Topography concerns with the shape and character of the Earth's surface, and maps were among the first artifacts to record these observations. In modern mapping, a topographic map or topographic sheet is a type of map characterized by large-scale detail and quantitative representation of relief features, usually using contour lines (connecting points of equal elevation), but historically using a variety of methods. Traditional definitions require a topographic map to show both natural and artificial features. A topographic survey is typically based upon systematic observation and published as a map series, made up of two or more map sheets that combine to form the whole map. A topographic map series uses a common specification that includes the range of cartographic symbols employed, as well as a standard geodetic framework that defines the map projection, coordinate system, ellipsoid and geodetic datum. Official topographic maps also adopt a national grid referencing system.
These maps depict in detail ground relief (landforms and terrain), drainage (lakes and rivers), forest cover, administrative areas, populated areas, transportation routes and facilities (including roads and railways), and other man-made features.
Other authors define topographic maps by contrasting them with another type of map; they are distinguished from smaller-scale "chorographic maps" that cover large regions, "planimetric maps" that do not show elevations, and "thematic maps" that focus on specific topics.
However, in the vernacular and day to day world, the representation of relief (contours) is popularly held to define the genre, such that even small-scale maps showing relief are commonly (and erroneously, in the technical sense) called "topographic".
The study or discipline of topography is a much broader field of study, which takes into account all natural and man-made features of terrain.
Topographic maps are based on topographical surveys. Performed at large scales, these surveys are called topographical in the old sense of topography, showing a variety of elevations and landforms. This is in contrast to older cadastral surveys, which primarily show property and governmental boundaries. The first multi-sheet topographic map series of an entire country, the Carte géométrique de la France, was completed in 1789. The Great Trigonometric Survey of India, started by the East India Company in 1802, then taken over by the British Raj after 1857 was notable as a successful effort on a larger scale and for accurately determining heights of Himalayan peaks from viewpoints over one hundred miles distant.
Topographic surveys were prepared by the military to assist in planning for battle and for defensive emplacements (thus the name and history of the United Kingdom's Ordnance Survey). As such, elevation information was of vital importance.
As they evolved, topographic map series became a national resource in modern nations in planning infrastructure and resource exploitation. In the United States, the national map-making function which had been shared by both the Army Corps of Engineers and the Department of the Interior migrated to the newly created United States Geological Survey in 1879, where it has remained since.
1913 saw the beginning of the International Map of the World initiative, which set out to map all of Earth's significant land areas at a scale of 1:1 million, on about one thousand sheets, each covering four degrees latitude by six or more degrees longitude. Excluding borders, each sheet was 44 cm high and (depending on latitude) up to 66 cm wide. Although the project eventually foundered, it left an indexing system that remains in use.
By the 1980s, centralized printing of standardized topographic maps began to be superseded by databases of coordinates that could be used on computers by moderately skilled end users to view or print maps with arbitrary contents, coverage and scale. For example, the federal government of the United States' TIGER initiative compiled interlinked databases of federal, state and local political borders and census enumeration areas, and of roadways, railroads, and water features with support for locating street addresses within street segments. TIGER was developed in the 1980s and used in the 1990 and subsequent decennial censuses. Digital elevation models (DEM) were also compiled, initially from topographic maps and stereographic interpretation of aerial photographs and then from satellite photography and radar data. Since all these were government projects funded with taxes and not classified for national security reasons, the datasets were in the public domain and freely usable without fees or licensing.
TIGER and DEM datasets greatly facilitated geographic information systems and made the Global Positioning System much more useful by providing context around locations given by the technology as coordinates. Initial applications were mostly professionalized forms such as innovative surveying instruments and agency-level GIS systems tended by experts. By the mid-1990s, increasingly user-friendly resources such as online mapping in two and three dimensions, integration of GPS with mobile phones and automotive navigation systems appeared. As of 2011, the future of standardized, centrally printed topographical maps is left somewhat in doubt.
Topographic maps have many multiple uses in the present day: any type of geographic planning or large-scale architecture; earth sciences and many other geographic disciplines; mining and other earth-based endeavours; civil engineering and recreational uses such as hiking and orienteering.
The various features shown on the map are represented by conventional signs or symbols. For example, colors can be used to indicate a classification of roads. These signs are usually explained in the margin of the map, or on a separately published characteristic sheet.
Topographic maps are also commonly called contour maps or topo maps. In the United States, where the primary national series is organized by a strict 7.5-minute grid, they are often called or quads or quadrangles.
Topographic maps conventionally show topography, or land contours, by means of contour lines. Contour lines are curves that connect contiguous points of the same altitude (isohypse). In other words, every point on the marked line of 100 m elevation is 100 m above mean sea level.
These maps usually show not only the contours, but also any significant streams or other bodies of water, forest cover, built-up areas or individual buildings (depending on scale), and other features and points of interest such as what direction those streams are flowing.
Most topographic maps were prepared using photogrammetric interpretation of aerial photography using a stereoplotter. Modern mapping also employs lidar and other Remote sensing techniques. Older topographic maps were prepared using traditional surveying instruments.
The cartographic style (content and appearance) of topographic maps is highly variable between national mapping organizations. Aesthetic traditions and conventions persist in topographic map symbology, particularly amongst European countries at medium map scales.
