A thematic map is a type of map specifically designed to "show a particular theme connected with a specific geographic area.
A thematic map is a map that focuses on a specific theme or subject area. This is in contrast to general reference maps, which regularly show the variety of phenomena—geological, geographical, political—together. The contrast between them lies in the fact that thematic maps use the base data, such as coastlines, boundaries and places, only as points of reference for the phenomenon being mapped. General maps portray the base data, such as landforms, lines of transportation, settlements, and political boundaries, for their own sake.
Thematic maps emphasize spatial variation of one or a small number of geographic distributions. These distributions may be physical phenomena such as climate or human characteristics such as population density and health issues. Barbara Petchenik described the difference as "in place, about space." While general reference maps show where something is in space, thematic maps tell a story about that place (e.g., city map).
Thematic maps are sometimes referred to as graphic essays that portray spatial variations and interrelationships of geographical distributions. Location, of course, is important to provide a reference base of where selected phenomena are occurring.
An important cartographic element preceding thematic mapping was the development of accurate base maps. Improvements in accuracy proceeded at a gradual pace, and even until the mid-17th century, general maps were usually of poor quality. Still, base maps around this time were good enough to display appropriate information, allowing for the first thematic maps to come into being.
One of the earliest thematic maps was a map entitled Designatio orbis christiani (1607) by Jodocus Hondius showing the dispersion of major religions, using map symbols in the French edition of his Atlas Minor (1607). This was soon followed by a thematic globe (in the form of a six-gore map) showing the same subject, using Hondius' symbols, by Franciscus Haraeus, entitled: Novus typus orbis ipsus globus, ex Analemmate Ptolomaei diductus (1614)
An early contributor to thematic mapping in England was the English astronomer Edmond Halley (1656–1742). His first significant cartographic contribution was a star chart of the constellation of the Southern Hemisphere, made during his stay on St. Helena and published on 1686. In that same year he also published his first terrestrial map in an article about trade winds, and this map is called the first meteorological chart. In 1701 he published the "New and Correct Chart Shewing the Variations of the Compass", see first image, the first chart to show lines of equal magnetic variation.
Another example of early thematic mapping comes from London physician John Snow. Though disease had been mapped thematically, Snow’s cholera map in 1854 is the best known example of using thematic maps for analysis. Essentially, his technique and methodology anticipate principles of a geographic information system (GIS). Starting with an accurate base map of a London neighborhood which included streets and water pump locations, Snow mapped out the incidents of cholera death. The emerging pattern centered around one particular pump on Broad Street. At Snow’s request, the handle of the pump was removed, and new cholera cases ceased almost at once. Further investigation of the area revealed the Broad Street pump was near a cesspit under the home of the outbreak's first cholera victim.
Another 19th-century example of thematic maps, according to Friendly (2008), was the earliest known choropleth map in 1826 created by Charles Dupin. Based on this work Louis-Léger Vauthier (1815–1901) developed the population contour map, a map that shows the population density of Paris in 1874 by contours or isolines.
A thematic map is univariate if the non-location data is all of the same kind. Population density, cancer rates, and annual rainfall are three examples of univariate data.
Bivariate mapping shows the geographical distribution of two distinct sets of data. For example, a map showing both rainfall and cancer rates may be used to explore a possible correlation between the two phenomena.
More than two sets of data leads to multivariate mapping. For example, a single map might show population density in addition to annual rainfall and cancer rates.
Cartographers use many methods to create thematic maps, but five techniques are especially noted.
Choropleth mapping shows statistical data aggregated over predefined regions, such as counties or states, by coloring or shading these regions. For example, countries with higher rates of infant mortality might appear darker on a choropleth map. This technique assumes a relatively even distribution of the measured phenomenon within each region. Generally speaking, differences in hue are used to indicate qualitative differences, such as land use, while differences in saturation or lightness are used to indicate quantitative differences, such as population.
The proportional symbol technique uses symbols of different sizes to represent data associated with different areas or locations within the map. For example, a disc may be shown at the location of each city in a map, with the area of the disc being proportional to the population of the city.
Isarithmic or Isopleth
Isarithmic maps, also known as contour maps or isopleth maps depict smooth continuous phenomena such as precipitation or elevation. Each line-bounded area on this type of map represents a region with the same value. For example, on an elevation map, each elevation line indicates an area at the listed elevation. An Isarithmic map is a planimetric graphic representation of a 3-D surface. Isarithmic mapping requires 3-D thinking for surfaces that vary spatially.
A dot distribution map might be used to locate each occurrence of a phenomenon, as in the map made by Dr. Snow during the 1854 Broad Street cholera outbreak, where each dot represented one death due to cholera. Where appropriate, the dot distribution technique may also be used in combination the proportional symbol technique
A dasymetric map is an alternative to a choropleth map. As with a choropleth map, data are collected by enumeration units. But instead of mapping the data so that the region appears uniform, ancillary information is used to model internal distribution of the phenomenon. For example, population density will be much lower in forested area than urbanized area, so in a common operation, land cover data (forest, water, grassland, urbanization) may be used to model the distribution of population reported by census enumeration unit such as a tract or county. 
- ^ abcThrower 2008, p. 95
- ^"Fundamentals of Mapping". www.icsm.gov.au. Retrieved 2015-05-03.
