Carol D. Frost

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Carol D. Frost
BornMay 23, 1957 (1957-05-23) (age 67)
Alma mater University of Cambridge
Dartmouth College
Scientific career
Institutions University of Wyoming

Carol Denison Frost (born May 23, 1957) is an American isotope geologist, petrologist and professor. Her primary research focuses on the evolution of the continental crust and granite petrogenesis. She has spent over forty years investigating the geologic history of the Wyoming Province and the formation and geochemical classification of granite. Other contributions include isotopic fingerprinting of natural waters, including water associated with energy production. She served as Director of the Earth Sciences Division, National Science Foundation, from December 2014 to January 2018. Frost joined the British Geological Survey Board of Directors in 2023. [1]

Contents

Early life

Frost grew up in Anchorage, Alaska.[ citation needed ] Prior to the 1964 Alaska earthquake her family home was four blocks from Cook Inlet; afterwards it was only two. [2] This experience of the dynamic Earth led her to study geology at Dartmouth College, where she completed an undergraduate honors thesis in the Salt Range of northern Pakistan. [3] [4] She earned the PhD at the University of Cambridge in 1984. [5] Her dissertation, using isotopic tracers to investigate sediment provenance and granite petrogenesis, underscored the important role of crustal recycling in the geochemical evolution of the continental crust.

Career

Frost joined the University of Wyoming as an assistant professor in 1983, rising through the ranks and becoming professor in 1995. Frost held a number of administrative positions, first at the University of Wyoming and then at the National Science Foundation. From 2006 to 2007, she was founding director of the School of Energy Resources at UW. [5] [6] She then served as Associate Vice President for Research (2008-2010), Vice President for Special Projects (2010-2012), and Associate Provost (2012-2013). [7] In 2014 she became Division Director for the Division of Earth Sciences at the National Science Foundation, a position she held until returning to the University of Wyoming in early 2018. [8] [9] Frost became Professor Emerita in 2020. [10]

Frost is the 101st President of the Mineralogical Society of America (2020). [11] [12]

Research

Frost's research involves studying how the continental crust has changed throughout Earth's history. She works with a multitude of rocks, including igneous, metamorphic, and sedimentary (from the Archaean period to today) as well as natural waters and materials such as coal and crude oils. [13]  She focuses especially on the Archean continental crust in Wyoming, where she is looking at what she describes to be “the oldest high-pressure metamorphism in North America” (Frost, n.d., Research Statement, para. 2) [13] in order to take note of a historical collision between continents. [13] Most of her research is on the topic of Precambrian evolution of the continental crust and granite petrogenesis. [14]

Frost's research in Wyoming has found that various groundwater aquifers are made up of unique Sr isotopic compositions, and therefore, by using Sr isotopic ratios, contamination between aquifers can be identified. [13] In the Powder River Basin of Wyoming, she and her partners have also determined that unique Sr and C isotopic compositions can be found in groundwaters from aquifers made up of sandstone and coal, which can help them to trace and take note of changes in the movement of groundwater caused by dewatering (which is a result of the methane produced from coal beds and surface mining). [13]

She has also acted as a private investigator on projects that stem from research regarding sites of geologic formations for carbon dioxide storage as well as depleted gas fields in southeastern and northeastern Wyoming, respectively. [13] These projects provide the instruction needed for the “injection and storage of carbon dioxide in deep saline aquifer and depleted oil and gas fields” (Frost, n.d., Research Statement, para. 5). [13]

Awards and honors

Writings

Related Research Articles

<span class="mw-page-title-main">Archean</span> Geologic eon, 4031–2500 million years ago

The Archean Eon, in older sources sometimes called the Archaeozoic, is the second of the four geologic eons of Earth's history, preceded by the Hadean Eon and followed by the Proterozoic. The Archean represents the time period from 4,031 to 2,500 Mya. The Late Heavy Bombardment is hypothesized to overlap with the beginning of the Archean. The Huronian glaciation occurred at the end of the eon.

