Associate Professor, Department of Marine Science, College of Natural Sciences
brett_baker@utexas.edu

Expertise: He uses DNA sequencing technologies and computational analyses to discover marine microbes that can't be cultured in the lab and reconstruct their evolutionary histories. Keywords: metagenomics, transciptomics, proteomics, marine microbial communities.

Research Professor, Institute for Geophysics, Jackson School of Geosciences
blank@ig.utexas.edu
+1 512 471 0489, +1 512 471 6156

Expertise: Antarctic ice sheets, robotic space missions to Europa, airborne and ground-based geophysical techniques (including laser altimetry, radar sounding, seismic reflection and refraction), West Antarctic rift system, West Antarctic Ice Sheet, climate change, global warming, remote sensing, Thwaites glacier, East Antarctica, Europa Clipper

Assistant Professor, Department of Marine Science, College of Natural Sciences
simon.brandl@austin.utexas.edu

Expertise: Simon Brandl is a fish ecologist who studies the ecology, evolution, and functional role of fishes. He is particularly interested in some of the most common, but difficult to see fish known as “cryptobenthic fishes”, or just “cryptos.” These fishes, such as gobies and blennies, are small and live on the bottom of many ecosystems, such as coral reefs or the local oyster reefs. While they are often overlooked, they are extremely abundant in tropical coastal ecosystems worldwide, account for almost 1/10 of all vertebrate diversity on Earth, and feed many of the larger species we care about. Insight into these types of fish will help researchers better understand the role fish have in marine ecosystems.

Department Chair, Marine Science, College of Natural Sciences
ed.buskey@utexas.edu
+1 361 749 3102, +1 361 749 3104

Expertise: Biological oceanography; marine ecology; marine plankton; harmful algal blooms (red tides brown tides); behavior and sensory perception of marine organisms; bioluminescence

Associate Professor, Department of Earth and Planetary Sciences, Jackson School of Geosciences
ejcatlos@jsg.utexas.edu
+1 512 471 4762