Publishers of national topographic map series
Although virtually the entire terrestrial surface of Earth has been mapped at scale 1:1,000,000, medium and large-scale mapping has been accomplished intensively in some countries and much less in others. Nevertheless, national mapping programs listed below are only a partial selection. Several commercial vendors supply international topographic map series.
- Kent, A.J. and Hopfstock, A. (November 2018). "Topographic Mapping: Past, Present and Future". The Cartographic Journal. 55 (4): 305–308. doi:10.1080/00087041.2018.1576973.CS1 maint: multiple names: authors list (link)
- Kent, Alexander (1 July 2009). "Topographic Maps: Methodological Approaches for Analyzing Cartographic Style". Journal of Map & Geography Libraries. 5 (2): 131–156. doi:10.1080/15420350903001187. S2CID 128466975. Retrieved 13 June 2020.
- Government of Canada (8 April 2016). "National Topographic System Maps". Earth Sciences – Geography. Natural Resources Canada. Archived from the original on 15 May 2016. Retrieved 16 May 2016.
- P. D. A. Harvey, The History of Topographical Maps: Symbols, Pictures and Surveys, Thames and Hudson, 1980, ISBN 0-500-24105-8, p. 9. "By a topographical map, we mean a large-scale map, one that sets out to convey the shape and pattern of landscape, showing a tiny portion of the earth's surface as it lies within one's own direct experience, and quite distinct from the small-scale maps that show us the features of whole provinces, nations and continents."
- Art & Architecture Thesaurus entry for topographic maps Archived 7 June 2011 at the Wayback Machine.
- Committee on Nomenclature of the American Society of Photogrammetry, "Definitions of terms used in photogrammetric surveying and mapping: preliminary report", Photogrammetric Engineering, 8, 247-283, 1942. "Topographic Map. A map that presents the horizontal and vertical positions of the features represented; distinguished from a planimetric map by the addition of relief in measurable form." This definition is used in many glossaries of map terminology.
- M.-J. Kraak and F. Ormeling, Cartography: Visualization of Spatial Data, Longman, 1996, ISBN 0-582-25953-3, p. 44. "Traditionally, the main division of maps is into topographic and thematic maps. Topographic maps supply a general image of the earth's surface: roads, rivers, buildings, often the nature of the vegetation, the relief and the names of the various mapped objects."
- The range of information is indicated by the title of a map produced in 1766: A Topographical Map of Hartfordshire from an Actual Survey in which is Express'd all the Roads, Lanes, Churches, Noblemen and Gentlemen's Seats, and every Thing remarkable in the County, by Andrew Dury and John Andrews, reprinted by Hertfordshire Publications in 1980. This showed the relief by using hachures.
- Library of Congress, Geography and Maps: General Collections Archived 16 September 2017 at the Wayback Machine
- Dickey, Parke A (October 1985). "Who discovered Mount Everest?". Eos. 66 (41): 54–59. Bibcode:1985EOSTr..66..697D. doi:10.1029/EO066i041p00697. Retrieved 26 June 2011.
- Peter Barber, The Map Book, Weidenfeld & Nicolson, 2005, ISBN 0-297-84372-9, pp. 232, 250.
- "Organizing the U.S. Geological Survey". The United States Geological Survey: 1879–1989. U.S. Geological Survey, U.S. Department of the Interior. 10 April 2000. Archived from the original on 2 July 2007. Retrieved 19 June 2007.
- "The Four Great Surveys of the West". The United States Geological Survey: 1879–1989. U.S. Geological Survey, U.S. Department of the Interior. 10 April 2000. Archived from the original on 10 June 2007. Retrieved 19 June 2007.
- Ramirez, J. Raul. "Maps for the Future: A Discussion" (PDF). Archived from the original (PDF) on 22 November 2011. Retrieved 1 July 2011.
- Hurst, Paul (2010), Will we be lost without paper maps in the digital age? (PDF) (M.S. thesis), U.K.: University of Sheffield, pp. 1–18, archived from the original (PDF) on 2 October 2011, retrieved 1 July 2011
- Ordnance Survey, Explorer Map Symbols Archived 1 November 2012 at the Wayback Machine; Swisstopo, Conventional Signs Archived 26 July 2011 at the Wayback Machine; United States Geological Survey, Topographic Map Symbols Archived 10 September 2008 at the Wayback Machine.
- Kent, Alexander J.; Vujakovic, Peter (August 2009). "Stylistic Diversity in European State 1 : 50 000 Topographic Maps". The Cartographic Journal. 46 (3): 179–213. doi:10.1179/000870409x12488753453453. ISSN 0008-7041. S2CID 129681695.
- Pickles, John. Cartography, Digital Transitions, and Questions of History (PDF). International Cartographic Association, 1999. Ottawa. p. 17. Archived from the original (PDF) on 23 November 2011. Retrieved 29 June 2011.
- USGS Topographic maps are downloadable as pdf files from a searcheable map or by a search if the map name is known.
- How a Topographic Map is Manufactured, History, and Other Information
- The International Cartographic Association (ICA) Commission on Topographic Mapping