@article {2124, title = {Late-Quaternary lowstands of Lake Titicaca: evidence from high-resolution seismic data}, journal = {Palaeogeography Palaeoclimatology Palaeoecology}, volume = {179}, year = {2002}, note = {560qxTimes Cited:31 Cited References Count:33 }, month = {Apr 15}, pages = {97-111}, abstract = {Approximately 600 km of high-resolution seismic reflection data were collected to investigate the late-Quaternary stratigraphic development of Lake Titicaca. The focus of this report is on two seismic sequence boundaries, which are interpreted as erosional surfaces formed at times of low lake level. The younger erosional surface occurs as much as 90 in below the present lake level and up to 8 in below the present sediment-water interface. This erosional surface is interpreted to be coeval with a well-documented early- to mid-Holocene lowstand, dated between similar to 8000 and 3600 cal yr BP. An earlier and previously unknown erosional surface occurs at a sub-bottom depth of approximately 30 m, and as much as 240 in below the present lake level, which implies a major late-Pleistocene lowstand of Lake Titicaca. By extrapolation of sedimentation rates from the upper similar to 14 in of sediment, we estimate the age of this older lowstand at > 90 000 cal yr BP. Both lowstands of Lake Titicaca indicated by the seismic data are likely to have been a response to climatic change in the region. (C) 2002 Elsevier Science B.V. All rights reserved.}, keywords = {Andes, bolivian altiplano, central andes, climatic-change, Holocene, lacustrine, lake level change, lake titicaca, level, malawi, Peru, record, seismic reflection data, tropical paleoclimate, tropical south-america}, isbn = {0031-0182}, doi = {10.1016/S0031-0182(01)00411-4}, author = {D{\textquoteright}Agostino, K. and Seltzer, G. and Baker, P. and Fritz, S. and Dunbar, R.} }