Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Renewal of Tidal Forests in Washington State after a Subduction Earthquake in A.D. 1700
View through CrossRef
AbstractWith few exceptions, today's tidal trees near Washington's Pacific coast postdate an earthquake that lowered the region by 1 m or more. The earthquake, which occurred in A.D. 1700, is the most recent to have ruptured much of the plate boundary at this central part of the Cascadia subduction zone. Because of the coseismic subsidence, lowland forests became tidal flats where thousands of trees died. Most of the trees killed were Sitka spruce (Picea sitchensis). In the centuries since the earthquake, tidal deposits have built new land that has been colonized by new Sitka spruce. All but several tens of the region's tidal spruce consequently postdate 1700, as shown by counts of annual rings in 121 of the largest spruce in tidal forests at Copalis River, Grays Harbor, and Willapa Bay. Forests began to return to each of these estuaries in the early 1700s and spread seaward in the late 1700s and 1800s. Annual rings in the oldest of the trees thus record a large fraction of the earthquake-recurrence interval that began with the 1700 earthquake.
Cambridge University Press (CUP)
Title: Renewal of Tidal Forests in Washington State after a Subduction Earthquake in A.D. 1700
Description:
AbstractWith few exceptions, today's tidal trees near Washington's Pacific coast postdate an earthquake that lowered the region by 1 m or more.
The earthquake, which occurred in A.
D.
1700, is the most recent to have ruptured much of the plate boundary at this central part of the Cascadia subduction zone.
Because of the coseismic subsidence, lowland forests became tidal flats where thousands of trees died.
Most of the trees killed were Sitka spruce (Picea sitchensis).
In the centuries since the earthquake, tidal deposits have built new land that has been colonized by new Sitka spruce.
All but several tens of the region's tidal spruce consequently postdate 1700, as shown by counts of annual rings in 121 of the largest spruce in tidal forests at Copalis River, Grays Harbor, and Willapa Bay.
Forests began to return to each of these estuaries in the early 1700s and spread seaward in the late 1700s and 1800s.
Annual rings in the oldest of the trees thus record a large fraction of the earthquake-recurrence interval that began with the 1700 earthquake.
Related Results
Quantitative Analysis of Shallow Earthquake Sequences and Regional Earthquake Behavior: Implications for Earthquake Forecasting
Quantitative Analysis of Shallow Earthquake Sequences and Regional Earthquake Behavior: Implications for Earthquake Forecasting
<p>This study is a quantitative investigation and characterization of earthquake sequences in the Central Volcanic Region (CVR) of New Zealand, and several regions in New Zea...
Quantitative Analysis of Shallow Earthquake Sequences and Regional Earthquake Behavior: Implications for Earthquake Forecasting
Quantitative Analysis of Shallow Earthquake Sequences and Regional Earthquake Behavior: Implications for Earthquake Forecasting
<p>This study is a quantitative investigation and characterization of earthquake sequences in the Central Volcanic Region (CVR) of New Zealand, and several regions in New Zea...
Responses of the Earthquake Engineering Research Community to the Chi-Chi (Taiwan) Earthquake
Responses of the Earthquake Engineering Research Community to the Chi-Chi (Taiwan) Earthquake
In the early morning of 21 September 1999, a devastating earthquake struck the central region of Taiwan. This earthquake became known as the “Chi-Chi” Taiwan earthquake. Immediatel...
How Terms Shape Forests: 'Niederwald', 'Mittelwald' and 'Hochwald', and their Interaction with Forest Development in the Canton of Zurich, Switzerland
How Terms Shape Forests: 'Niederwald', 'Mittelwald' and 'Hochwald', and their Interaction with Forest Development in the Canton of Zurich, Switzerland
Changes in forests are influenced by, and themselves influence, such local conditions as soil, climate and exposure, and also the demands put on the forests by society. Forestry ha...
Discordant 14C Ages from Buried Tidal-Marsh Soils in the Cascadia Subduction Zone, Southern Oregon Coast
Discordant 14C Ages from Buried Tidal-Marsh Soils in the Cascadia Subduction Zone, Southern Oregon Coast
AbstractPeaty, tidal-marsh soils interbedded with estuarine mud in late Holocene stratigraphic sequences near Coos Bay, Oregon, may have been submerged and buried during great (M &...
Designing with ‘direct democracy’
Designing with ‘direct democracy’
In the 1970s and ’80s residents and architects in Amsterdam worked together to shape the renewal of their neighbourhood. Working outside traditional planning constraints they initi...
Tsunami Deposits Beneath Tidal Marshes on Northwestern Vancouver Island, British Columbia
Tsunami Deposits Beneath Tidal Marshes on Northwestern Vancouver Island, British Columbia
AbstractTwo sand sheets underlying tidal marshes at Fair Harbour, Neroutsos Inlet, and Koprino Harbour on the northwestern coast of Vancouver Island, British Columbia, were probabl...
FEAR AND HEALING: SENECA, CAECILIUS IUCUNDUS, AND THE CAMPANIAN EARTHQUAKE OF 62/63ce
FEAR AND HEALING: SENECA, CAECILIUS IUCUNDUS, AND THE CAMPANIAN EARTHQUAKE OF 62/63ce
The earthquake of 62/63cewas a catastrophic event for Pompeii and Campania. The destruction and death toll were extensive and it is clear that the city of Pompeii was still recover...