Expertise: Can also see https://www.catlos.work/ My primary research focus is <strong>geochemistry</strong>, and how the fundamentals of chemistry (mineral reactions, radiogenic and stable isotopes, major and trace elements) can be and are used to understand what the Earth was like in the past. In this, I have interests that span a broad range of range of plate boundary processes and laboratory approaches. Many ancient fault systems are clues to determine the evolution and migration of Earth's continents in the past, identify important economic resources that formed during specific times in Earth's history, and/or to assess geological hazards that result due to reactivation of older faults or mass movement of rocks. They are used to understand how plate tectonics operates today and how it operated in the past. I am interested in constraining the evolution of a number of fault systems and mountain ranges that formed during the closure of ancient ocean systems primarily across Asia, the Middle East, and Europe. <br> <br>For example, a major portion of my <strong>Himalayan research </strong> agenda involves constraining past motion on the Main Central Thrust, a large-scale shear zone that worked to create the highest mountains on the planet. I currently use novel geochemical and geochronological approaches that take advantage of modern-day technology to understand how <strong> garnet-bearing rocks </strong> moved at a high-resolution scale within that structure. Garnets are chemical tape recorders, and their chemical elements can be used to ascertain the pressures and temperatures they experienced. They also enclose radioactive minerals, such as monazite, that can be dated to time their history. Data from numerous garnet-bearing rocks across the Main Central Thrust can be used to inform us regarding how and when the Himalayas uplifted in the past, and lend insight into the motion that affects it today. To this end, I collaborate and learn from other researchers, such as geophysicists and modelers. <br> <br>I apply similar approaches to garnet-bearing rocks found in extensional systems in western <strong>Turkey</strong>. In this region, the plate boundary experienced a major switch in the geological past from compression to extension. Again, I apply new approaches in the thermodynamic modeling and geochronology to garnets in this locale to understand why and how this plate tectonic transition occurred. <br> <br>In this portion of my research, I also include the study of <strong>granites</strong>, as these igneous bodies emplaced during the extensional phase. The timing of their formation is key pieces of information regarding how extension occurred in western Turkey, both in time and space. To this end, I pioneered new imaging approaches to their study, and collaborate with economic geologists in Turkey who are interested in how heat and fluid flow around these granite bodies are intricately involved in the formation of ore resources. Their research sparked my interest in granite petrology, and I also study this rock type in China and Slovakia. Some of these granites formed at ancient plate boundaries as continents collided, and their ages and chemistry constrain when and what types of geological processes operated during their formation. <br> <br>The approaches I apply (geochemistry and geochronology) are of interest to a wide variety of researchers, so I collaborate and involve students in projects that include other geologists. An example of this is the dating of radioactive minerals from <strong>ancient meteorite impact craters and massive volcanic eruptions</strong>, events that are key for shaping how life evolved in Earth's history. These projects involve the use of modern and ever-evolving <strong>technological advances in geochemistry</strong>, such as the laser ablation of tiny zircon crystals, or the use of instruments that do not require minerals to be separated from rocks, such as secondary ion mass spectrometry (SIMS). <br> <br>I am interested in <strong>accessory minerals</strong>, such as zircon and monazite, and what controls their appearance in metamorphic and igneous rocks. Monazite, in particular, has been a focus of my research and I have key expertise in its formation, composition, geochronology, and its use as a rare earth resource. <br> <br>Although my research primarily involves compressional and extensional plate boundaries and igneous and metamorphic rocks, I recently delved into understanding sedimentary rocks from along the North Anatolian Fault, a major strike-slip system in north-central Turkey. In this research, we obtained oxygen isotopes across transects along calcite-filled fractures in limestones using SIMS. These calcite-filled fractures have the potential to record their source and provide key insight into the history of the limestones as well as their use for recording modern day fluid flow driven by seismic activity along the active fault system. <br> <br>Fundamentally, my research is <strong>field-based</strong> and involves the mapping and collection of rocks and understanding their importance in addressing research questions regarding what the Earth was like in the past. The research is <strong>laboratory-based</strong>, and I take advantage of modern advances in technology applied to geosciences, including numerous facilities at UT Austin and elsewhere.

Associate Professor, Department of Marine Science, College of Natural Sciences
a.esbaugh@austin.utexas.edu
+1 361 749 6835

Expertise: Marine science; effects of climate change, toxins and ocean acidification on fish; fish physiology; environmental physiology; respiratory gas exchange; acid-base and osmoregulatory balance; the evolution of physiological systems; aquatic toxicology;

Professor, Department of Earth and Planetary Sciences, Jackson School of Geosciences
pflemings@jsg.utexas.edu
+1 512 475 8738, +1 512 475 9520

Expertise: Stratigraphy, basin analysis, basin-scale fluid flow, pore pressures in seafloor sediments, submarine landslides, oil and gas migration, methane hydrates, Integrated Ocean Drilling Program (IODP)

Research Professor, Institute for Geophysics, Jackson School of Geosciences
sean@ig.utexas.edu
+1 512 471 0483

Expertise: – Marine and planetary geophysical imaging at nested resolutions and ground truth through drilling, coring, logging, and sampling.<br> – Tectonic processes, tectonic-climate interactions, and geohazards of convergent margins and transitional tectonic environments.<br> – Role of catastrophism in the geologic record including impact cratering, hurricanes, and tectonic events.<br> – Planetary habitability, impact generated ecosystems, biotic crises.

Research Professor, Bureau of Economic Geology, Jackson School of Geosciences
susan.hovorka@beg.utexas.edu
+1 512 471 4863

Expertise: Geologic carbon sequestration in deep sedimentary environments as part of carbon capture and storage. PI of the Gulf Coast Caron Center (www.gulfcoastcarbon.org) focused on research relevant to commercial development of geologic sequestration in regions where it is both needed and possible. Monitoring field projects. Petrography and sedimentology supporting hydrogeology in karst and contaminated systems. K-12 and public outreach and education.

