J.W. Vallance T. W. Sisson 2009 <p>Field, geochronologic, and geochemical evidence from proximal fine-grained tephras, and from limited exposures of Holocene lava flows and a small pyroclastic flow document ten&ndash;12 eruptions of Mount Rainier over the last 2,600&nbsp;years, contrasting with previously published evidence for only 11&ndash;12 eruptions of the volcano for all of the Holocene. Except for the pumiceous subplinian C event of 2,200&nbsp;cal year BP, the late-Holocene eruptions were weakly explosive, involving lava effusions and at least two block-and-ash pyroclastic flows. Eruptions were clustered from &sim;2,600 to &sim;2,200&nbsp;cal year BP, an interval referred to as the Summerland eruptive period that includes the youngest lava effusion from the volcano. Thin, fine-grained tephras are the only known primary volcanic products from eruptions near 1,500 and 1,000&nbsp;cal year BP, but these and earlier eruptions were penecontemporaneous with far-traveled lahars, probably created from newly erupted materials melting snow and glacial ice. The most recent magmatic eruption of Mount Rainier, documented geochemically, was the 1,000&nbsp;cal year BP event. Products from a proposed eruption of Mount Rainier between AD 1820 and 1854 (X tephra of Mullineaux (US Geol Surv Bull 1326:1&ndash;83, 1974)) are redeposited C tephra, probably transported onto young moraines by snow avalanches, and do not record a nineteenth century eruption. We found no conclusive evidence for an eruption associated with the clay-rich Electron <a class="reference-link webtrekk-track" href="http://link.springer.com/search?dc.title=Mudflow&amp;facet-content-type=ReferenceWorkEntry&amp;sortOrder=relevance">Mudflow</a> of &sim;500&nbsp;cal year BP, and though rare, non-eruptive collapse of unstable edifice flanks remains as a potential hazard from Mount Rainier.</p> application/pdf 10.1007/s00445-008-0245-7 en Springer Frequent eruptions of Mount Rainier over the last ∼2,600 years article