The Dictionary of Human Geography

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voting, because of the many other contingent

factors (some of them spatial in nature) that

influence electoral behaviour.

This example illustrates the dominant focus

within contemporary quantitative human

geography, not – as it was 50 years ago – on

the orderly arrangement of points and lines in

the landscape, and of people, ideas and com-

modities flowing through those spatial struc-

tures (as postulated by Haggett, 1965), but

rather on common patterns of behaviour in

similar contexts – or common realizations of

human agency within particular contextual

settings. The emphasis has shifted between

two of geography’s fundamental concepts,

from a focus onspaceto one onplace. Within

that changed emphasis has come the adoption

of new quantitative procedures that emphasize

the important role of place as context – such as

geographical analysis machine,geograph-

ical explanation machine,local statistics,

geographically weighted regression,

multi-level modelling, the modifiable

areal unit problem,ecological inference

and theecological fallacy.

Contemporary use of quantitative methods

in human geography entails exploring

patterns and processes involving large numbers

of decision-makers, seeking order in often

complex situations (Haggett, 1990). Even

when data are available on individual decision-

makers, the goal is to distil general patterns – as

in Rushton’s distinction between behaviour in

space and rules of spatial behaviour. Unlike

other approaches to human geography, there-

fore, spatial science is macro/meso inscale,

rather than micro – though it may deploy

micro-scale data in its search for macro/meso-

scalepatterns. Its findings might pose ques-

tions that can only be addressed by studying

individuals, but its core methodologies focus

on wholes rather than parts.

This approach is the only one possible given

certain subject matter. Patterns of (changing)

regional development and underdevelopment,

for example, can only be studied as statistical

aggregates – as can many indices linked to this

concept, such as inflation, unemployment

rates, land values, house prices,productivity

and so on. Aspects of our worlds are only ac-

cessible in such formats, and are sensibly ana-

lysed quantitatively. In other cases, whereas

individual-level data are available (or can be

obtained through bespokesurveys) – on ill-

ness, turnout at elections and so on – much

can be gained from aggregating them and

studying general patterns, of morbidity and

mortality rates, for example. Much work in,

for example, population,medical,social

andelectoral geographyis of this type –

though such sub-disciplines are not con-

strained to spatial scientific approaches.

A further justification for macro-/meso-

approaches lies in the probabilistic nature of

much of our understanding and representa-

tion of the world. It is generally accepted that

smoking causes lung cancer, for example, but

not all smokers get lung cancer and not all

people who get lung cancer have smoked. It

is a probabilistic relationship. Part of the rea-

son why we cannot say that smoking causes

lung cancer without qualification is because

other variables can either accelerate or decel-

erate, even block, the processes involved;

part also reflects our incomplete knowledge

(constrained because of the difficulties of con-

ducting controlled experiments). Similar argu-

ments apply to a whole range of behaviours

studied by (physical and well as human) geog-

raphers: the processes involved are so complex

and difficult to unravel – because we cannot

conduct experiments (although a range of new

techniques may be of value in such situations:

Sherman, 2003; Dunning, 2008). Hence work

in spatial science is almost of necessity condi-

tional: it represents the state of our current

understanding and can only be phrased in

probabilistic rather than deterministic terms.

The meso-/macro-patterns in many aspects

of contemporary society that are quantitatively

described and analysed by social scientists are

relevant to people’s daily lives and experiences

• the ‘meaningful nature of life’ explored in
  other geographical practices. Levels of ethnic
  segregation in urban neighbourhoods and
  schools (seeurbanization) provide contexts
  within which not only lives are (partially)
  lived, but also people’s life chances and
  relationships are influenced. Geographical
  concentrations ofpovertysimilarlystructure
  manypeople’s life chances, while biased elec-
  tion results reflect the operation of the aggre-
  gation and scale issues underpinning the
  modifiable areal unit problem (Johnston and
  Pattie, 2006).
  Alongside their intrinsic interest and im-
  portance to understanding spatial patterns
  and behaviour, therefore, meso-/macro-scale
  work is relevant topublic policies– either
  studies of their impact on geographies or
  analyses of geographical patterns that call for
  public intervention. Geographies ofmortal-
  ity, for example, may identify areas where
  further investment of medical resources is
  warranted. Much public policy has impacts –
  direct and indirect – on topics of interest to

Gregory / The Dictionary of Human Geography 9781405132879_4_Q Final Proof page 610 31.3.2009 7:14pm Compositor Name: ARaju

QUANTITATIVE METHODS