front 1 Which of the following ecological locations has the greatest species
diversity? A) tundra B) deciduous forests C) tropical
rain forest D) grasslands E) islands | |
front 2 Invasive species are introduced by humans to new geographic locations
and A) are successful in colonizing a novel area. B) spread
because they encounter none of their natural predators. C) All of
the choices are correct. D) can outcompete and displace native
species for biotic and abiotic resources. E) are usually
considered pests by ecologists. | back 2 All of the choices are correct. |
front 3 Estimates of current rates of extinction A) indicate that we
have reached a state of stable equilibrium in which speciation rates
equal extinction rates. B) suggest that one-half of all
animal and plant species may be gone by the year 2100. C)
indicate that rates may be greater than the mass extinctions at the
close of the Cretaceous period. D) indicate that only 1% of
all of the species that have ever lived on Earth are still
alive. E) suggest that rates of extinction have decreased globally. | back 3 indicate that rates may be greater than the mass extinctions at the
close of the Cretaceous period. |
front 4 Extinction is a natural phenomenon. It is estimated that 99% of all
species that ever lived are now extinct. Why then do we say that
we are now experiencing an extinction (loss of biodiversity)
crisis? A) Humans are ethically responsible for protecting
endangered species. B) Scientists have finally identified most of
the species on Earth and are thus able to quantify the number of
species becoming extinct. C) The current rate of extinction is
high and human activities threaten biodiversity at all levels. D)
Humans have greater medical needs than at any other time in history,
and many potential medicinal compounds are being lost as plant
species become extinct. E) Most biodiversity hot spots have been
destroyed by recent ecological disasters. | back 4 The current rate of extinction is high and human activities threaten
biodiversity at all levels. |
front 5 Which of the following provides the best evidence of a biodiversity
crisis? A) the incursion of a non-native species B)
increasing pollution levels C) decrease in regional
productivity D) high rate of extinction E) climate change | |
front 6 Although extinction is a natural process, current extinctions are of
concern to environmentalists because A) more animals than
ever before are going extinct. B) most current extinctions are
caused by introduced species. C) the rate of extinction is higher
than background extinction rates. D) current extinction is
primarily affecting plant diversity. E) None of the options are correct. | back 6 the rate of extinction is higher than background extinction rates. |
front 7 Which of the following terms includes all of the others? A)
species diversity B) biodiversity C) genetic
diversity D) ecosystem diversity E) species richness | |
front 8 According to the U.S. Endangered Species Act (ESA), the difference
between an endangered species and a threatened one is
that A) an endangered species is closer to extinction. B) a
threatened species is closer to extinction. C) threatened species
are endangered species outside the U.S. borders. D) endangered
species are mainly tropical. E) only endangered species are vertebrates. | back 8 an endangered species is closer to extinction. |
front 9 What term did E. O. Wilson coin for our innate appreciation of wild
environments and living organisms? A) bioremediation B)
bioethics C) biophilia D) biophobia E) landscape ecology | |
front 10 We should care about loss in biodiversity in the populations of other
species because of A) biophilia. B) potential loss of
medicines and other products yet undiscovered from threatened
species. C) potential loss of genes, some of which may code for
proteins useful to humans. D) the risk to global ecological
stability. E) All of the options are correct. | back 10 All of the options are correct. |
front 11 The most serious consequence of a decrease in global biodiversity
would be the A) increase in global warming and thinning of the
ozone layer. B) potential loss of ecosystem services on which
people depend. C) increase in the abundance and diversity of
edge-adapted species. D) loss of sources of genetic diversity to
preserve endangered species. E) loss of species for use as crops. | back 11 potential loss of ecosystem services on which people depend. |
front 12 Which of the following is the most direct threat to
biodiversity? A) increased levels of atmospheric carbon
dioxide B) the depletion of the ozone layer C)
overexploitation of selected species D) habitat
destruction E) zoned reserves | |
front 13 According to most conservation biologists, the single greatest threat
to global biodiversity is A) chemical pollution of water and
air. B) stratospheric ozone depletion. C) overexploitation
of certain species. D) alteration or destruction of the physical
habitat. E) global climate change resulting from a variety of
human activities. | back 13 alteration or destruction of the physical habitat. |
front 14 What is the biological significance of genetic diversity between
populations? A) Genes for adaptive traits to local conditions
make microevolution possible. B) The population that is most fit
would survive by competitive exclusion. C) Genetic diversity
allows for species stability by preventing speciation. D)
Isolated populations become more fit. E) Diseases and parasites
are not spread between separated populations. | back 14 Genes for adaptive traits to local conditions make microevolution possible. |
front 15 Introduced species can have deleterious effects on biological
communities by A) preying on native species. B) competing
with native species for food or light. C) displacing native
species. D) competing with native species for space or
