Geosciences
- AOS 537/GEO 537: Atmospheric ChemistryNatural gas phase and heterogeneous chemistry in the troposphere and stratosphere, with a focus on elementary chemical kinetics; photolysis processes; oxygen, hydrogen, and nitrogen chemistry; transport of atmospheric trace species; tropospheric hydrocarbon chemistry and stratospheric halogen chemistry; stratospheric ozone destruction; local and regional air pollution, and chemistry-climate interactions are studied.
- CEE 311/CHM 311/GEO 311/ENE 311: Global Air PollutionStudents will study the chemical and physical processes involved in the sources, transformation, transport, and sinks of air pollutants on local to global scales. Societal problems such as photochemical smog, particulate matter, greenhouse gases, and stratospheric ozone depletion will be investigated using fundamental concepts in chemistry, physics, and engineering. For the class project, students will select a trace gas species or family of gases and analyze recent field and remote sensing data based upon material covered in the course. Environments to be studied include very clean, remote portions of the globe to urban air quality.
- ENV 353/CEE 353/GEO 353: Chemistry of the EnvironmentThis course focuses on a quantitative understanding of the chemistry of the atmosphere and natural waters on Earth, while exploring some of today's most pressing environmental issues, including the greenhouse effect, ocean acidification, urban smog, the ozone hole, acid mine drainage, and coastal dead zones. The goal is to leverage the laws of chemistry to understand our current environment, make sense of remediation strategies and explore the future.
- ENV 423/CEE 423/GEO 423: HydroclimatologyStudents will learn basic concepts related to climate and how it controls different components of the global water budget. Emphasis will be placed on dominant large scale climate modes (e.g., El Niño-Southern Oscillation). The role of major types of storms (e.g., tropical cyclones, atmospheric rivers) as flood agents will be addressed. Climate change, its possible causes and the interaction with the living world will be discussed. Statistical methods to examine the relation between climate and hydrologic variables will be introduced. Basic computer coding and math skills are required.
- GEO 103: Natural DisastersAn introduction to natural (and some society-induced) hazards and the importance of public understanding of the issues related to them. Emphasis is on the geological processes that underlie the hazards, with discussion of relevant policy issues tied to reading recent newspaper/popular science articles. Principal topics: Earthquakes, volcanoes, landslides, tsunami, hurricanes, floods, meteorite impacts, global warming. Intended primarily for non-science majors.
- GEO 104: The Age of DinosaursIntroduction to dinosaur paleontology, including fundamental geological and biological concepts, with focus on how modern paleontologists ask interdisciplinary questions to examine the fossil record. Use of dinosaurs to explore: process and impact of scientific method; geologic processes, geologic time, global change, ecosystems, biography; anatomy, evolution, biodiversity, phylogenetic relationships; and media portrayal of extinct animals.
- GEO 202/ENV 326: Ocean, Atmosphere, and ClimateThe ocean and the atmosphere control Earth's climate, which in turn influences the ocean. We explore ocean and atmospheric circulation, their chemical compositions and interactions that make up the climate system, including exchanges of heat and carbon, and how these circulations control marine ecosystems and biogeochemical cycles. The course focuses on climate change and human impacts, including effects on aquatic and terrestrial ecosystems from increased atmospheric carbon dioxide. This course is suitable for students concentrating in science or engineering or pursuing the Climate Science minor. One weekly precept complements lectures.
- GEO 320/AST 320/PHY 320: Introduction to Earth and Planetary PhysicsWhat makes Earth habitable? How have we unraveled the mysteries of planetary interiors? Using a physics-centered approach, we'll explore a range of captivating subjects in earth and planetary science, including the origin of solar systems, tectonic plates, mantle convection, earthquakes, and volcanoes. You will learn methods to study the inner structures and dynamics of planets, not just Earth, but also celestial neighbors like Mars, Venus, Mercury, the Moon, and even exoplanets.
- GEO 369/MSE 369/ENV 388: Environmental Materials Chemistry: Researching in Field and LaboratoryThe course covers concepts related to the chemistry of inorganic and organic materials found in the pristine and contaminated settings in the Earth surface environments, with an introduction to the modern field sampling techniques and advanced laboratory analytical and imaging tools. Different materials characterization methods, such as optical, infrared, and synchrotron X-ray spectroscopy and microscopy, will also be introduced. Field sampling and analysis of materials from diverse soil and coastal marine environments will be the focus during the second half of the semester.
