Background Info

The video above is from the September 2012 iPad edition of National Geographic magazine.

Choosing a map projection is a major challenge for cartographers. Features such as size, shape, distance, or scale can be measured accurately on Earth. Once projected on a flat surface, however, only some of these qualities can be accurately represented. Every map has some sort of distortion. The larger the area covered by a map, the greater the distortion.

Depending on the map's purpose, cartographers must decide what elements of accuracy are most important to preserve. This determines which projection to use. For example, conformal maps show true shapes of small areas but distort size. Equal area maps distort shape and direction but display the true relative sizes of all areas. There are three basic kinds of projections: planar, conical, and cylindrical. Each is useful in different situations.

Cartographers at National Geographic chose to use a version of the Mollweide projection for their map highlighting ocean floors, published as the map supplement in the September 2012 issue of National Geographic magazine. This Mollweide projection is referred to as a pseudocylindrical projection. The specific version of the Mollweide projection used is called an interrupted Mollweide, because lines of longitude, or meridians, are interrupted. The map is pulled apart at specific meridians to minimize distortion in areas where the cartographer would like the map reader to focus their attention.

Find more interactive content, photos, and videos in the iPad version of National Geographic magazine.

Questions

1. 

When did Flemish cartographer Gerardus Mercator first design the famous projection named after him?

Show Answer

The projection was first designed and used by Gerardus Mercator in 1569, during the 16th century.

2. 

According to the video, how many times larger than Greenland is Africa?

Show Answer

According to the video, Africa is fourteen times larger than Greenland. Even though Greenland appears to be larger in maps projected in the Mercator projection, this is just a distortion introduced by the projection.

3. 

What map projection was chosen for the National Geographic Magazine September 2012 map supplement and which ocean was chosen as the center point of the map?

Show Answer

An interrupted Mollweide projection was chosen, and cartographers chose to have the map centered on the Pacific Ocean.

4. 

Why did cartographers at National Geographic choose the map projection they did?

Show Answer

They chose the interrupted Mollweide projection because it shows all three oceans with the least distortion possible. The emphasis in this map is meant to be on ocean floors rather than land areas.

5. 

What are two characteristics of the Mollweide map projection that a cartographer would consider when creating a map?

Show Answer

The Mollweide projection is not appropriate for use in navigation, but you can use it to compare the size and shape of land areas. An interrupted version of the map projection can also be used to minimize distortion in important areas.

Fast Facts

  • In 1922, the National Geographic Society adopted the Van der Grinten projection, which depicts the globe by projecting it in a circle rather than a rectangle (as in the well-known Mercator projection) or an ellipse, common in other projections. The Van der Grinten projection was used by National Geographic until 1988.
  • In 1995, the Winkel Tripel projection replaced the Robinson projection on the Society's signature world maps. Long used in various European atlases, the Winkel Tripel, first published as a map supplement in National Geographic Magazine in April 1995, is one of the most accurate representations of the round globe on flat paper.
  • The "Map of the Moon," published in the February 1969 issue of National Geographic Magazine, was the first map to show the entire lunar surfaceincluding the far side of the moonon a single sheet of paper.
  • Many popular online map services like Google Maps and ArcGIS Online use a variation of the Mercator projection. This projection is very good for preserving angles in maps, but is not good for viewing areas of the world close to the North and South Poles.

Vocabulary

Term Part of Speech Definition Encyclopedic Entry

accuracy

Noun

condition of being exact or correct.

bathymetric map

Noun

representation of spatial information displaying depth underwater.

cartographer

Noun

person who makes maps.

cartography

Noun

art and science of making maps.

conformal map

Noun

representation of spatial information where angles, scale, and shape are preserved.

cylindrical projection

Noun

map projection where the Earth's surface is projected onto a tube, or cylinder, shape.

distortion

Noun

representation that is twisted, mistaken, or false.

ellipsoid

Noun

shape of an elongated oval with some dimension of depth.

equal area map

Noun

maps that show true relative sizes but distort shape and direction.

Goode projection

Noun

representation of a sphere that does not distort land masses and divides spatial information into six unequal lobes. Also called an orange-peel map.

longitude

Noun

distance east or west of the prime meridian, measured in degrees.

Encyclopedic Entry: longitude

map

Noun

symbolic representation of selected characteristics of a place, usually drawn on a flat surface.

Encyclopedic Entry: map

map projection

Noun

method by which shapes on a globe are transferred to a flat surface.

Mercator projection

Noun

representation of a sphere where lines of latitude and longitude are straight and at right angles to one another.

meridian

Noun

line of longitude, dividing the Earth by north-south.

Mollweide projection

Noun

representation of a sphere where area is shown accurately but directions and shapes are distorted.

navigation

Noun

art and science of determining an object's position, course, and distance traveled.

Encyclopedic Entry: navigation

Credits

Media Credits

The audio, illustrations, photos, and videos are credited beneath the media asset, except for promotional images, which generally link to another page that contains the media credit. The Rights Holder for media is the person or group credited.

Producer

Sean P. O'Connor, National Geographic Society

User Permissions

For information on user permissions, please read our Terms of Service.

If you have questions about licensing content on this page, please contact natgeocreative@ngs.org for more information and to obtain a license.

If you have questions about how to cite anything on our website in your project or classroom presentation, please visit our FAQ page.

Media

Some media assets (videos, photos, audio recordings and PDFs) can be downloaded and used outside the National Geographic website according to the Terms of Service. If a media asset is downloadable, a download button appears in the lower right hand corner (download) of the media viewer. If no button appears, you cannot download or save the media.

Text

Text on this page is printable and can be used according to our Terms of Service.

Interactives

Any interactives on this page can only be played while you are visiting our website. You cannot download interactives.