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Six Degree‐of‐Freedom Broadband Ground‐Motion Observations with Portable Sensors: Validation, Local Earthquakes, and Signal Processing
Coseismic Velocity Variations Associated with the 2018 M w 6.4 Hualien Earthquake Estimated Using Repeating Earthquakes
Shallow Fault Rupture of the Milun Fault in the 2018 M w 6.4 Hualien Earthquake: A High‐Resolution Approach from Optical Correlation of Pléiades Satellite Imagery
Insights into Seismogenic Deformation during the 2018 Hualien, Taiwan, Earthquake Sequence from InSAR, GPS, and Modeling
Strong Ground Motion and Pulse‐Like Velocity Observations in the Near‐Fault Region of the 2018 M w 6.4 Hualien, Taiwan, Earthquake
Fault‐to‐Fault Jumping Rupture of the 2018 M w 6.4 Hualien Earthquake in Eastern Taiwan
Performance of a Low‐Cost Earthquake Early Warning System ( P ‐Alert) and Shake Map Production during the 2018 M w 6.4 Hualien, Taiwan, Earthquake
Brushlines in fault pseudotachylytes: A new criterion for coseismic slip direction
A Study of Site Effects in Ilan, Taiwan, Based on Attenuation Relationships of Spectral Acceleration
Provenance Evolution During Arc–Continent Collision: Sedimentary Petrography of Miocene To Pleistocene Sediments In the Western Foreland Basin of Taiwan
Assessing Vadose Zone Biodegradation by a Multicomponent Gas Transport Model
A Study on Fault‐Type and Site‐Effect ( V S 30 ) Parameters in the Attenuation Relationships of Peak Ground Acceleration and Peak Ground Velocity in Ilan, Taiwan
Multiscale Ambient Noise Tomography of Short-Period Rayleigh Waves across Northern Taiwan
Basement Imaging Using Sp Converted Phases from a Dense Strong-Motion Array in Lan-Yang Plain, Taiwan
Magnetotelluric evidence for thick-skinned tectonics in central Taiwan
Recording Rotational and Translational Ground Motions of Two TAIGER Explosions in Northeastern Taiwan on 4 March 2008
Layer charges of vermiculites in two forest Inceptisols in northern Taiwan
The geochemistry of river water, river sediments, and suspended matter in three mountainous watersheds in New Zealand and Taiwan is used to determine chemical erosion yields in regions of rapid tectonic uplift. Suspended matter from all three rivers is depleted in soluble alkali metals and alkaline earths compared to upper continental crust material and marine clays, reflecting the bedrocks' origin as marine sediments that had undergone previous weathering cycles prior to uplift and subjection to the current chemical weathering regime. The New Zealand rivers are depleted in Mg 2+ and enriched in Ca 2+ and Na + + K + compared to global average river water, but the Taiwan river is enriched only in Mg 2+ compared to global average. The Haast compared River, draining the Southern Alps of New Zealand, is depleted in Cl + SO 4 to the global average, but has higher alkalinity and slightly higher H 4 SiO 4 . The chemical weathering yields determined here compose only a small portion (1%–5%) of the total weathering in these systems, but are still among the highest chemical yields ever reported. Our new data, in comparison to previously determined physical erosion yields in these watersheds, show that physical erosion strongly enhances chemical erosion. This work demonstrates the importance of chemical erosion as a process denuding the landscape, especially in high-standing, tectonically active mountainous landscapes.