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Green spaces? Zika virus? With GIS, you may find Mayan ruins — and more

Concordia expert Angela Kross explains why the application of geographic information systems (GIS) has no limits
May 12, 2016
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By Angela Kross


Quebec teen William Gadoury's clever use of GIS generated global excitement. | Photo by William Gadoury/CSA/Google This ingenious use of GIS generated global excitement. | Photo by William Gadoury


Earlier this week, a 15-year-old Quebecer made international headlines when it seemed he had discovered the site of a lost Mayan city using satellite imagery and star maps.

Experts have since raised doubts, but that doesn't detract from his innovative use of geographic information systems (GIS). Here Angela Kross — director of Concordia's new GIS summer certification course — explains why it's the way of the future.
 

Angela Kross, director of Concordia's GIS summer certification course Concordia's Angela Kross | Photo by David Ward

'GIS helps us understand places'


The story about the ingenious teen who developed a hypothesis about the location of major Mayan sites in relation to major stars is fascinating.

According to different news sources, William Gadoury used transparent overlays of star charts and known Mayan site maps. When one major star did not match any site, he used satellite images to explore the location further.

The process he used to develop and test his hypothesis involves some very typical and conventional geographic information system (GIS) tasks: the use of map overlays and satellite remote sensing. Satellite images allow us to observe and measure objects anywhere on earth, but interpretations need to be careful and validated.

The satellite images in this case, for example, revealed a set of geometric structures (e.g. rectangles) under the vegetation canopy. It is hard to attribute these structures to natural phenomena.

Man-made structures such as the Maya temples could cause such features in the images. But so could old abandoned agriculture fields, for example (or something else). Only a field expedition could give a true validation of this hypothesis, which could become a very difficult and expensive process.

This is where GIS and remote sensing can play a very important role. For example, if the features were indeed caused by an old agriculture/corn field, satellite images of 5, 10 or 20 years ago could help explain the nature of the observed features. Spatial data and maps of communities that live around that area (if they exist) or maps of agriculture activities in that area would also help us understand whether the features could be caused by recent activities.

All this information (satellite images and maps) can be displayed and analyzed using free open source or proprietary GIS software.
 

5 great uses of GIS

The application of GIS has no limitations, as long as we have spatial information (location, location, location!).

GIS can play a powerful role in assisting scientists, business specialists and community organizations validate hypotheses and communicate information and research from many domains.

  1. Biology and environmental health specialists, for example, may want to map the distribution of the Zika vector (mosquitoes) habitat worldwide. Will increasing temperatures push the boundaries of those habitats?

  2. An urban planner may want to map green spaces in the city to evaluate the need for increased green areas.

  3. A high school teacher may want to teach history classes using GIS storytelling: attaching dates to places and photos; all on Google Earth for example.

  4. An NGO may want to collect information from aboriginal communities to map the most important lands, according to them (participatory GIS).

  5. A transport company may want to know if their existing routes are actually covering the needs of the consumers. Where would new services be needed?


GIS helps us to understand places, to detect and understand spatial patterns and to determine relationships between variables over time and space. GIS plays an important role in bridging multiple disciplines, and in enabling collaboration using one platform.

 


Concordia’s Department of Geography, Planning and Environment is offering a new Summer GIS Certification program entitled Learning GIS Through Practice from May 30 to June 3. Space is limited, so sign up now!



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