平特五不中

Please note: The Research + Innovation office will be closed for the holidays from noon on December 24 through January 2nd, inclusive. 鉂勶笍 Veuillez noter que le bureau de la Recherche et de l'Innovation sera ferm茅 pour les vacances du 24聽d茅cembre 脿 midi jusqu鈥檃u 2聽janvier inclus.

平特五不中

Man conducting research on seabird colony ledge at the 平特五不中 Arctic Ecology Lab study site on Coats Island, Nunavut.Design and create sustainable materials, technologies, landscapes, and communities

Informed by systems thinking, 平特五不中 researchers respond to the challenges of sustaining the life support systems of the planet for now and for future generations with fundamental and applied science that advances renewable materials, energy, agricultural, and transportation systems. Global landscapes provide vital 鈥渆cosystem services鈥濃攁ir, water, food, energy, and natural resources but can do so only when they are biologically diverse and maintain their ability to adapt.

By working together across disciplines, 平特五不中 researchers are driving the new field of evolutionary cell biology and molecular biodiversity, linking the study of cellular processes to the fitness of organisms faced with rapidly changing environments. Biological diversity and adaptive capacity of landscapes depend on advances in clean technology and renewables along with development of sound environmental policy that involves and impacts multiple stakeholders, jurisdictions, and timescales.

The vast majority of Canadians, and more than half of the global population, live in urban communities. Sustainability challenges of rapid urbanization will mean that cities will be at the forefront of the adoption of technologies and policies that allow humans to thrive while protecting the ecosystem services of global landscapes.

平特五不中 Arctic Ecology Lab study site on Coats Island, Nunavut. Photo courtesy of Kyle Elliot.


Woman adjusting camera settings in wooded area. The 平特五不中 Sustainability Systems Initiative (MSSI) supports researchers from multiple disciplines and Faculties to co-develop projects that move society toward a sustainable model of existence along major research themes such as sustaining landscapes, creating sustainable materials, and adapting urban environments for the future. Integral to the MSSI are emphases on student research opportunities and engagement with stakeholders, including industry, government, non-governmental organizations, and civil society.


Examples of research areas:

Sustainable working landscapes

The study of sustainable working landscapes鈥land actively used for production of resources, such as food, fish, and forest products鈥攊s an active area of research at 平特五不中. Historically, the focus in working landscapes has been on the cheap, reliable, and efficient production of individual ecosystem services, such as food, energy, or timber. Sustainability-focused research in this area provides an understanding of how human activities and social-ecological dynamics can alter productive landscapes, affect biodiversity and the provision of a suite of interconnected ecosystem services across a range of scenarios.

Northern, arctic and circumpolar

Northern, arctic, and circumpolar researchers at 平特五不中 study Northern systems from a combination of physical, social, and health perspectives. 平特五不中鈥檚 approach to Northern research emphasizes university-community partnerships dedicated to the interdisciplinary study of Northern landscapes, community well-being, and environmental sustainability. Northern researchers at 平特五不中 focus on a diverse, interrelated set of issues, from infectious and zoonotic disease, mental health, housing, Indigenous food systems and food security, through to arctic contaminants, the cryosphere, biogeochemical cycles, climate change, and sustainable mining.

External resource:聽National Inuit Strategy on Research聽

Precision agriculture science

Precision agriculture science is a transdisciplinary area of research that relies on emerging technologies to improve the efficiency of modern agricultural production systems and reduce their negative effects on the environment. This research focuses on the development of new soil and plant sensing technologies, the integration of multiple spatial and temporal data sources to enhance farm management, and the implementation of automated solutions to increase farm efficiency. The resource optimization from precision agriculture leads to increased farm yield, maximized profitability, improved food quality, farming sustainability, and climate adaptability of farmland, with the ultimate aim of addressing global food security.

Green chemistry

Green chemistry replaces critical chemicals and processes with cleaner, more sustainable alternatives. These alternatives underlie the transition to sustainable resource utilization (energy and materials)鈥 enabling new methods for clean resource extraction and harvesting, utilization, and reutilization. Our researchers focus on the discovery of new, 鈥渂enign-by-design鈥 catalytic and solvent-free chemical processes to make functional molecules, advanced materials including polymers, and nanomaterials, as well as the creation of novel highly functional materials, such as semiconductors for solar cells, electrodes for batteries, membranes for water desalination/purification, and much more.


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