Climate change is an urgent and multifaceted challenge facing all of society.
Harvard faculty teach an expanding array of courses examining the many dimensions of this shared challenge. Explore courses in climate and sustainability ranging from economics and English to public health and climate science.
HARVARD UNIVERSITY
THE SALATA INSTITUTE FOR CLIMATE AND SUSTAINABILITY
Integrated Human Pathophysiology 3 (IHP3) focuses on key concepts in normal physiology and pathophysiology of the kidney, endocrine and reproductive endocrine systems.
A central aim of this seminar is to reveal the plurality of ways landscapes are shaped across the African continent and how they help mitigate the impacts of changing climates and social injustice now and in the future.
.If Butler's visionary perspective on today's political and ecological crises is to be fully appreciated, it must be understood through the lens of her identity as a Black woman coming of age during the Black Power and Civil Rights Movements, and her engagement with Black religious expressions—particularly African traditional religions, Black Christian traditions, and Black new religious movements—all of which profoundly influenced either Butler’s personal life or her characters.The course will primarily focus on Parable of the Sower, Parable of the Talents, various essays and interviews, as well secondary articles.
The disturbance, degradation, and destruction of ecosystems from anthropogenic impacts is a global challenge. Recognizing this crisis, the United Nations declared this decade (2021-2030) the UN Decade of Ecosystem Restoration. In this course, we will explore the principles of ecology that are fundamental to the goal of ecosystem restoration, including restoring ecological function and structure to degraded lands.
The macroscopic description of the fundamentals of heat transfer and their application to practical problems in energy conversion, electronics and living systems with an emphasis on developing a physical and analytical understanding of conductive, convective and radiative heat transfer.
Through a series of lectures, discussions and workshop modules, learn how to develop, test, and apply quantifiable landscape climate performance strategies that can be applied to any project. Students will gain an understanding of how to analyze a place and develop approaches for reducing embodied carbon emissions of materials and operations, increasing biogenic carbon sequestration, and supporting co-benefits. Strategies will be outlined in daily lectures and followed by hands-on exercises which will ultimately be documented in a draft and final presentation for implementation recommendations at a specific site.
Avoiding the most catastrophic impacts of climate change requires nearly a complete replacement of the world’s energy system. Although the timing and technology mix of this energy transition remain uncertain, it is clear that trillions of dollars in new investment will be needed for everything from wind- and solar-farms, to batteries and EV factories. This is far more than any government or international organization can spend, making the private sector critical to success. In this light, this module explores how policy can help the world to finance the energy transition by using the different financial instruments and institutions that exist.
Throughout centuries, Indigenous communities have developed knowledge systems and practices that allow them to foster meaningful connections with natural environments and the earth
The complexity of governing cities continues to escalate as more of the world’s population will be living in urban areas by 2050. The problems of delivering basic services, while addressing climate and equity compound the challenge. This course seeks to equip students who wish to use digital tools to innovate with the knowledge and skills necessary to imagine and implement innovative solutions to public problems
This course will explore the potential for scaling agroforestry practices in the US by examining the relationships built through the cultivation of North American tree crops, from species-level interactions to regional distribution systems. Significant species and their immediate understory collaborators will be the starting point for unraveling and describing cultivation and stewardship, related ecological and social communities, craft, and other cultural practices.
Principles governing energy generation and interconversion. Current and projected world energy use. Selected important current and anticipated future technologies for energy generation, interconversion, storage, and end usage.
