Thin sheets of sand and gravel occur within a sequence of fine organic-rich
sediments at Catala Lake, off the west coast of Vancouver Island, British
Columbia. The uppermost of these coarse sheets thins and fines landward awa
y from the lake outlet, consistent with deposition by a tsunami. This coars
e sediment sheet has been radiocarbon dated to some time after AD 1655; we
suggest that it was deposited in 1700 by the tsunami of the last great eart
hquake at the Cascadia subduction zone. Abundant plant macrofossils, derive
d from nearby forest, are present within and on top of the sand and gravel
layer, suggesting that the tsunami transported forest-floor litter, mosses,
and seeds into Catala Lake. Deposition coincided with abrupt changes in di
atom and foraminifera communities in the lake. The post-tsunami diatom asse
mblage is more marine in character than the immediate pre-tsunami assemblag
e, and the foraminifera community became more diverse after the tsunami. Th
ese changes are due either to coseismic subsidence or erosion of the outlet
by the tsunami, which increased tidal exchange between the sea and the lag
oon that was the precursor to Catala Lake. Older coarse sediment layers in
cores from Catala Lake and the bordering marsh may also be tsunami deposits
. One of these layers is about 1,000 years old and dates to the time of the
penultimate great Cascadia earthquake.