava, R. Ramesh, and I. B. Singh (2007), A 900-year (600 to 1500 A.D.) record of the Indian summer monsoon precipitation from the core monsoon zone of India, Geophys. Res. Lett., 34, L16707, doi:10.1029/2007GL030431.
  • Stuiver, M., and P. J. Reimer (1993), Extended 14C data base and revised CALIB 3.0 14C age calibration program, Radiocarbon, 35, 215230.
  • Tiwari, M., R. Ramesh, B. L. K. Somayajulu, A. J. T. Jull, and G. S. Burr (2005), Early deglacial (∼19-17 ka) strengthening of the northeast monsoon, Geophys. Res. Lett., 32, L19712, doi:10.1029/2005GL024070.
  • Tiwari, M., R. Ramesh, M. G. Yadava, B. L. K. Somayajulu, A. J. T. Jull, and S. Burr (2006), Is there a persistent control of monsoon winds by precipitation during the late Holocene? Geochem. Geophys. Geosys, 7, Q03001, doi:10.1029/2005GC001095.
  • Vollweiler, N., D. Scholz, C. Mühlinghaus, A. Mangini, and C. Spötl (2006), A precisely dated climate record for the last 9 kyr from three high alpine stalagmites, Spannagel Cave, Austria, Geophys. Res. Lett., 33, L20703, doi:10.1029/2006GL027662.
  • vonRad, U., M. Schaaf, K. H. Michels, H. Schulz, W. H. Berger, and F. Sirocko (1999), A 5000-yr record of climate change in varved sediments from the oxygen minimum zone off Pakistan, Northeastern Arabian Sea, Quat. Res., 51, 3953.
  • Wang, T., D. Surge, and K. J. Walker (2013), Seasonal climate change across the Roman Warm Period/Vandal Minimum transition using isotope sclerochronology in archaeological shells and otoliths, southwest Florida, USA, Quat. Int., doi:10.1016/j.bbr.2011.03.031, in press.
  • Yadav, R., and J. Singh (2002), Tree-ring-based spring temperature patterns over the past four centuries in western Himalaya, Quat. Res., 57, 299305.
  • Yadava, M. G., and R. Ramesh (1999), Speleothems—Useful proxies for past monsoon rainfall, J. Sci. Ind. Res., 58, 339348.
  • Yadava, M. G., R. Ramesh, and G. B. Pant (2004), Past monsoon rainfall variations in peninsular India recorded in a 331-year-old speleothem, The Holocene, 14, 517524.
  • Yadava, M. G., and R. Ramesh (2005), Monsoon reconstruction from radiocarbon dated tropical Indian Speleothem, The Holocene, 15, 4859.
  • Yadava, M. G., R. Ramesh, and K. Pandarinath (2007), A positive ‘amount effect’ in the Sahayadri (Western Ghats) rainfall, Curr. Sci., 93, 560564.
  • Yoshimura, K., M. Kanamitsu, D. Noone, and T. Oki (2008), Historical isotope simulation using reanalysis atmospheric data, J. Geophys. Res., 113, D19108, doi:10.1029/2008JD010074.
  • Yurtsever, Y., and J. R. Gat (1981), Atmospheric waters, in Stable Isotope Hydrology: Deuterium and Oxygen- 18 in the Water Cycle, edited by J. R. Gat and R. Gonfiantini, pp. 103139, IAEATech series, International Atomic Energy Agency, Vienna.