0198566123.pdf

of dissection. More recently, Menard (1986) com-
pared the values resulting with the ages determined
by potassium–argon dating (up to an age of 1.6 mil-
lion years), thus demonstrating that dissection is
indeed a function of age of the volcano. Height of
island can be important in respect to changes in sea
level, receipt of rainfall, and to other climatic char-
acteristics. In addition, large, high volcanic islands

are subject to periodic catastrophic landslips, which

can radically reshape substantial areas of the island

(Hürlimannet al. 2004; below).

Coral or limestone islands and atolls tend to be

very low-lying and flat. There are clear implica-

tions here with respect to future sea-level changes

(Chapter 12). Those which have been uplifted to

more than a few metres above sea level are termed

THE PHYSICAL ENVIRONMENT OF ISLANDS 33

Eocene 48Ma Early Miocene 20Ma

Oligocene 38Ma Late Miocene 10Ma

JA

CA

CU

NH

PR

MX

SA

JA

JA

SH

SH

NH

NH

PR

PR

LA

LA

SA

SA

CA

CA

MX

MX

NH PR

SH

CU

JA

MX

CU

CU

(a)

(b)

(e)

(d)

(c)

50 40 30

Cuba

Puerto Rico

20 10

Million years before present

Costa Rica - Panama

Jamaica

Honduras - Nicaragua

Mexico - Yucatan

Southern Hispaniola

Northern Hispaniola

Lesser Antilles

South America

Central America

America

Western S.

Figure 2.14Hypothesized configurations of the Caribbean area during the past 50 million years. (a–d) Maps of changing positions. Present-day
land outlines are used for ease of recognition and do not indicate shorelines of the time. CACentral America, MXMexico, JAJamaica,
CUCuba, NHnorthern Hispaniola, SHsouthern Hispaniola, PRPuerto Rico, LALesser Antilles, SASouth America. (e) Simplified
scheme showing the relative positions of the land areas, increased distance apart indicating increased barriers to dispersal. Areas that were
largely inundated are designated with water wave symbols. (Redrawn from Buskirk 1985, Figs 2 and 4.)