<span class="mw-page-title-main">Anorthosite</span> Mafic intrusive igneous rock composed predominantly of plagioclase

Anorthosite is a phaneritic, intrusive igneous rock characterized by its composition: mostly plagioclase feldspar (90–100%), with a minimal mafic component (0–10%). Pyroxene, ilmenite, magnetite, and olivine are the mafic minerals most commonly present.

<span class="mw-page-title-main">Acasta Gneiss</span> Metamorphic rock unit in Canada

The Acasta Gneiss Complex, also called the Acasta Gneiss, is a body of felsic to ultramafic Archean basement rocks, gneisses, that form the northwestern edge of the Slave Craton in the Northwest Territories, Canada, about 300 km (190 mi) north of Yellowknife, Canada. This geologic complex consists largely of tonalitic and granodioritic gneisses and lesser amounts of mafic and ultramafic gneisses. It underlies and is largely concealed by thin, patchy cover of Quaternary glacial sediments over an area of about 13,000 km2 (5,000 sq mi). The Acasta Gneiss Complex contains fragments of the oldest known crust and record of more than a billion years of magmatism and metamorphism. The Acasta Gneiss Complex is exposed in a set of anticlinoriums within the foreland fold and thrust belt of the Paleoproterozoic Wopmay Orogen.

<span class="mw-page-title-main">Fractional crystallization (geology)</span> Process of rock formation

Fractional crystallization, or crystal fractionation, is one of the most important geochemical and physical processes operating within crust and mantle of a rocky planetary body, such as the Earth. It is important in the formation of igneous rocks because it is one of the main processes of magmatic differentiation. Fractional crystallization is also important in the formation of sedimentary evaporite rocks.

<span class="mw-page-title-main">Kaapvaal Craton</span> Archaean craton, possibly part of the Vaalbara supercontinent

The Kaapvaal Craton, along with the Pilbara Craton of Western Australia, are the only remaining areas of pristine 3.6–2.5 Ga crust on Earth. Similarities of rock records from both these cratons, especially of the overlying late Archean sequences, suggest that they were once part of the Vaalbara supercontinent.

Richard Lee Armstrong was an American-Canadian scientist who was an expert in the fields of radiogenic isotope geochemistry and geochronology, geochemical evolution of the earth, geology of the American Cordillera, and large-magnitude crustal extension. He published over 170 scientific papers.

<span class="mw-page-title-main">Wyoming Craton</span> Craton in the west-central United States and western Canada

The Wyoming Craton is a craton in the west-central United States and western Canada – more specifically, in Montana, Wyoming, southern Alberta, southern Saskatchewan, and parts of northern Utah. Also called the Wyoming Province, it is the initial core of the continental crust of North America.

<span class="mw-page-title-main">Luzon Volcanic Arc</span> Chain of volcanoes from Taiwan to Luzon

The Luzon Volcanic Arc is a chain of volcanoes in a north–south line across the Luzon Strait from Taiwan to Luzon. The name "Luzon Volcanic Arc" was first proposed by Carl Bowin et al. to describe a series of Miocene to recent volcanoes due to eastward subduction along the Manila Trench for approximately 1,200 km from the Coastal Range in Taiwan south to southern Mindoro in the Philippines. Islands that form part of the arc are the Eastern Coastal Range of Taiwan, Green Island, Taiwan, Orchid Island, Kaotai Rock, Mavudis or Y'ami Island, Mabudis, Siayan Island, Itbayat Island, Diogo Island, Batan Island, Unnamed volcano Ibuhos, Sabtang Island, Babuyan, Didicas, and Camiguin de Babuyanes. At the south end it terminates on Luzon. The geochemistry of a number of volcanoes along the arc have been measured. There are five distinct geochemical domains within the arc. The geochemistry of the segments verified that the volcanoes are all subduction related. Isotopes and trace elements show unique geochemical characteristics in the north. Geochemical variations northward were due to the subduction of sediments derived from the erosion of continental crust from China and Taiwan.

Dominique Weis is a Canadian scientist. She is a Canada Research Chair in the Geochemistry of the Earth's Mantle at the University of British Columbia.

