Angela Stetson Master's Candidate

Titled "Orphan Basalts: Investigating the Petrogenesis of Unassigned Eastern Oregon Basalts," my thesis project is focused on detailing the origins of basalts mapped within the Telephone Butte, Calamity Butte and Craft Point quadrangles located along the boundary between the Harney Basin and the southern foothills of the Blue Mountains Province. Named for the localities in which basalt samples were collected, several basalt units are mapped in each quadrangle. Similarities in geochemical analyses of each basalt unit suggest that although these basalts have different unit names, they are in fact related and likely originated from the same source. 

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Alyssa Smith PhD candidate

My research is focused in the central to northern Oregon Cascade Range. In this part of the Cascade Range, erupted lavas are very compositionally restricted as compared to other arc segments. Although the central to northern Oregon Cascade Range does have several large, more andesitic stratovolcanoes, such as Mt. Hood, Mt. Jefferson, and the Middle and South Sister, volcanism is dominated by hundreds of smaller, basaltic volcanoes. Studies of the Cascade Range have acknowledged the prevalence of basaltic volcanism in this portion of the range, but many regional studies have focused on the andesitic centers, leaving most of the basaltic centers unstudied. 

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Lizzet Reyes Master's Candidate

Volcanic eruptions release carbon dioxide (CO2) into the atmosphere, which contributes to the carbon cycle. However, much is still unexplored about how volcanic eruptions affect the movement of organic carbon from vegetation and soil. My thesis focuses on the impact of the 1980 Mount St. Helens eruption on the terrestrial carbon cycle. It examines how the eruption affected carbon storage in vegetation and soils in the affected area. By comparing terrestrial carbon levels before and after the eruption, we aim to establish a carbon budget for the period since 1980. 

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Obinna Ozioko PhD candidate

Temporal clustering of deep-seated landslides in the Puget Lowlands; a seismic trigger? 

The Puget Lowlands of Washington State is about the most seismically active region in the Pacific Northwest. Paleoseismic records show ample evidence of prehistoric crustal and Cascadia megathrust earthquakes in the region with a temporal cluster of earthquakes in the crustal faults about 1000 years ago. Although multiple paleoseismic records exist for crustal and Cascadia megathrust earthquakes in the area, little is known about the temporal and spatial distribution of earthquake-triggered landslides. To address this, we conducted a comprehensive study applying surface roughness age dating techniques to over 600 landslides in the lower Puget Sound region to explore earthquake-triggered landslides' spatial and temporal patterns. 

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Brett Hopt Master's Candidate

Black shales are rocks that are enriched in heavy metals and metalloids. Previous studies have shown that agriculture crops grown on soils formed on black shales pose a health hazard to humans and biota. However, no study has been conducted on the environmental hazard that these outcrops may pose in watersheds with black shale outcrops. I will be studying how these heavy metals are partitioned in streams once released during weathering; heightened knowledge is needed in this area so that state agencies may better protect human and environmental health in areas where metalliferous black shales occur. 

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Javaria Aziz Master's Candidate

My master’s thesis focuses on understanding magma evolution and eruptive history of Three Fingered Jack, a dissected mafic composite cone volcano in the central High Cascades of Oregon. This region is characterized by intra-arc extension, creating an extensive mafic platform dominated by dozens of small scoria cones and voluminous mafic flows of basaltic and basaltic andesitic composition. It has the largest concentration of mafic monogenetic volcanoes in the entire Cascade arc, some of which have erupted in the past 2,500 years. Three Fingered Jack is much larger compared to its neighboring scoria cones.

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George Anim Master’s Candidate

My research is focused on understanding shock deformation in shergottites, the most commonly sampled Martian meteorites. My goals are to estimate deformation intensities in shergottites, identify the number of asteroid impact events they have undergone, and develop additional deformation estimation criteria based on changes in the crystal structure of key minerals such as olivine and pyroxene. Understanding the shock deformation in shergottites (and, by extension, all Martian meteorites) will allow for an unbiased interpretation of primary features that can reveal a lot about the geologic processes that shaped Mars.

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Lab Work on Mafic Dikes Will Reveal Magma Storage Depth

Lab Work on Mafic Dikes Will Reveal Magma Storage Depth

Vogt Scholar Rachel Sweeten reports: “This year we were able to successfully locate another ~30 dikes as well as a potential layered mafic intrusion exposure (middle photo) with an inferred 600 cubic km volume. Lab work will continue this fall and winter in the form of clinopyroxene thermobarometry (to determine storage depth) as well as the full suite of XRF [X-ray fluorescence] and ICPMS [Inductively Coupled Plasma Mass Spectrometry] analysis of all new samples.” Photo on right is of field assistant Heather Ziff next to a large boulder of the upper portion of the layered intrusion that fell to the bottom of the slope as a result of a rockfall.

