Geologic evidence northeast of Puerto Rico for an Atlantic tsunami in the last 500 years

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Title:		Geologic evidence northeast of Puerto Rico for an Atlantic tsunami in the last 500 years
Authors:		Atwater, B. F.; Tuttle, M. P.
Affiliation:		AA(USGS at ESS, Univ of Wash 351310, Seattle, WA 98195, United States ; ), AB(M Tuttle & Assoc, HC 33 Box 48, Georgetown, ME 04548, United States ; )
Publication:		American Geophysical Union, Fall Meeting 2008, abstract #OS53B-1310
Publication Date:		12/2008
Origin:		AGU
AGU Keywords:		3022 Marine sediments: processes and transport, 4564 Tsunamis and storm surges, 4950 Paleoecology, 7221 Paleoseismology (8036), 7240 Subduction zones (1207, 1219, 1240)
Abstract Copyright:		(c) 2008: American Geophysical Union
Bibliographic Code:		2008AGUFMOS53B1310A

Abstract

A historical tsunami of undetermined origin best explains a suite of probably related features at Anegada, British Virgin Islands: shore-normal scours, fields of cobbles and boulders, a horizon of sand and shell, and salt ponds. Anegada's exposed location and low-lying landscape make the island a natural tsunami recorder. Facing the Puerto Rico Trench at the northeast corner of the Caribbean, barely 10 km from the top of the continental slope, Anegada can receive tsunamis almost directly from the open North Atlantic. The island's highest ground consists of a limestone platform that crests 8 m above sea level. Many of Anegada's shores adjoin beach ridges, composed of distinctively pink bioclastic sand, that stand less than 5 m above sea level. Behind the ridges are salt ponds that rarely rise above high tide levels of the surrounding sea. The island's name, coined in 1493 during Columbus's second voyage, means "drowned." Local eyewitnesses to Hurricane Donna, at category 4 when its eye crossed Anegada in 1960, recounted no storm-caused versions of the following features: SCOURS. Dozens of coast-normal scours cut across beach ridges of the island's north-central shore. The largest of them holds a pond 200 m long and a few tens of meters wide. The scours are better explained by overwash of the ridges than by inheritance of any pre-existing carbonate landform; they differ in size and shape from spurs and grooves of the island's barrier reef and from the sinkholes of the limestone platform. More than one time of overwash is permitted by differences among the headward limits of the scours. COBBLES AND BOULDERS. Inland from the scours, as much as 1 km inland of Anegada's north-central shore, fields of limestone cobbles and boulders extend tens of meters southward from limestone knolls. Like the scours, they imply overwash from the north. SAND AND SHELL BED. An event horizon as much as 25 cm thick probably extends 2 km southward beneath bottom sediments and fringing microbial mats of the main salt pond studied (Bumber Well Pond). The horizon contains a basal northern unit of pink bioclastic sand that probably relates to the cutting of scours or to enlargement of pre- existing scours in the beach ridges to the north. The horizon also contains a widespread unit of marine molluscan shells that extends as float onto the limestone platform. SALT PONDS. The sand and shell horizon marks an event that changed the island's interior water bodies from nearly marine to hypersaline. The nearly marine conditions are recorded by mollusk-rich lagoonal mud below the event horizon, while the hypersaline conditions are marked mollusk-free salt-pond deposits above. The salinity change probably resulted from choking of the lagoon's likely inlet (or inlets) on Anegada's south side. A tsunami from the north, after scouring beach ridges and moving cobbles and boulders, probably also built sandy fans into the former inlet(s). This inferred tsunami probably postdates 1460-1620 C.E., the two-sigma range corresponding to the youngest radiocarbon age obtained on individual detrital shells in the event horizon. Potential correlates, in addition to earthquakes along the Puerto Rico Trench, include the transatlantic tsunami associated with the 1755 Lisbon earthquake. This work is part of Nuclear Regulatory Commission project N6480, a tsunam-hazard assessment for the eastern United States. We especially thank, in addition, Cindy Rolli of BVI Disaster Management and field assistant Caitlin Herlihy.

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