Tailings fans and valley‐spur cutoffs created by hydraulic mining

Sand and gravel tailings from nineteenth century open‐pit hydraulic gold mines formed large alluvial fans at tributary conuences in the northwestern Sierra Nevada, California. In the Bear River watershed, several of these fans were so large that they blocked main channels for decades. Some channels not only aggraded deeply, but also moved laterally and cut across the inner bends of valley spurs. Now locked in bedrock channels, these valley‐spur cutoffs impose local controls on geomorphic, hydraulic, and sedimentary processes. One cutoff has incised 25 m into bedrock over the past century (25 cm a −1 ) with rapid initial incision rates of up to 50 cm a −1 (1884–1890). Recognition of spur cutoffs in the geological record may help to identify large landslides and provide an analogue for a type of natural earthll dam spillway not prone to catastrophic failures. Tailing fans, valley‐spur cutoffs, and the sediment they trap are described from contemporary accounts and recent eld conditions in the Bear River watershed. These anthropogenic changes represent a major shift in the watershed from supply‐limited to transport‐limited sediment budgets and a change in geomorphic processes away from long‐term drainage evolution dominated by ingrown meanders. The large volumes of mining sediment stored in these landforms will be slowly released over the next millennium and could be signicant to contemporary ecological and public health issues due to recent ndings of high mercury loadings associated with hydraulic mines. Copyright © 2004 John Wiley & Sons, Ltd.