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A Unique Dunite Clast in a Lunar Meteorite

A Unique Dunite Clast in a Lunar Meteorite

Vogt Scholar Daniel Sheikh reports: “I recently had the opportunity to present some of my research at the 85th Annual Meeting of the Meteoritical Society, held in Glasgow in August. In this talk, I presented on a unique dunite clast (photo left) found within one of my lunar meteorite samples for research, and implications on how it likely formed. This is a component of the larger research focus that I am involved in, which is to constrain the range of lunar lithologies found in lithic clasts from lunar meteorites and to characterize the degree of shock deformation imposed on each of them.”

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Examining Magma History from Grains of Olivine

Examining Magma History from Grains of Olivine

Vogt Scholar Darlene Gilroy reports: “I am currently in the picking stage of lab work. In this stage, I am using a microscope to look at crushed scoria and “pick” out specific grains of olivine. The scoria is from the Boring Volcanic Mt. Tabor. After finishing the Mount Tabor samples I will move on to my other sample sites, also Boring Volcanic: Prune Hill, Mount Scott, and Battle Ground Lake. The olivine grains will be mounted in epoxy and sent off for electron microprobe and Fourier-transform infrared spectroscopy to establish the rate of ascent and storage depth of magma for the Boring volcanics. I recently sent samples from all four locations to WSU for bulk geochemical analysis.”
(Photo left: Darlene and retired DOGAMI geologist/GSOCer Ian Madin at her Mt. Tabor field site reconning for our 2023 Boring Buttes field trip. Photo right: view under a microscope showing olivine which are the “amber colored” grains among the darker scoria. )

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Preparing Central/Eastern Oregon Glass for Mass Spectrometry

Preparing Central/Eastern Oregon Glass for Mass Spectrometry

Vogt Scholar Julian Cohen reports: “I completed my field work over 11 days at the end of August and collected around 30 glass samples from various places all over central and eastern Oregon. Since then, I’ve been working to prepare them for mass spectrometry analysis by crushing, sieving, and cleaning the glass shards. Photo (left) is of some relatively “clean” glass, meaning there aren’t a lot of surface precipitates on it that might impact the analysis. I’ll have to run many samples through a series of acid washes to clean the shards to insure there isn’t contamination! I’ll be at the University of Texas Austin in December to do my analyses.”

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2022 PSU Beverly Vogt Grant Awardees

2022 PSU Beverly Vogt Grant Awardees

GSOC is pleased to announce our 2022 PSU Beverly Vogt grant awardees! Each applicant was awarded $1,000 to be used toward the achievement of their degree. Each awardee has expressed gratitude to GSOC members for this financial support toward their research goals. Once they complete their research, we plan to have each of them share their findings with GSOC through a Friday Night lecture and/or a Saturday Zoom meetup session.

Read more about the candidates’ thesis projects…

Note: Our three Master’s candidates have expressed interest in having GSOC members assist them in their fieldwork. We are currently working with them to find out dates and what their needs will be. If you are interested in providing some assistance in the field, please contact a GSOC board member or email the PSU Bev Vogt committee members at: gsocfundforpsu@gsoc.org

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GSOC Beverly Vogt PSU Graduate Student Fund

Fund will provides financial support to PSU graduate Geoscience students to assist them in completing their degree programs. Applications will open again in Winter 2023.

To honor former President Beverly Vogt and create a legacy for her work and that of the society, the GSOC Board of Directors created the Beverly Vogt PSU Graduate Student Fund. The Board formed a new committee to make recommendations as to the administration of this fund. The Vogt committee arranges for PSU grad students to present their projects and proposals, not only related to scholarships, but also in the interest of strengthening the 70-year+ relationship between GSOC and the PSU Geology Department.

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Goodbye to a dear friend, Bev Vogt

Goodbye to a dear friend, Bev Vogt

Former GSOC President Bev Vogt — who with her partner in life and geology “Bart” Bartels — led a rejuvenation of our club in the 1990s and 2000s, died peacefully in her home on July 28, 2021. For many of us who remember Bev’s gentle leadership, Bart’s fascinating seminars, and the outstanding field trips they led together, they were very much the heart of the club.

Photo by Dave Olcott

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