<span class="mw-page-title-main">Hadean zircon</span> Oldest-surviving crustal material from the Earths earliest geological time period

Hadean zircon is the oldest-surviving crustal material from the Earth's earliest geological time period, the Hadean eon, about 4 billion years ago. Zircon is a mineral that is commonly used for radiometric dating because it is highly resistant to chemical changes and appears in the form of small crystals or grains in most igneous and metamorphic host rocks.

<span class="mw-page-title-main">Roberta Rudnick</span> American geologist

Roberta L. Rudnick is an American earth scientist and professor of geology at the University of California, Santa Barbara. She was elected a member of the National Academy of Sciences in 2010 and was awarded the Dana Medal by the Mineralogical Society of America. Rudnick is a world expert in the continental crust and lithosphere.

<span class="mw-page-title-main">Tonalite–trondhjemite–granodiorite</span> Intrusive rocks with typical granitic composition

Tonalite–trondhjemite–granodiorite (TTG) rocks are intrusive rocks with typical granitic composition but containing only a small portion of potassium feldspar. Tonalite, trondhjemite, and granodiorite often occur together in geological records, indicating similar petrogenetic processes. Post Archean TTG rocks are present in arc-related batholiths, as well as in ophiolites, while Archean TTG rocks are major components of Archean cratons.

<span class="mw-page-title-main">Archean felsic volcanic rocks</span> Felsic volcanic rocks formed in the Archean Eon

Archean felsic volcanic rocks are felsic volcanic rocks that were formed in the Archean Eon. The term "felsic" means that the rocks have silica content of 62–78%. Given that the Earth formed at ~4.5 billion year ago, Archean felsic volcanic rocks provide clues on the Earth's first volcanic activities on the Earth's surface started 500 million years after the Earth's formation.

<span class="mw-page-title-main">Eastern Block of the North China Craton</span> Fragment of Earths crust

The Eastern Block of the North China Craton is one of the Earth's oldest pieces of continent. It is separated from the Western Block by the Trans-North China Orogen. It is situated in northeastern China and North Korea. The Block contains rock exposures older than 2.5 billion years. It serves as an ideal place to study how the crust was formed in the past and the related tectonic settings.

<span class="mw-page-title-main">South China Craton</span> Precambrian continental block located in China

The South China Craton or South China Block is one of the Precambrian continental blocks in China. It is traditionally divided into the Yangtze Block in the NW and the Cathaysia Block in the SE. The Jiangshan–Shaoxing Fault represents the suture boundary between the two sub-blocks. Recent study suggests that the South China Block possibly has one more sub-block which is named the Tolo Terrane. The oldest rocks in the South China Block occur within the Kongling Complex, which yields zircon U–Pb ages of 3.3–2.9 Ga.

Stanley Robert Hart is an American geologist, geochemist, leading international expert on mantle isotope geochemistry, and pioneer of chemical geodynamics.

<span class="mw-page-title-main">Western Block of the North China Craton</span> Sub-block of the North China craton

The Western Block of the North China Craton is an ancient micro-continental block mainly composed of Neoarchean and Paleoproterozoic rock basement, with some parts overlain by Cambrian to Cenozoic volcanic and sedimentary rocks. It is one of two sub-blocks within the North China Craton, located in east-central China. The boundaries of the Western Block are slightly different among distinct models, but the shapes and areas are similar. There is a broad consensus that the Western Block covers a large part of the east-central China.

<span class="mw-page-title-main">Dharwar Craton</span> Part of the Indian Shield in south India

The Dharwar Craton is an Archean continental crust craton formed between 3.6-2.5 billion years ago (Ga), which is located in southern India and considered the oldest part of the Indian peninsula.

Keiko Hattori is a geochemist and mineralogist. She is Distinguished University Professor of Geochemistry and Mineral Deposits in the Department of Earth and Environmental Sciences at the University of Ottawa.