- GEO 372: RocksThis course serves as an introduction to the processes that govern the distribution of different rocks in the Earth. We learn to make observations from the microscopic to continental scale and relate these to theoretical and empirical thermodynamics. The goal is to understand the chemical, structural, and thermal influences on rock formation and how this in turn influences the plate tectonic evolution of our planet.
- GEO 416/ENV 418: Microbial Life - A Geobiological ViewMicrobes were the first life forms on Earth and are the most abundant life forms today. Their metabolisms underpin the cycling of carbon, nitrogen, and other important elements through Earth systems. This course will cover the fundamentals of microbial physiology and ecology and examine how microbial activities have shaped modern and ancient environments, with the goal of illustrating the profound influence of microbial life on our planet for over 3 billion years.
- GEO 427/CEE 427/ENV 427: Climate II: Coupled Earth System DynamicsThis course explores the fundamentals of climate dynamics. Through examination of the coupled interactions between the atmosphere, oceans, land, and cryosphere, students will investigate how these systems drive climate variability and change across timescales ranging from weeks to millennia. Topics include: global energy balance, atmospheric and oceanic circulation, the hydrologic cycle, climate sensitivity and feedbacks, and paleoclimate. Students will study a hierarchy of climate models, from theoretical frameworks to comprehensive general circulation models, and assess the mechanisms behind major climate feedbacks and modes of variability.
- GEO 435/ENV 435: Ocean Biogeochemical CyclesThis course examines the chemical composition of the oceans and the physical, chemical, and biological processes governing this composition in the past and present. Emphasis on the cycles of major elements including nutrients, carbon, and oxygen, involved in structuring marine ecosystems and regulating Earth's climate on time scales of years to millions of years. Processes and phenomena include oceanic chemical fluxes at the ocean-atmosphere and ocean-sediment interfaces, the interactions of ocean biogeochemical cycles with the physical climate system and biodiversity, and the ongoing anthropogenic perturbations.
- GEO 441/APC 441: Computational GeophysicsAn introduction to weak numerical methods, in particular finite-element and spectral-element methods, used in computational geophysics. Basic surface & volume elements, representation of fields, quadrature, assembly, local versus global meshes, domain decomposition, time marching & stability, parallel implementation & message-passing, and load-balancing. In the context of parameter estimation and 'imaging', will explore data assimilation techniques and related adjoint methods. The course offers hands-on lab experience in meshing complicated surfaces & volumes as well as numerically solving partial differential equations relevant to geophysics
- GEO 503/AOS 503: Responsible Conduct of Research in Geosciences (Half-Term)Course educates Geosciences and AOS students in the responsible conduct of research using case studies appropriate to these disciplines. This discussion-based course focuses on issues related to the use of scientific data, publication practices and responsible authorship, peer review, research misconduct, conflicts of interest, the role of mentors & mentees, issues encountered in collaborative research and the role of scientists in society. Successful completion is based on attendance, reading, and active participation in class discussions. Course satisfies University requirement for RCR training.
- GEO 505: Fundamentals of the GeosciencesA yearlong survey, in sequence, of fundamental papers in the geosciences. Topics in 505 (Spring) include the origin and interior of the Earth, plate tectonics, geodynamics, the history of life on Earth, the composition of the Earth, its oceans and atmospheres, past climate. Topics in 506 (Fall) include present and future climate, biogeochemical processes in the ocean, geochemical cycles, orogenies, thermochronology, rock fracture and seismicity. A core course for all beginning graduate students in the geosciences.
- GEO 520: Stable Isotope Geochemistry With An Environmental FocusExamines the use of stable isotope measurements to investigate important biogeochemical, environmental, and geologic processes, today and over Earth history. Introduction to terminology, basic underlying principles, measurement techniques, commonly used analytical and computational approaches for analyzing data, followed by a review of typical applications of the isotope systems of carbon, oxygen, nitrogen, and other elements. Lectures by the instructor, problem sets, numerical modeling assignments, student presentations and a final student paper based on readings from the scientific literature.
- GEO 538: PaleoclimatologyThis course covers specific intervals of paleoclimate and topics may vary year by year. Topics include controls on Earth's climate, a survey of sedimentary and geochemical information used in climate reconstructions, geophysical techniques applied to paleoclimate, and geochronological constraints on paleoclimate records. Intended for students in Geosciences and the Atmospheric and Oceanic Sciences programs interested in Earth's environment, past and present. Spring 2025 course topic: the Quaternary Period (2.58 million years ago - present)