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Some fundamental misconceptions about paleotempestology

Published online by Cambridge University Press:  20 January 2017

Kam-biu Liu*
Affiliation:
Department of Oceanography and Coastal Sciences, School of the Coast and Environment, Louisiana State University, Baton Rouge, LA 70803, USA
Houyuan Lu
Affiliation:
Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing 100029, China
Caiming Shen
Affiliation:
Atmospheric Sciences Research Center, University at Albany, SUNY, Albany, NY 12203, USA
*
Corresponding author. Email Address:[email protected]
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Abstract

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Type
Letter to the Editor
Copyright
University of Washington

References

Bianchette, T., (2007). Using Hurricane Ivan as a modern analog in paleotempestology: lake sediment studies and environmental analysis in Gulf Shores, Alabama. M.S. Thesis, Louisiana State University, 125 p.Google Scholar
Donnelly, J.P. Evidence of past intense tropical cyclones from backbarrier salt pond sediments: a case study from Isla de Culebrita, Puerto Rico, USA. Journal of Coastal Research SI42, (2005). 201210.Google Scholar
Donnelly, J.P., Webb, T. III Backbarrier sedimentary records of intense hurricane landfalls in the northeastern United States. Murnane, R.J., and Liu, K.-b. Hurricanes and Typhoons: Past, Present, and Future. (2004). Columbia University Press, New York. 5896.Google Scholar
Donnelly, J.P., and Woodruff, J.D. Intense hurricane activity over the past 5,000 years controlled by El Niño and the West African Monsoon. Nature 447, (2007). 465468.Google Scholar
Donnelly, J.P., Bryant, S.S., Butler, J., Dowling, J., Fan, L., Hausmann, N., Newby, P., Shuman, B., Stern, J., Westover, K., Webb, T. III A 700 yr sedimentary record of intense hurricane landfalls in southern New England. Geological Society of America Bulletin 113, (2001). 714727.2.0.CO;2>CrossRefGoogle Scholar
Donnelly, J.P., Roll, S., Wengren, M., Butler, J., Lederer, R., Webb, T. III Sedimentary evidence of intense hurricane strikes from New Jersey. Geology 29, (2001). 615618.Google Scholar
Donnelly, J.P., Butler, J., Roll, S., Wengren, M., Webb, T. III A backbarrier overwash record of intense storms from Brigantine, New Jersey. Marine Geology 210, (2004). 107121.CrossRefGoogle Scholar
Elsner, J.B., Jagger, T.H., and Liu, K.-b. Comparison of hurricane return levels using historical and geological records. Journal of Applied Meteorology and Climatology 47, (2008). 368374.Google Scholar
Lambert, W.J., Aharon, P., and Rodriguez, A.V. Catastrophic hurricane history revealed by organic geochemical proxies in coastal lake sediments: a case study of Lake Shelby, Alabama (USA). Journal of Paleolimnology 39, (2008). 117131.Google Scholar
Liu, K.-b. Paleotempestology: principles, methods, and examples from Gulf coast lake-sediments. Murnane, R., and Liu, K.-b. Hurricanes and Typhoons: Past, Present, and Future. (2004). Columbia University Press, New York. 1357.Google Scholar
Liu, K.-b. Uncovering prehistoric hurricane activity. American Scientist 95, (2007). 126133.Google Scholar
Liu, K.-b. Paleotempestology. Elias, S.A. Encyclopedia of Quaternary Science. (2007). Elsevier, Oxford. 19781986.Google Scholar
Liu, K.-b., and Fearn, M.L. Lake-sediment record of late Holocene hurricane activities from coastal Alabama. Geology 21, (1993). 793796.Google Scholar
Liu, K.-b., and Fearn, M.L. Reconstruction of prehistoric landfall frequencies of catastrophic hurricanes in NW Florida from lake sediment records. Quaternary Research 54, (2000). 238245.Google Scholar
Liu, K.-b., and Fearn, M.L. Lake sediment evidence of coastal geologic evolution and hurricane history from Western Lake, Florida: reply to Otvos. Quaternary Research 57, (2002). 429431.CrossRefGoogle Scholar
Liu, K.-b., Lu, H.Y., and Shen, C.M. A 1,200-year proxy record of hurricanes and fires from the Gulf of Mexico coast: testing the hypothesis of hurricane–fire interactions. Quaternary Research 69, (2008). 2941.Google Scholar
Lu, H.Y., and Liu, K.-b. Phytolith indicators of coastal environmental changes and hurricane overwash deposition. The Holocene 15, (2005). 965972.Google Scholar
Nott, J. Palaeotempestology: the study of prehistoric tropical cyclones—a review and implications for hazard assessment. Environment International 30, (2004). 433447.CrossRefGoogle Scholar
Otvos, E.G. Quaternary coastal history, basin geometry and assumed evidence for hurricane activity, northeastern Gulf of Mexico coastal plain. Journal of Coastal Research 15, (1999). 438443.Google Scholar
Otvos, E.G. Discussion of “Prehistoric landfall frequencies of catastrophic hurricanes…” (Liu and Fearn, 2000). Quaternary Research 57, (2002). 425428.CrossRefGoogle Scholar
Scileppi, E., and Donnelly, J.P. Sedimentary evidence of hurricane strikes in western Long Island, New York. Geochemistry, Geophysics, Geosystems 8, (2007). Q06011 http://dx.doi.org/10.1029/2006GC001463 Google Scholar
Woodruff, J.D., Donnelly, J.P., Mohrig, D., and Geyer, W.R. Reconstructing relative flooding intensities responsible for hurricane-induced deposits from Laguna Playa Grande, Vieques, Puerto Rico. Geology 36, (2008). 391394.Google Scholar