气候变化领域集成服务门户(CCPortal): Seismic anomalies in the southeastern North American asthenosphere as characterized with body wave travel times from high-quality teleseisms

CCPortal

DOI	10.1016/j.tecto.2021.228853
	Seismic anomalies in the southeastern North American asthenosphere as characterized with body wave travel times from high-quality teleseisms
	Carrero Mustelier E.; Menke W.
发表日期	2021
ISSN	00401951
卷号	809
英文摘要	Previously-published tomographic images show low-velocity anomalies (shear velocity up to 5% slow relative to the AK135 Earth model) in the asthenosphere beneath the southeastern margin of North America, including the Northern Appalachian (New England), the Central Appalachian (Virginia), and the Northern Gulf (Texas-Louisiana coast) Anomalies. Travel time anomaly ratios and attenuation indicate that they are thermal anomalies associated with mantle upwelling. We use teleseismic P and S wave differential travel times, as determined by cross-correlation of USArray data, and ratios of compressional-to-shear wave travel time fluctuations to characterize the South Coastal Anomaly (SCA), a fourth, weaker anomaly (about half as strong as these others) that stretches from Georgia to Virginia. P-wave tomography indicates that the SCA is about 800 km long in its north-south dimension and at least 300 km wide in its east-west dimension (its eastern edge is not imaged) and it is strongest (∆VP ≈ − 0.1 km/s) in the 100–250 km depth range. Its western edge strikes north-south, parallel to the edge of the Laurentian Craton (LC). The maximum P and S wave travel time anomalies of the SCA are 1.09 ± 0.05 (95%) s and 4.20 ± 0.10 (95%) s, respectively, relative to the LC. The ratio of P-to-S wave differential travel time anomalies is 3.84 ± 0.10 (95%), a value close to the value of ~3.3 predicted for a thermal anomaly and very different from the value of ~1.8 predicted for a compositional anomaly. The compressional velocity is up to 0.41 km/s slower than the LC, which corresponds to a maximum temperature difference of about 700 °C, using a sensitivity of 1713 K-s/km. In the shallow asthenosphere, the SCA appears distinct from the Central Appalachian Anomaly, being weaker in magnitude and more tabular in shape, but the two anomalies may merge below ~250 km depth. Our findings support the notion of the vigorous edge convection along much of the eastern continental margin. © 2021 Elsevier B.V.
关键词	Asthenosphere Central Appalachian Anomaly Edge convection Lithosphere Southeastern United States Suwannee terrane Tomography Travel time anomaly
英文关键词	Seismic waves; Shear waves; Tomography; Compressional velocities; Continental margin; Cross correlations; Low-velocity anomaly; Mantle upwellings; Maximum temperature differences; Thermal anomalies; Tomographic images; Shear flow; asthenosphere; body wave; lithosphere; P-wave; S-wave; seismic anisotropy; seismic velocity; tomography; travel time; New England; United States; Virginia
语种	英语
来源期刊	Tectonophysics
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/207953
作者单位	Columbia University School of General Studies, United States; Lamont-Doherty Earth Observatory of Columbia University, United States
推荐引用方式 GB/T 7714	Carrero Mustelier E.,Menke W.. Seismic anomalies in the southeastern North American asthenosphere as characterized with body wave travel times from high-quality teleseisms[J],2021,809.
APA	Carrero Mustelier E.,&Menke W..(2021).Seismic anomalies in the southeastern North American asthenosphere as characterized with body wave travel times from high-quality teleseisms.Tectonophysics,809.
MLA	Carrero Mustelier E.,et al."Seismic anomalies in the southeastern North American asthenosphere as characterized with body wave travel times from high-quality teleseisms".Tectonophysics 809(2021).