TY - JOUR
T1 - Temperature estimates of coseismic heating in clay-rich fault gouges, the Chelungpu fault zones, Taiwan
AU - Kuo, Li Wei
AU - Song, Sheng Rong
AU - Huang, Lin
AU - Yeh, En Chao
AU - Chen, Huei Fen
N1 - Funding Information:
We thank two anonymous reviewers for their many positive and constructive comments, and we also thank Chief Editor Hans Thybo for editing this paper and giving valuable comments. We thank the working group of TCDP, including the drilling company FangYu and WanDa, the on-site assistants and participating students from NTU and NCU. We also thank M.C. Liu for English polishing. We thank H. C. Shiao for offering XRD standard data. This research was supported by the National Science Council of Taiwan under grant NSC 96-2627-M-002-011 and NSC 98-2627-M-002-002 .
PY - 2011/4/20
Y1 - 2011/4/20
N2 - To investigate the coseismic frictional temperature in seismogenic fault zones, we examine the characteristics of clays in the Chelungpu-fault zones with isothermal heating experiments, scanning electron microscope coupled to an energy dispersive spectrometer (SEM/EDX), and thermogravimetry analysis (TGA). In the TCDP case (Taiwan Chelungpu fault Drilling Project), three fault zones of the Chelungpu-fault system were identified at the depth of 1111. m, 1153. m, and 1222. m (described as FZ1111, FZ1153, and FZ1222 hereafter), respectively. The clay mineral assemblages of FZ1111 show evidence of melting, and the temperature in a ~. 2. cm band within the black gouge zone is estimated to be from 900°C to 1100°C by comparing the SEM images of in situ natural samples with those of heated materials, and the finding of no recrystallization of kaolinite-amorphous aluminosilicates-spinel in the fault samples. The clay mineral assemblages of FZ1153 suggested that kaolinite has been broken down by the thermal decomposition/dehydroxylation but chlorite has not. The clay characteristics and results of SEM/EDX and TGA constrain the faulting temperature from 500°C to 900°C, with a spatial distribution up to ~. 1.3. m. The clay characteristics of FZ1222 indicated that clays were changed by experiencing high temperature acid fluids, instead of thermal decomposition/dehydroxylation processes, and that the temperature is localized in ~. 2. cm and ranges from 350°C to 500°C, the lowest temperature among three fault zones. The estimates of temperature ranges, and thermal anomaly intervals among three fault zones provide important information and constraints on the physical and chemical processes, coseismic dynamic weakening mechanism, and earthquake energy budget in the future.
AB - To investigate the coseismic frictional temperature in seismogenic fault zones, we examine the characteristics of clays in the Chelungpu-fault zones with isothermal heating experiments, scanning electron microscope coupled to an energy dispersive spectrometer (SEM/EDX), and thermogravimetry analysis (TGA). In the TCDP case (Taiwan Chelungpu fault Drilling Project), three fault zones of the Chelungpu-fault system were identified at the depth of 1111. m, 1153. m, and 1222. m (described as FZ1111, FZ1153, and FZ1222 hereafter), respectively. The clay mineral assemblages of FZ1111 show evidence of melting, and the temperature in a ~. 2. cm band within the black gouge zone is estimated to be from 900°C to 1100°C by comparing the SEM images of in situ natural samples with those of heated materials, and the finding of no recrystallization of kaolinite-amorphous aluminosilicates-spinel in the fault samples. The clay mineral assemblages of FZ1153 suggested that kaolinite has been broken down by the thermal decomposition/dehydroxylation but chlorite has not. The clay characteristics and results of SEM/EDX and TGA constrain the faulting temperature from 500°C to 900°C, with a spatial distribution up to ~. 1.3. m. The clay characteristics of FZ1222 indicated that clays were changed by experiencing high temperature acid fluids, instead of thermal decomposition/dehydroxylation processes, and that the temperature is localized in ~. 2. cm and ranges from 350°C to 500°C, the lowest temperature among three fault zones. The estimates of temperature ranges, and thermal anomaly intervals among three fault zones provide important information and constraints on the physical and chemical processes, coseismic dynamic weakening mechanism, and earthquake energy budget in the future.
KW - Chelungpu fault
KW - Clay mineral
KW - TCDP
KW - Temperature estimates
UR - http://www.scopus.com/inward/record.url?scp=79953303599&partnerID=8YFLogxK
U2 - 10.1016/j.tecto.2011.02.001
DO - 10.1016/j.tecto.2011.02.001
M3 - 期刊論文
AN - SCOPUS:79953303599
SN - 0040-1951
VL - 502
SP - 315
EP - 327
JO - Tectonophysics
JF - Tectonophysics
IS - 3-4
ER -