The Dictionary of Human Geography

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especially suited for portraying a particular

kind of geographical variation. For example,

hue, related to wavelength of visible light and

often associated with named colours such as

red and green, is appropriate for representing

qualitative differences among, for example,

various categories of land use. Bertin’s ration-

ale was straightforward: because red, green,

and yellow look different to persons with nor-

mal color vision, they are ideal for mapping

differences in kind, especially for area features

large enough to require discernible patches of

hue. Similarly, readily recognized differences

in form among point and line symbols make

shape an appropriate visual variable when a

map must distinguish churches from schools

and footpaths from railways. By contrast,

quantitative data are better represented with

symbols that vary in size or greytone value;

that is, relative darkness. Viewers are well serv-

ed by map authors who distinguish between

count or magnitude data such as total popula-

tion or number of employees, and intensity data

such as population density or the proportion of

the labour force unemployed. With count data,

for example, point symbols that vary in size

support a logical larger-means-more metaphor

that promotes comparisons without looking

repeatedly at the map key, whereas for intensity

data symbols ranging from white to black sup-

port an equally obvious darker-means-more

decoding rule (Monmonier, 2005). Although

symbols that vary in direction are logical

for representing phenomena such as wind direc-

tion and one-way streets, pattern variation is

largely limited to dashed-line symbols and area

symbols, such as the arrays of dots that

connote orchard land and vineyards on

topographic maps. Dynamic cartography has

produced additional visual variables, notably

the duration, rate of change and order of

scenes (DiBiase, MacEachren, Krygier and

Reeves, 1992).

Because place and feature names use nat-

ural language to link cartographic symbols to

specific locations, typography is another

important part of the map’s symbolic code

(Wood, 2000). And because type comes in

various shapes and sizes, map labels reflect

conventions such as the use of italic type for

hydrographic features as well as an extension

of Bertin’s theory of retinal variables. Although

aesthetic dictates that map authors avoid using

numerous typefaces to represent qualitative

differences among places or features, style

variations (roman/italic, all-uppercase/initial

capitals, bold/plain, underlining) support the

typographical coding of differences in kind,

whereas type size affords a readily decoded

representation of magnitude. Some reference

maps use a redundant coding in which the

sizes of point symbols and their labels offer

a mutually reinforced treatment of population

size.

Names on maps can have deep cultural–

political significance, especially when con-

quest or revolution allows the victor to rename

places and geographical features, and even in-

stall a new language or orthography (writing

system). As illustrated by the renaming and re-

renaming of St Petersburg in Russia, control

of a country’s official cartography presents an

irresistible opportunity to underscore the

loser’s defeat by replacing its toponyms

(place names). As pervasive symbols of dom-

ination, names on map and road signs can

arouse resentment as well as inspire alternative

cartographies similar to the Palestinian maps

of Israel, rendered crudely in Arabic atop

photographic copies of official maps

(Kadmon, 2000, pp. 80–1). And because maps

reveal otherwise obscure, pejorative feature

names inherited from earlier, less politically

sensitive times, they can trigger the belated

removal of names (Monmonier, 2006). Recent

disputes over cartographic labels have focused

on waters separating feuding countries (e.g.

Sea of Japan/East Sea, Persian Gulf/Arabian

Gulf), the toponyms and orthography of indi-

genous peoples (e.g. in Hawaii and northern

Canada) and a country’s right to police the

rendering of its name beyond its borders (e.g.

Macedonia and Myanmar, both resisted by the

USA).

Because cartographic scale is usually too

small for an exact treatment of shape and

other geometric relationships, maps are almost

always generalized, even large-scale maps of

small areas (Buttenfield and McMaster,

1991). Cartographic generalization begins

with the selection of features, some of which

represent the phenomenon portrayed while

others provide a frame of reference linking

new information to the viewer’s existing

understanding of the region mapped. For

example, coastlines, nationalboundariesand

highway networks are common frame-of-

reference features on maps not explicitly con-

cerned with coastal geomorphology,geopol-

iticsor transportation. Map authors must

select features carefully, because legibility often

requires line and point symbols proportion-

ately thicker than the features portrayed. For

instance, a road five metres wide represented

on a 1:50,000 map by a barely visible line

one millimetre thick occupies a cartographic

Gregory / The Dictionary of Human Geography 9781405132879_4_M Final Proof page 436 1.4.2009 3:19pm

MAP