The rapid expansion of urban areas is the major driving force of global environmental change. As most urban landscapes expand in number and size, their inhabitants place increasing demands on resources and energy. These demands pose great challenges for ensuring human welfare and protecting biodiversity. Urban land use change has always been a question for urban planners and researchers, but understanding contemporary competition for urban land and associated resources is perhaps more urgent than ever. The inflow of large numbers of migrants, not only from the rural counterparts of larger cities but also from all over the world, poses new challenges to environmental processes and the functioning of urban systems. A critical question emerges: how can we sustainably integrate new migrants into large urban areas without compromising the environmental wellbeing and livelihood of existing local populations? Urban development concepts like smart growth, eco-cities and sponge cities have previously grappled with this question; through them, researchers, urban planners, architects, and other professionals have imagined new forms and functions for buildings, material infrastructure, and open or vegetated spaces. The central challenge is to improve the resilience capacity of urban landscapes. Here, the notion that cities themselves may be reinvented in more ecologically vital ways portends to offer solutions to the dire environmental stresses that climate change, natural resource scarcity, and geopolitical instability promise. There is an important interdisciplinary dimension to this challenge: different stakeholders speak different scientific and functional languages. This course emphasizes inter- and trans-disciplinary approaches in an effort to highlight the multiple and distinct knowledge forms and data types relevant to understanding linkages between landscape structure, landscape function, and urban socio-natural transformation.
Study Away Seminar (Undergraduate)
4 credits – 15 Weeks
Sections (Fall 2022)
SASEM-UG 9104-000 (18839)at NYU Berlin (Global)Instructed by