- ^Bartz Petchenik, Barbara (April 1979). "From Place to Space: The Psychological Achievement of Thematic Mapping". Cartography and Geographic Information Science. 6 (1): 5–12. doi:10.1559/152304079784022763.
- ^Maps and GS. Accessed 28 Feb 2009.
- ^Van der Dussen, Jan and Kevin Wilson (1995). The History of the Idea of Europe. Routledge. p. 28.
- ^"Novus typus orbis ipsus globus, ex Analemmate Ptolomaei diductus 1614". Retrieved 25 February 2013.
- ^Thrower 2008, p. 97
- ^Michael Friendly (2008). "Milestones in the history of thematic cartography, statistical graphics, and data visualization".
- ^Slocum, Terry A.; McMaster, Robert B.; Kessler, Fritz C.; Howard, Hugh H. (2009). Thematic cartography and geovisualization (3rd ed.). Pearson Prentice Hall. ISBN 978-0-13-229834-6. Ch. 15
- Delaney, John (2012). First X, Then Y, Now Z: An Introduction to Landmark Thematic Maps. Princeton University Library.
- Muehrcke, Phillip; Muehrcke, Juliana O.; Kimerling, A. Jon (2001). Map Use: Reading, Analysis, and Interpretation. JP Publications. ISBN 978-0-9602978-5-6.
- Robinson, Arthur H. (1982). Early Thematic Mapping in the History of Cartography. University of Chicago Press. ISBN 978-0-226-72285-6.
- Robinson, Arthur H. (1995). Elements of cartography (6e ed.). Wiley. ISBN 978-0-471-55579-7.
- Slocum, Terry A.; McMaster, Robert B.; Kessler, Fritz C.; Howard, Hugh H. (2009). Thematic cartography and geovisualization (3rd ed.). Pearson Prentice Hall. ISBN 978-0-13-229834-6.
- Thrower, Norman J.W. (2008). Maps & Civilization: Cartography in Culture and Society (3rd ed.). University of Chicago Press. ISBN 978-0-226-79974-2.
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The last phase of Humboldt’s life began when he moved permanently to Berlin in 1827 and took up residence in a first-floor apartment at 67 Oranienburger Strasse. (See the illustration of his library, below.) At that time, Prussia was a repressive police state. A close friendship with King Frederick William III protected Humboldt from conservative enemies at court. But he had many friends outside of government. From the fall of 1827 through April 1828, he delivered sixty-one lectures on physical geography at the University of Berlin, which his brother had founded in 1810. With echoes of Sir Francis Bacon, Humboldt argued that knowledge had to be derived from verifiable experience, but that scientific facts (data) could also appeal to the imagination. Delivered in fluent German, from bare outlines without notes, the lectures were hugely popular with the public. They became the basis of his final great work, Kosmos.
In April 1829, Humboldt used a sudden invitation to go to Russia to consult about the new metal called platinum as an opportunity to realize his other grand dream: an expedition through Asia. But he was now thirty years older than when he toured New Spain, and exceedingly famous; he could not travel incognito or in peace. In St. Petersburg, he was treated as a personal guest of Czar Nicholas I, and, as an unfortunate result, his expedition became more of a traveling circus with its entourage of officials. In a whirlwind of about six months’ duration, the party covered approximately 9,700 miles (some by river), passed through 658 post-stations, and used more than 12,000 post-horses! Knowing the geology of the Ural Mountains, Humboldt predicted that diamonds would be found there, and shortly afterward they were, the first outside of the tropics. He was back in Berlin just after Christmas. The net achievement of the trip was not a publication—Humboldt’s modest work about it would not appear for many years—but impetus for establishing a chain of geomagnetic observation stations around the world to develop international scientific collaboration. Gradually, in pieces, this would be accomplished, particularly with the support of the British government, which eventually equipped stations across its vast empire.
After his brother died in 1835, leaving him deeply bereft, Humboldt devoted himself to his master work about the entire material world, titled (in its English translation) Cosmos: A Sketch of a Physical Description of the World. His goal, of course, was to stimulate further scientific inquiry, but he also hoped to promote the enjoyment of nature using a vivid, accessible style—in short, to communicate intellectual excitement. The first volume appeared in 1845 when he was seventy-six, the second when he was seventy-eight, the third at eighty-one, and the fourth at the age of eighty-nine! The fifth volume, unfinished at his death, was published from Humboldt’s notes and with a lengthy index in 1862. Humboldt viewed nature as a unified whole of which humanity was part, and he thought that scientific knowledge was part of a country’s wealth, a natural resource that needed support and development. Called the last great work of the last universal man, Cosmos was spectacularly received.
Fate was not so kind. Having known, literally, all the great men of his time—even having become one himself—Humboldt died penniless and possession-less: he had to deed everything he owned to his valet to pay his back wages.
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If he were alive today, Humboldt would be a strong supporter of the environment, urging global ecological studies, for he saw clearly the interrelationship of humankind and nature. In the preface to the first edition of Views of Nature, he wrote: “Everywhere the reader’s attention is directed to the perpetual influence which physical nature exercises on the moral condition and on the destiny of man” (p. x of the 1850 London edition, translated from the German by E. C. Otté and Henry G. Bohn). Thematic maps now play an important role in such studies. In fact, though Humboldt may not have understood it then, thematic maps have continued to do his work.