Ours is a restless planet where plates drift, and continents rift apart and collide. The record of this is written in the deformation of the crust – manifested as faults, folds, and rock fabric. In this class we will learn to recognize and assess these and other structures, to quantify the deformation that occurred as the structures were made, and to infer the forces that were at work.
Minerals are the fundamental building blocks of planetary materials, are essential natural resources for human society, and they modulate earth and environmental systems. This course explores the origin, distribution, and scientific and societal relevance of minerals. Through project-based inquiry, students will investigate the chemical and physical properties of minerals across a range of spatial scales, from the scale of individual atoms, to that of a hand specimen.
Minerals are the fundamental building blocks of planetary materials, are essential natural resources for human society, and they modulate earth and environmental systems. This course explores the origin, distribution, and scientific and societal relevance of minerals. Through project-based inquiry, students will investigate the chemical and physical properties of minerals across a range of spatial scales, from the scale of individual atoms, to that of a hand specimen.
This course focuses on the history of life as preserved in the sedimentary rock record. Students will learn how paleontologists and geobiologists use skeletal fossils, molecular fossils, and geochemical signatures to ask and answer questions about the evolution of ancient life and Earth history. Students will study the origination, radiation, and extinction of major groups of organisms in the context of global environmental change, with an emphasis on invertebrate and microbial life.
This course focuses on the history of life as preserved in the sedimentary rock record. Students will learn how paleontologists and geobiologists use skeletal fossils, molecular fossils, and geochemical signatures to ask and answer questions about the evolution of ancient life and Earth history. Students will study the origination, radiation, and extinction of major groups of organisms in the context of global environmental change, with an emphasis on invertebrate and microbial life.
For at least 3.5 billion years, Earth’s surface environments have supported some form of life. What geologic processes first created and subsequently maintained a habitable environment? How does contemporary global climate change compare to climate variations over Earth’s long history? This course looks at Earth’s climate and its surface environment from a geologist’s perspective. We will develop an understanding of the atmospheric, oceanographic, geological, and biological systems that interact to modulate the climate.
For at least 3.5 billion years, Earth’s surface environments have supported some form of life. What geologic processes first created and subsequently maintained a habitable environment? How does contemporary global climate change compare to climate variations over Earth’s long history? This course looks at Earth’s climate and its surface environment from a geologist’s perspective. We will develop an understanding of the atmospheric, oceanographic, geological, and biological systems that interact to modulate the climate.
For at least 3.5 billion years, Earth’s surface environments have supported some form of life. What geologic processes first created and subsequently maintained a habitable environment? How does contemporary global climate change compare to climate variations over Earth’s long history? This course looks at Earth’s climate and its surface environment from a geologist’s perspective. We will develop an understanding of the atmospheric, oceanographic, geological, and biological systems that interact to modulate the climate.
Spring semester. The Department.
How to handle overenrollment: null
Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Emphasis on written work; readings; independent research; textual analysis.
Independent reading course. Full course.
Admission with consent of the instructor required. Fall and spring semesters. The Department.
How to handle overenrollment: null
Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Readings; independent research; textual analysis.
