Abstract
Abstract The Wellington Fault cuts a prograded, late Holocene shoreline at the southern end of the Hutt Valley. The fault scarp crosses a suite of five beach ridges (B‐F; youngest to oldest). Two steps in scarp height of 2 m, and 3–4 m, between southwest Petone and north Petone/central Lower Hutt occur over a distance of about 1 km, whereas, southeast of the fault, there are no steps, and the topography is more or less level (2–2.5 m altitude) for about 2 km upvalley. Uplift of c. 6 m has occurred on the northwest side of the Wellington Fault in the last few thousand years (vertical deformation rate of c. 1 mm/yr, determined from vertical offset of beach ridge D). Net uplift southeast of the fault is no more than 2–2.5 m, and could have occurred solely during the 1855 Wairarapa earthquake. A dextral slip rate of c. 5 mm/yr is suggested for the Wellington Fault from possible lateral offset of beach‐ridge F. Near‐surface stratigraphy and radiocarbon dating in eastern Petone suggest that swampy conditions de...
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