N.S. MacLeod scite author profile

N.S. MacLeod

5Publications

276Citation Statements Received

38Citation Statements Given

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Cascades Volcano Observatory, United States Geological Survey

Publications

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Geologic evidence for a magma chamber beneath Newberry Volcano, Oregon

MacLeod¹,

Sherrod²

1988

J. Geophys. Res.

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At Newberry Volcano, central Oregon, more than 0.5 m.y. of magmatic activity, including caldera collapse and renewed caldera‐filling volcanism, has created a structural and thermal chimney that channels magma ascent. Holocene rhyolitic eruptions (1) have been confined mainly within the caldera in an area 5 km in diameter, (2) have been very similar in chemical composition, phenocryst mineralogy, and eruptive style, and (3) have occurred as recently as 1300 years ago, with repose periods of 2000–3000 years between eruptions. Holocene basaltic andesite eruptions are widespread on the flanks but are excluded from the area of rhyolitic volcanism. Basaltic andesite in fissures at the edge of the rhyolite area has silicic inclusions and shows mixed basalt‐rhyolite magma relations. These geologic relations and the high geothermal gradient that characterizes the lower part of a drill hole in the caldera (U.S. Geological Survey Newberry 2) indicate that a rhyolitic magma chamber has existed beneath the caldera throughout the Holocene. Its longevity probably is a result of intermittent underplating by basaltic magma.

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Tholeiitic and alkalic basalts of the Eocene Siletz River Volcanics, Oregon Coast Range

Snavely¹,

MacLeod²,

Wagner³

1968

American Journal of Science

102

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Makah Formation — A deep-marginal-basin sequence of late Eocene and Oligocene age in the northwestern Olympic Peninsula, Washington

Snavely¹,

Niem²,

MacLeod³

et al. 1980

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The Makah Formation of the Twin River Group crops out in a northwest-trending linear belt in the northwesternmost part of the Olympic Peninsula, Wash. This marine sequence consists of 2800 meters of predominantly thin-bedded siltstone and sandstone that encloses six distinctive newly named members four thick-bedded amalgamated turbidite sandstone members, an olistostromal shallow-water marine sandstone and conglomerate member, and a thin-bedded water-laid tuff member. A local unconformity of submarine origin occurs within the lower part of the Makah Formation except in the central part of the study area, where it forms the contact between the older Hoko River Formation and the Makah. Foraminiferal faunas indicate that the Makah Formation ranges in age from late Eocene (late Narizian) to late Oligocene (Zemorrian) and was deposited in a predominantly lower to middle bathyal environment. The Makah Formation is part of a deep-marginalbasin facies that crops out in the western part of the Olympic Peninsula, in southwesternmost Washington and coastal embayments in northwestern Oregon, and along the central part of the coast of western Vancouver Island. On the basis of limited subsurface data from exploratory wells, correlative deep-marginal-basin deposits underlie the inner continental shelf of Oregon and the continental shelf (Tofino basin) along the southwestern side of Vancouver Island. Directional structures in the Makah Formation indicate that the predominantly lithic arkosic sandstone that forms the turbidite packets was derived from the northwest. A possible source of the clastic material is the dioritic, granitic, and volcanic terranes in the vicinity of the Hesquiat Peninsula and Barkley Sound on the west coast of Vancouver Island. Vertical and lateral variations of turbidite facies suggest that the four packets of sandstone were formed as depositional lobes on an outer submarine fan. The thin-bedded strata between the turbidite packets have characteristics of basin-plain and outer-fan fringe deposits.

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Index to K-Ar age determinations for the State of Oregon

Fiebelkorn¹,

Walker²,

MacLeod³

et al. 1982

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Geothermal significance of eastward increase in age of upper Cenozoic rhyolitic domes in southeastern Oregon

MacLeod¹,

Walker²,

McKee³

1975

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N.S. MacLeod

Geologic evidence for a magma chamber beneath Newberry Volcano, Oregon

Tholeiitic and alkalic basalts of the Eocene Siletz River Volcanics, Oregon Coast Range

Makah Formation — A deep-marginal-basin sequence of late Eocene and Oligocene age in the northwestern Olympic Peninsula, Washington

Index to K-Ar age determinations for the State of Oregon

Geothermal significance of eastward increase in age of upper Cenozoic rhyolitic domes in southeastern Oregon

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