Associate Professor, Department of Radio-Television-Film, Moody College of Communication
skelban@austin.utexas.edu
+1 512 232 6037

Expertise: screenwriting; television; film industry

Research Professor, Bureau of Economic Geology, Jackson School of Geosciences
steve.laubach@beg.utexas.edu
+1 512 471 1534, +1 512 471 6303

Expertise: Structural diagenesis, structural geology, fracture analysis, fluid inclusion and cathodoluminescence studies, rock mechanics, mechanical and fracture stratigraphy, hydrocarbon exploration and development in deep and/or structurally complex areas, tight gas sandstone, coalbed methane, shale gas; geothermal, geologic aspects of hydraulic fracturing, application of borehole-imaging geophysical logs to stress and fracture evaluation, structural evolution of North American Cordillera, fracture history of NW Scotland, regional fracture studies Argentina.

Professor, Department of Earth and Planetary Sciences, Jackson School of Geosciences
mohrig@jsg.utexas.edu
+1 512 471 2282

Expertise: Sedimentary Geology, Sedimentology, Stratigraphy, Geomorphology, Rivers, Deltas, Coastlines, Submarine Channels, Geohazards, Sediment-Gravity Currents, Sediment Transport, Seismic Interpretation, Basin Analysis

Assistant Professor, Department of Radio-Television-Film, Moody College of Communication
cnault@utexas.edu

Expertise: grassroots queer transmedia

Research Professor, Bureau of Economic Geology, Jackson School of Geosciences
jeff.paine@beg.utexas.edu
+1 512 471 1260, +1 512 471 1534

Expertise: Near-surface geophysics in hydrogeology and environmental and Quaternary geology; coastal geology; Quaternary geology and geomorphology; computer applications in the geological sciences

Associate Professor, Department of Geography and the Environment, College of Liberal Arts
cramos@austin.utexas.edu
+1 512 232 2067
Spanish Speaker

Expertise: Hydro-geomorphology; terrestrial sediment and carbon budgets; sediment routing; road erosion; infiltration and runoff routing modeling; land use and climate change effects on hydrologic/geomorphic processes and their consequences on water quality, sustainable development, stream habitat, and marine ecosystems; development of GIS-based sediment budget/hydrologic applications; mass wasting processes; spatial scale issues; natural hazards.

Professor Emeritus, Department of Earth and Planetary Sciences, Jackson School of Geosciences
echino@jsg.utexas.edu

Expertise: Invertebrate paleontology; evolutionary biology; fossil and living echinoderms; echinoderm systematics; Paleozoic marine communities and ecosystems; paleoecology; crinoids; blastoids; rhombiferans; eocrinoids; parablastoids; blastozoans; edrioasteroids; edrioblastoids; starfish; stylophorans; ctenocystoids; helicoplacoids; Cambrian evolutionary fauna; Paleozoic evolutionary fauna; Ordovician radiation; Cambrian explosion; environment & earth science

Professor, School of Law
msturley@law.utexas.edu
+1 512 232 1350

Expertise: Admiralty and maritime law, particularly the commercial aspects of maritime law (such as the international carriage of goods by sea); Supreme Court practice; commercial law, payment systems

Professor, Department of Integrative Biology, College of Natural Sciences
etheriot@austin.utexas.edu
+1 512 232 2379, +1 512 471 4997

Expertise: Algae; aquatic biology; paleontology; freshwater ecology; evolution; diatoms; Texas Natural Science Center

Professor, Department of Sociology, College of Liberal Arts
cwilliams@austin.utexas.edu
+1 512 232 6321

Expertise: gender, sexuality, workplace issues, qualitative research methods, theory

Professor Emeritus, Department of Earth and Planetary Sciences, Jackson School of Geosciences
crwilson@jsg.utexas.edu
+1 512 471 5008

Expertise: Geophysics, including gravity, space geodesy, and applied seismology