Donald J. DePaolo

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Donald J. DePaolo
DonDePaolo.png
Donald J. DePaolo on a University of California Berkeley field trip, 2009
Born1951 (age 7071)
Nationality American
Alma mater Binghamton University
California Institute of Technology
Scientific career
Fields Earth science
Institutions University of California, Berkeley
Doctoral advisor Gerald Wasserburg
Doctoral students Daniel P. Schrag

Donald James DePaolo is an American professor of geochemistry in the Department of Earth and Planetary Science at the University of California, Berkeley and Associate Laboratory Director for Energy and Environmental Sciences at the Lawrence Berkeley National Laboratory.

Contents

Biographical summary

Donald J. DePaolo was born in 1951. He grew up in upstate New York.

Career

DePaolo received his B.S. degree with Honors in Geology from Binghamton University in 1973 and earned his Ph.D. in geology with a minor in chemistry under Gerald Wasserburg at the California Institute of Technology in 1978. In the same year, DePaolo began an assistant professorship at the University of California, Los Angeles Department of Geology and Geochemistry and subsequently earned his associate (1981–1983) and full professorship (1983–1988). In 1988, he began his term as Professor of Geochemistry at the University of California, Berkeley in the Department of Earth and Planetary Science, with a joint appointment as a Faculty Scientist in the Earth Sciences Division at the Lawrence Berkeley National Laboratory (LBNL) [1]. Upon his arrival in Berkeley, Dr. DePaolo established the Center for Isotope Geochemistry, a joint research facility between LBNL and UC Berkeley [2]. In 1998, he was made the Class of 1951 Professor of Geochemistry, and served as chair of the department from 1990 to 1993. From 1998 to 2006 DePaolo served as Geochemistry Department Head at LBNL, in 2007 he became Earth Sciences Division Director and from 2010 to 2011 he served as Acting Associate Laboratory Director for Energy and Environmental Sciences before accepting the position permanently on April 1, 2011. In Spring of 2009, DePaolo became the Director of the Center for Nanoscale Control of Geologic CO2 (EFRC) [3].

Research interests

DePaolo has coauthored over 170 peer-reviewed articles and reviews. His research interests focus on using naturally occurring isotope variations to explore questions such as

Major contributions

In his early career, DePaolo pioneered the use of samarium and neodymium isotope ratios to constrain the age and chemical evolution of rocks. DePaolo and his then advisor Gerald Wasserburg made the first Nd isotope measurements on terrestrial igneous rocks [5]. An important byproduct of this work was the development of epsilon notation (ε), with which initial 143Nd/144Nd values could be distinguished from the chondritic uniform reservoir (CHUR) in parts per ten thousand. Key principles of the Nd isotope system were laid out in his 1988 book, Neodymium Isotope Geochemistry: An Introduction.

DePaolo's work has since led to significant advances in using various isotope systems to constrain rates of metamorphic processes [6], quantify continental weathering and elemental seawater budgets through geologic time [7][8], and model fluid-rock interactions [9]. As principal investigator of the Hawaii Scientific Drilling Project (HSDP), DePaolo and coworkers sampled the flank of Mauna Kea volcano to a depth of several kilometers. Major findings included a determination of the geochemical structure of the Hawaiian mantle plume [10]. DePaolo's recent research provides a framework for understanding the partitioning of stable isotopes during mineral growth, with a focus on isotopes of calcium [11].

Recent service

Special Awards and Honors

Related Research Articles

The rubidium-strontium dating method is a radiometric dating technique, used by scientists to determine the age of rocks and minerals from their content of specific isotopes of rubidium (87Rb) and strontium. One of the two naturally occurring isotopes of rubidium, 87Rb, decays to 87Sr with a half-life of 49.23 billion years. The radiogenic daughter, 87Sr, produced in this decay process is the only one of the four naturally occurring strontium isotopes that was not produced exclusively by stellar nucleosynthesis predating the formation of the Solar System. Over time, decay of 87Rb increases the amount of radiogenic 87Sr while the amount of other Sr isotopes remains unchanged.

Mantle plume Upwelling of abnormally hot rock within Earths mantle

A mantle plume is a proposed mechanism of convection within the Earth's mantle. Because the plume head partially melts on reaching shallow depths, a plume is often invoked as the cause of volcanic hotspots, such as Hawaii or Iceland, and large igneous provinces such as the Deccan and Siberian Traps. Some such volcanic regions lie far from tectonic plate boundaries, while others represent unusually large-volume volcanism near plate boundaries.