Serial magmatism is a model that requires basaltic magma to erupt and intrude repeatedly into a pre-existing crust. Regarding the Moon, the magma would have been partially melted in the lunar mantle due to heat produced by initial accretion, radioactive elements, and mantle overturn. As the intruded magma cools it differentiates by density, causing heavier materials to sink down into the lunar mantle, and lighter materials to rise to the crust. As each of the materials separate, they create diapirs which then sink or float to their respective positions. As each diapir solidifies, it would constitute that they would all have their own ages and geochemical signature that may allude to when each intrusion formed. This process would cover a primary lunar crust, and leave us with a complex crust where diapirs overlap and may be difficult to unravel.

References

  1. "BGS welcomes two new board appointments for 2023" . Retrieved December 25, 2024.
  2. "The Turnagain Heights landslide in Anchorage, Alaska" (PDF). Retrieved November 6, 2019.
  3. "What Could Be Better?: Promoting Earth Science in Universities". November 22, 2016. Retrieved October 25, 2019.
  4. Johnson, G. D., Zeitler, P., Naeser, C. W., Johnson, N. M., Summers, D. M., Frost, C. D., Opdyke, N. D., Tahirkheli, R. A. K., 1982, The occurrence and fission-track ages of late Neogene and Quaternary volcanic sediments, Siwalik Group, Northern Pakistan. Palaeogeography, Palaeoclimatology, Palaeoecology, 37, 63-93.
  5. 1 2 "Geologist Carol Frost Receives UW's Humphrey Award" . Retrieved November 6, 2019.
  6. "Geologist plays key role in UW industry partnership". November 27, 2009. Retrieved November 6, 2019.
  7. "Dr. Carol Frost Administrative Positions" . Retrieved November 6, 2019.
  8. "NSF Geosciences Report Provides Updated Roadmap". January 20, 2015. Retrieved October 25, 2019.
  9. "UW Geology Professor Accepts Two Year Foundation Job". October 18, 2014. Retrieved October 25, 2019.
  10. "Geology: Carol Frost" . Retrieved December 25, 2024.
  11. "MSA Officers And Councillors" . Retrieved October 25, 2019.
  12. "UW Professor Elected President of Mineralogical Society of America" . Retrieved October 25, 2019.
  13. 1 2 3 4 5 6 7 Frost, C. (n.d.). "Dr. Carol D. Frost | Geology and Geophysics | University of Wyoming". www.uwyo.edu. Archived from the original on September 18, 2018. Retrieved December 15, 2020.
  14. "Frost Carol" . Retrieved December 25, 2024.
  15. "Fellowship - Current Fellows".
  16. "Geochemistry Fellows | Geochemical Society". www.geochemsoc.org.
  17. 1 2 3 4 5 6 http://geofaculty.uwyo.edu/cfrost/Frost%20Admin%20CV%2010-15.pdf [ bare URL PDF ]
  18. http://www.minsocam.org/MSA/Awards/Fellowslist.html
  19. Frost, Carol; Frost, B. (May 2013). "Proterozoic ferroan feldspathic magmatism". Precambrian Research. 228: 151–163. Bibcode:2013PreR..228..151F. doi:10.1016/j.precamres.2013.01.016.
  20. Frost, B.; Frost, Carol (November 2008). "A Geochemical Classification for Feldspathic Igneous Rocks". Journal of Petrology. 49 (11): 1955–1969. doi: 10.1093/petrology/egn054 .
  21. Frost, Carol; Fanning, C. (October 2006). "Archean geochronological framework of the Bighorn Mountains, Wyoming". Canadian Journal of Earth Sciences. 43 (10): 1399–1418. Bibcode:2006CaJES..43.1399F. doi:10.1139/e06-051.
  22. Frost, Carol; Frost, B.; Chamberlain, Kevin (October 2003). "Early Archean to Mesoproterozoic evolution of the Wyoming Province: Archean origins to modern lithospheric architecture". Canadian Journal of Earth Sciences. 40 (10): 1357–1374. Bibcode:2003CaJES..40.1357C. doi:10.1139/e03-054.
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