Details
Original language | English |
---|---|
Pages (from-to) | 1107-1110 |
Number of pages | 4 |
Journal | GEOLOGY |
Volume | 35 |
Issue number | 12 |
Publication status | Published - Dec 2007 |
Externally published | Yes |
Abstract
Along the eastern front of the Teton Range, Wyoming, prominent fault scarps offset Pinedale deposits by up to 30 m and document that multiple earthquakes ruptured the range-bounding Teton normal fault after the last glacial period. Paleoseismological data suggest that ∼70% of the postglacial slip on the southern Teton fault accumulated during or shortly after deglaciation, before 8 ka. Here, we use a three-dimensional finite-element model to show that melting of the Yellowstone ice cap and the valley glaciers in the Teton Range may have caused the postglacial slip-rate increase on the Teton fault. During deglaciation, slip on our model fault accelerates by a factor of -6 with respect to the long-term rate. Our model further shows that the impact of the melting Yellowstone ice cap on fault slip increases along-strike of the fault from south to north and is everywhere larger than the effect of the former valley glaciers in the Teton Range. The results demonstrate that postglacial slip on faults in glaciated regions may not have been uniform through time. Rather, a significant fraction of slip may have accumulated within a few thousand years after the last glaciation. We hypothesize that the rebound caused by the Yellowstone ice cap has also triggered clusters of earthquakes on other normal faults in the surrounding Basin and Range Province.
Keywords
- Fault, Glacier, Numerical modeling, Slip rate
ASJC Scopus subject areas
- Earth and Planetary Sciences(all)
- Geology
Cite this
- Standard
- Harvard
- Apa
- Vancouver
- BibTeX
- RIS
In: GEOLOGY, Vol. 35, No. 12, 12.2007, p. 1107-1110.
Research output: Contribution to journal › Article › Research › peer review
}
TY - JOUR
T1 - Postglacial slip-rate increase on the Teton normal fault, northern Basin and Range Province, caused by melting of the Yellowstone ice cap and deglaciation of the Teton Range?
AU - Hampel, Andrea
AU - Hetzel, Ralf
AU - Densmore, Alexander L.
PY - 2007/12
Y1 - 2007/12
N2 - Along the eastern front of the Teton Range, Wyoming, prominent fault scarps offset Pinedale deposits by up to 30 m and document that multiple earthquakes ruptured the range-bounding Teton normal fault after the last glacial period. Paleoseismological data suggest that ∼70% of the postglacial slip on the southern Teton fault accumulated during or shortly after deglaciation, before 8 ka. Here, we use a three-dimensional finite-element model to show that melting of the Yellowstone ice cap and the valley glaciers in the Teton Range may have caused the postglacial slip-rate increase on the Teton fault. During deglaciation, slip on our model fault accelerates by a factor of -6 with respect to the long-term rate. Our model further shows that the impact of the melting Yellowstone ice cap on fault slip increases along-strike of the fault from south to north and is everywhere larger than the effect of the former valley glaciers in the Teton Range. The results demonstrate that postglacial slip on faults in glaciated regions may not have been uniform through time. Rather, a significant fraction of slip may have accumulated within a few thousand years after the last glaciation. We hypothesize that the rebound caused by the Yellowstone ice cap has also triggered clusters of earthquakes on other normal faults in the surrounding Basin and Range Province.
AB - Along the eastern front of the Teton Range, Wyoming, prominent fault scarps offset Pinedale deposits by up to 30 m and document that multiple earthquakes ruptured the range-bounding Teton normal fault after the last glacial period. Paleoseismological data suggest that ∼70% of the postglacial slip on the southern Teton fault accumulated during or shortly after deglaciation, before 8 ka. Here, we use a three-dimensional finite-element model to show that melting of the Yellowstone ice cap and the valley glaciers in the Teton Range may have caused the postglacial slip-rate increase on the Teton fault. During deglaciation, slip on our model fault accelerates by a factor of -6 with respect to the long-term rate. Our model further shows that the impact of the melting Yellowstone ice cap on fault slip increases along-strike of the fault from south to north and is everywhere larger than the effect of the former valley glaciers in the Teton Range. The results demonstrate that postglacial slip on faults in glaciated regions may not have been uniform through time. Rather, a significant fraction of slip may have accumulated within a few thousand years after the last glaciation. We hypothesize that the rebound caused by the Yellowstone ice cap has also triggered clusters of earthquakes on other normal faults in the surrounding Basin and Range Province.
KW - Fault
KW - Glacier
KW - Numerical modeling
KW - Slip rate
UR - http://www.scopus.com/inward/record.url?scp=37449021860&partnerID=8YFLogxK
U2 - 10.1130/G24093A.1
DO - 10.1130/G24093A.1
M3 - Article
AN - SCOPUS:37449021860
VL - 35
SP - 1107
EP - 1110
JO - GEOLOGY
JF - GEOLOGY
SN - 0091-7613
IS - 12
ER -