UNESCO Global Geoparks
What is a UNESCO Global Geopark?
UNESCO Global Geoparks are single, unified geographical areas where sites and landscapes of international geological significance are managed with a holistic concept of protection, education and sustainable development. A UNESCO Global Geopark uses its geological heritage, in connection with all other aspects of the area’s natural and cultural heritage, to enhance awareness and understanding of key issues facing society, such as using our earth’s resources sustainably, mitigating the effects of climate change and reducing natural disasters-related risks. By raising awareness of the importance of the area’s geological heritage in history and society today, UNESCO Global Geoparks give local people a sense of pride in their region and strengthen their identification with the area. The creation of innovative local enterprises, new jobs and high-quality training courses is stimulated as new sources of revenue are generated through geotourism, while the geological resources of the area are protected.
While a UNESCO Global Geopark must demonstrate geological heritage of international significance, the purpose of a UNESCO Global Geopark is to explore, develop and celebrate the links between that geological heritage and all other aspects of the area’s natural, cultural and intangible heritages. It is about reconnecting human society at all levels to the planet we all call home and to celebrate how our planet and its 4,600 million year long history has shaped every aspect of our lives and our societies.
Geoparks Are Not Conventional Parks
Geoparks are not conventional parks. They do not:
- Control public lands
- Affect private property
- Impose rules
- Impede First Nations’ Rights and Titles.
There are 229 UNESCO Global Geoparks in 50 countries with 5 in Canada.
There are currently 5 UNESCO Global Geoparks in Canada:
Cliffs of Fundy
Stonehammer
Discovery
Percé
Tumbler Ridge
Aspiring Geoparks in Canada
There are currently four aspiring geoparks in Canada at varying levels of readiness to submit a formal application to become a geopark. The Canadian Geopark Network ( CGN ) has established guidelines governing the process by which Canadian communities can aspire to UNESCO Global Geopark status and it assists those communities to improve their applications that ultimately go to UNESCO Headquarters. The CGN conducts site visits prior to applications being sent to UNESCO and advises on the strengths and shortcomings of aspiring geoparks in Canada.
- Charlevoix
- Whistler B.C.: Fire & IceI
- Niagara
- Cabox
Geopark Requirements
Fundamental Features
There are four fundamental features to a UNESCO Global Geopark. These features are an absolute prerequisite for an area to become a UNESCO Global Geopark. The exact criteria for an area to become a UNESCO Global Geopark are set out in the Operational Guidelines for UNESCO Global Geoparks.
The four features that are fundamental to a UNESCO Global Geopark are:
Geological heritage of international value
In order to become a UNESCO Global Geopark, the area must have geological heritage of international value. This is assessed by scientific professionals, as part of the “UNESCO Global Geopark Evaluation Team”. Based on the international peer-reviewed, published research conducted on the geological sites within the area, the scientific professionals make a globally comparative assessment to determine whether the geological sites constitute international value.
Management
UNESCO Global Geoparks are managed by a body having legal existence recognized under national legislation. This management body should be appropriately equipped to address the entire area and should include all relevant local and regional actors and authorities. UNESCO Global Geoparks require a management plan, agreed upon by all the partners, that provides for the social and economic needs of the local populations, protects the landscape in which they live and conserves their cultural identity. This plan must be comprehensive, incorporating the governance, development, communication, protection, infrastructure, finances, and partnerships of the UNESCO Global Geopark.
Visibility
UNESCO Global Geoparks promote sustainable local economic development mainly through geotourism. In order to stimulate the geotourism in the area, it is crucial that a UNESCO Global Geopark has visibility. Visitors as well as local people need to be able to find relevant information on the UNESCO Global Geopark. As such, providing information via a dedicated website, leaflets, and detailed map of the area that connects the area’s geological and other sites. A UNESCO Global Geopark should also have a corporate identity.
Networking
A UNESCO Global Geopark is not only about cooperation with the local people living in the UNESCO Global Geopark area, but also about collaborating with other UNESCO Global Geoparks through the Global Geoparks Network (GGN), and regional networks for UNESCO Global Geoparks, in order to learn from each other and, as a network, improve the quality of the label UNESCO Global Geopark. Working together with international partners is the main reason for UNESCO Global Geoparks to be a member of an international network such as the GGN. Membership of the GGN is obligatory for UNESCO Global Geoparks. By working together across borders, UNESCO Global Geoparks contribute to increasing understanding among different communities and as such help peace-building processes.
Discover the DEEP TIME geology of the Georgian Bay Geopark
DEEP TIME’ is the themed expression of how exploring and understanding the past helps create a better future. The unique DEEP TIME story and its eight geological chapters encourages both visitors and residents to know the past, celebrate the present and help create a more resilient future for the Bay and its many communities.
DEEP TIME Zone 1
The Huronian
Ocean
2.7 billion years
Sault Ste Marie to Serpent River
The ancient mineral-rich rocks of the North Channel record the breakup of the planet’s oldest supercontinent – and the birth of the Huronian Ocean.
DEEP TIME Zone 2
Continents
Collide
1.8 billion years
Serpent River to Killarney
The Group of Seven’s white rolling quartzite hills are the stumps of mountains formed when landmasses collided to form supercontinent Nuna
DEEP TIME Zone 3
The Ancient
Himalayas
1.3 billion years
Killarney to Honey Harbour
The waterscape of the 30,000 Islands exposes the deep crustal roots of the immense Grenville Mountains formed when North and South America collided.
DEEP TIME Zone 4
Tropical
Seas
500 million years
Manitoulin Island
Much of North America was covered by warm shallow seas, teeming with early marine life that left fossil-rich limestones on Manitoulin Island.
DEEP TIME Zone 5
The Limestone
Coast
350 million years
Tobermory to Wiarton
Within the last 2 million years, the Bruce/Saugeen peninsula was scoured by Ice Age ice sheets that cut deep valleys into the face of the Niagara Escarpment such as at Owen Sound.
DEEP TIME Zone 6
Ice Ages &
Early
Cultures
13,000 years
Collingwood to Wiarton
The raised beaches of glacial Lake Algonquin surround the coast of southern Georgian Bay like staircases and hosted the camps of caribou-hunting Paleo-Indians 11,000 years ago.
DEEP TIME Zone 7
The Meeting
Place
Last 10,000 years
Collingwood to Honey Harbour
The ancient hard rocks of the Canadian Shield meet the softer limestones of the ancient seas creating a stark contrast in landscapes, ecosystems, and a diverse cultural history unique in North America.
DEEP TIME Zone 8
Mindo Gami Great
Spirit Lake
4,000 years to today
Waters of Georgian Bay
In 1615 Samuel de Champlain called Georgian Bay ‘La Mer Douce’ (the sweet water sea). An early map also portrays it as Karegnondi, derived from ‘lake’ in the language of the Petun First Nation.
Explore the Geological Past. Create a Sustainable Future.
The Georgian Bay Geopark thanks these organizations for their support
