374 CHAPTER 15 Biodiversity and Conservation
Species Richness and Biological Diversity
LEARNING OBJECTIVES
species are not readily replaced in isolated environments
such as islands or mountaintops. Isolated areas are often
small and possess fewer potential ecological niches.
Generally, species richness is also inversely related to
the environmental stress of a habitat. Only species capable
of tolerating extreme environmental conditions can live
in an environmentally stressed community, such as a pol-
luted stream or a polar region exposed to a harsh climate.
Species richness is also reduced when one species occu-
pies a decided position of dominance within a community
because that species may appropriate a disproportionate
share of resources, thus crowding out other species.
Species richness is usually greater at the edges of
adjacent communities than in their centers. This is
because an ecotone—a transitional zone where communi-
ties meet—contains all or most of the ecological niches of
- Describe factors associated with species richness.
- Define biological diversity and distinguish
among species richness, genetic diversity, and
ecosystem diversity. - Relate several important ecosystem services
provided by biological diversity.
A
species is a group of more or less distinct
organisms that are capable of interbreeding
with one another in the wild but that do not
interbreed with organisms outside their
group. We do not know exactly how many species exist.
In fact, biologists now realize how little we know about
Earth’s diverse organisms.
How Many Species Are There?
Scientists estimate that there may be as few as 5 million
or as many as 100 million different species inhabiting
Earth. According to the International Union for Conser-
vation of Nature (IUCN), about 1.7 million species have
been scientifically named and described to date, includ-
ing nearly 310,000 plant species, more than 64,000 verte-
brate animal species, and 1 million insect species. About
10,000 new species are identified each year.
Species richness varies greatly from one community
to another. It is determined by
several factors: the abundance of
potential ecological niches, geo-
graphic isolation, habitat stress,
dominance of one species over
others, closeness to the margins of adjacent communi-
ties, and geologic history.
A complex community, such as a tropical rain forest or
a coral reef, offers a greater variety of potential ecological
niches than does a simple community such as a mountain
chaparral. A similar effect is seen in comparisons between
more structurally complex and less structurally complex
areas within the same type of habitat (Figure 15.1).
Species richness is inversely related to the geo-
graphic isolation of a community. Isolated island
communities are much less diverse than communities in
similar environments found on continents. This is partly
the result of the difficulty many species have in reaching
and successfully colonizing an island, and locally extinct
species richness
The number of
different species in a
community.
Structural complexity of vegetation
0 0.4 0.8 1.2 1.6 2.0
Number of bird species 10
20
30
40
After M.L. Cody and J.M. Diamond, eds.,
Ecology and Evolution
of Communities
. Harvard University, Cambridge (1975).
Effect of community complexity on species
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The structural complexity of chaparral vegetation in California
(x-axis) is based on vegetation height and density, from low
complexity (very dry scrub) to high complexity (woodland). Note
that species richness in birds increases as vegetation becomes
more structurally complex.
Interpreting Data
What is the percentage difference between the number
of bird species supported by the least structurally
complex areas and the number supported by the most
structurally complex areas?