Grenville Turner is a research professor at the University of Manchester. He is one of the pioneers of cosmochemistry.

Isotope geochemistry is an aspect of geology based upon the study of natural variations in the relative abundances of isotopes of various elements. Variations in isotopic abundance are measured by isotope ratio mass spectrometry, and can reveal information about the ages and origins of rock, air or water bodies, or processes of mixing between them.

Paul Werner Gast was an American geochemist and geologist.

Don L. Anderson American geophysicist

Don Lynn Anderson was an American geophysicist who made significant contributions to the understanding of the origin, evolution, structure, and composition of Earth and other planets. An expert in numerous scientific disciplines, Anderson's work combined seismology, solid state physics, geochemistry and petrology to explain how the Earth works. Anderson was best known for his contributions to the understanding of the Earth's deep interior, and more recently, for the plate theory hypothesis that hotspots are the product of plate tectonics rather than narrow plumes emanating from the deep Earth. Anderson was Professor (Emeritus) of Geophysics in the Division of Geological and Planetary Sciences at the California Institute of Technology (Caltech). He received numerous awards from geophysical, geological and astronomical societies. In 1998 he was awarded the Crafoord Prize by the Royal Swedish Academy of Sciences along with Adam Dziewonski. Later that year, Anderson received the National Medal of Science. He held honorary doctorates from Rensselaer Polytechnic Institute and the University of Paris (Sorbonne), and served on numerous university advisory committees, including those at Harvard, Princeton, Yale, University of Chicago, Stanford, University of Paris, Purdue University, and Rice University. Anderson's wide-ranging research resulted in hundreds of published papers in the fields of planetary science, seismology, mineral physics, petrology, geochemistry, tectonics and the philosophy of science.

Samarium–neodymium dating is a radiometric dating method useful for determining the ages of rocks and meteorites, based on the alpha decay of the long-lived samarium isotope to the stable radiogenic neodymium isotope. Neodymium isotope ratios together with samarium-neodymium ratios are used to provide information on age information and the source of igneous melts. It is sometimes assumed that at the moment when crustal material is formed from the mantle the neodymium isotope ratio depends only on the time when this event occurred, but thereafter it evolves in a way that depends on the new ratio of samarium to neodymium in the crustal material, which will be different from the ratio in the mantle material. Samarium–neodymium dating allows us to determine when the crustal material was formed.

Boninite is a mafic extrusive rock high in both magnesium and silica, thought to be usually formed in fore-arc environments, typically during the early stages of subduction. The rock is named for its occurrence in the Izu-Bonin arc south of Japan. It is characterized by extreme depletion in incompatible trace elements that are not fluid mobile but variable enrichment in the fluid mobile elements. They are found almost exclusively in the fore-arc of primitive island arcs and in ophiolite complexes thought to represent former fore-arc settings or at least formed above a subduction zone.

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Ocean island basalt

Ocean island basalt (OIB) is a volcanic rock, usually basaltic in composition, erupted in oceans away from tectonic plate boundaries. Although ocean island basaltic magma is mainly erupted as basalt lava, the basaltic magma is sometimes modified by igneous differentiation to produce a range of other volcanic rock types, for example, rhyolite in Iceland, and phonolite and trachyte at the intraplate volcano Fernando de Noronha. Unlike mid-ocean ridge basalts (MORBs), which erupt at spreading centers, and volcanic arc lavas, which erupt at subduction zones, ocean island basalts are the result of intraplate volcanism. However, some ocean island basalt locations coincide with plate boundaries like Iceland, which sits on top of a mid-ocean ridge, and Samoa, which is located near a subduction zone.

Geology of Cape Verde

Cape Verde is a volcanic archipelago situated above an oceanic rise that puts the base of the islands 2 kilometers (1.2 mi) above the rest of the seafloor. Cape Verde has been identified as a hotspot and the majority of geoscientists have argued that the archipelago is underlain by a mantle plume and that this plume is responsible for the volcanic activity and associated geothermal anomalies.

Luzon Volcanic Arc 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, Camiguin Island. 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.

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References

  1. "V.M. Goldschmidt Award". Geochemical Society . Archived from the original on 15 April 2021. Retrieved 10 August 2021. 2019 Donald J. DePaolo