Visualizing Environmental Science

(Marvins-Underground-K-12) #1
Species Richness and Biological Diversity 377

Cyril Ruoso / Biosphoto

poisons, cork, and fibers. Animals provide wool, silk, fur,
leather, lubricants, and waxes, and they are important in
medical research.
Insects secrete a large assortment of chemicals that
represent a wealth of potential products. Certain beetles
produce steroids with birth-control potential, fireflies
produce a compound that may be useful in treating viral
infections, and centipedes secrete a fungicide over the
eggs of their young that could help control the fungi that
attack crops. Because biologists estimate that perhaps 90
percent of all insects have yet to be identified, insects
represent an important potential biological resource.

Aesthetic, Ethical, and Spiritual Value of
Organisms Organisms not only contribute to human
survival and physical comfort, they provide recreation,
inspiration, and spiritual solace. Our natural world is a
thing of beauty largely because of the diversity of living
forms found in it. Artists have attempted to capture this
beauty in drawings, paintings, sculpture, and photography,
and poets, writers, architects, and musicians have created
works reflecting and celebrating the natural world.


  1. What are two determinants of species richness?
    Give an example of each.

  2. What is biological diversity?

  3. What are ecosystem services? How do
    ecosystem services provided by forests
    compare to those provided by coasts?


susceptibility to pests and disease. Crossing the “super
strains” with more genetically diverse relatives can allow dis-
ease and pest resistance to be reintroduced into such plants.
Genetic engineering, the incorporation of genes from
one organism into a different species (see Chapter 14),
makes it possible to use organisms’ genetic resources
on a wide scale. Genetic engineering has provided new
vaccines, more productive farm animals, and disease-
resistant agricultural plants.
Although we have the skills to transfer genes from
one organism to another, we do not have the ability to
make genes that encode for specific traits. Genetic engi-
neering depends on the broad base of genetic diversity
from which it obtains genes. It has taken hundreds of mil-
lions of years for evolution to produce the genetic diver-
sity found on our planet today. This diversity may hold
solutions to today’s problems and to future problems we
have not begun to imagine. It would be unwise to allow
such an important part of our heritage to disappear.


Medicinal, Agricultural, and Industrial Impor-
tance of Organisms The genetic resources of
organisms are vitally important to the pharmaceutical
industry, which incorporates hundreds of chemicals
derived from plants and other organisms into its
medicines. From extracts of cherry and horehound for
cough medicines to certain ingredients of periwinkle
and mayapple for cancer therapy, derivatives of plants
play important roles in the treatment of illness and dis-
ease (Figure 15.4). Many of the natural products taken
directly from marine organisms are promising anticancer
or antiviral drugs. The AIDS (acquired immunodeficiency
syndrome) drug AZT (azidothymidine), for example, is
a synthetic derivative of a compound from a sponge. The
20 best-selling prescription drugs in the United States are
either natural products, natural products that are slightly
modified chemically, or synthetic drugs whose chemical
structures were obtained from organisms.
The agricultural importance of plants and animals
is indisputable because we must eat to survive. However,
the number of different kinds of foods we eat is limited
compared to the total number of edible species available
in any given region. Many species are probably nutrition-
ally superior to our common foods.
Modern industrial technology depends on a broad
range of products from organisms. Plants supply oils
and lubricants, perfumes and fragrances, dyes, paper,
lumber, waxes, rubber and other elastic latexes, resins,


Medicinal value of the rosy periwinkle
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The rosy periwinkle produces chemicals that are effective
against certain cancers. Drugs from the rosy periwinkle have
increased the chance of surviving childhood leukemia from about
5 percent to more than 95 percent. These leaves and flowers are
being harvested in the Berenty Private Reserve, Madagascar.
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