breeding/nesting habitat. E) All of the options are correct. | back 15 All of the options are correct. |
front 16 Overexploitation encourages extinction and is most likely to
affect A) animals that occupy a broad ecological niche. B)
large animals with low intrinsic reproductive rates. C) most
organisms that live in the oceans. D) terrestrial organisms more
than aquatic organisms. E) edge-adapted species. | back 16 large animals with low intrinsic reproductive rates. |
front 17 How might the extinction of some Pacific Island bats called
"flying foxes" threaten the survival of over
75% of the tree species in those islands? A) wetland and
riparian B) open and benthic ocean C) desert and high
alpine D) taiga and second-growth forests E) tundra and arctic | back 17 taiga and second-growth forests |
front 18 Of the following ecosystem types, which have been impacted the most
by humans? A) wetland and riparian B) open and benthic
ocean C) desert and high alpine D) taiga and second-growth
forests E) tundra and arctic | |
front 19 The introduction of the brown tree snake in the 1940s to the island
of Guam has resulted in A) eradication of non-native rats and
other undesirable/pest species. B) the extirpation of many of the
island's bird and reptile species. C) a good lesson in
biological control. D) a new species of hybrids from
crossbreeding with a native snake species. E) its failure to
compete with native species and its quick elimination from the island. | back 19 the extirpation of many of the island's bird and reptile species. |
front 20 Which of the following examples poses the greatest potential threat
to biodiversity? A) replanting, after a clear cut, a monoculture
of Douglas fir trees on land that consisted of old- growth
Douglas fir, western cedar, and western hemlock B) allowing
previously used farmland to go fallow and begin to fill in with weeds
and then shrubs and saplings C) trapping and relocating
large predators, such as mountain lions, that pose a threat as
they move into areas of relatively dense human
populations D) importing an Asian insect into the United States
to control a weed that competes with staple crops E)
releasing sterilized rainbow trout to boost the sport fishing of a
river system that contains native brook trout | back 20 importing an Asian insect into the United States to control a weed
that competes with staple crops |
front 21 Which of the following is a type of research in which a conservation
biologist would be involved? A) reestablishing whooping
cranes in their former breeding grounds in North Dakota B)
studying species diversity and interaction in the Florida Everglades,
past and present C) studying the population ecology of grizzly
bears in Yellowstone National Park D) determining the effects of
hunting white-tailed deer in Vermont E) All of the options are correct. | back 21 All of the options are correct. |
front 22 Which of the following species was driven to extinction by
overexploitation by hunters/fishermen? A) African
elephant B) the great auk C) North American bluefin
tuna D) flying foxes E) American bison | |
front 23 Which of the following conditions is the most likely indicator of a
population in an extinction vortex? A) The population is
geographically divided into many populations. B) The species in
question is found only in small, stable pockets of its former
range. C) The effective population size of the species falls
below 500. D) Genetic measurements indicate a loss of genetic
variation over time. E) The population is connected only by corridors. | back 23 Genetic measurements indicate a loss of genetic variation over time. |
front 24 Review the formula for effective population size. Imagine a
population of 1,000 small rodents. Of these, 300 are breeding
females, 300 are breeding males, and 400 are
nonbreeding juveniles. What is the effective population
size? A) 1,000 B) 1,200 C) 600 D) 400 E) 300 | |
front 25 If the sex ratio in a population is significantly different from
50:50, then which of the following will always be true? A)
The population will enter the extinction vortex. B) The genetic
variation in the population will increase over time. C) The
genetic variation in the population will decrease over time. D)
The effective population size will be greater than the actual
population size. E) The effective population size will be less
than the actual population size. | back 25 The effective population size will be less than the actual population size. |
front 26 Which of the following life history traits can potentially influence
effective population size (Ne)? A) maturation age B)
genetic relatedness among individuals in a population C)
population size D) gene flow between geographically separated
populations E) All of the options are correct. | back 26 All of the options are correct. |
front 27 The word triage originated during World War I and was first used by
French doctors in prioritizing patients based on the severity of
their wounds, because there were more wounded soldiers in need of
urgent care than there were resources to treat them. Conservation
biologists have to make similar determinations with degraded
ecosystems. Which of the following is the most important
consideration when it comes to managing for maintenance of biodiversity?
A) identifying large, high-profile vertebrates first, because steps
to saving them would be most recognized by the public B)
determining which species is most important for conserving
biodiversity as a whole C) replanting suitable habitat for
fauna D) assessing the economic costs and the gains for
society E) maintaining optimum size of all populations in the ecosystem | back 27 determining which species is most important for conserving
biodiversity as a whole |
front 28 The primary difference between the small-population approach (S-PA)
and the declining- population approach (D-PA) to biodiversity
recovery is A) S-PA is interested in bolstering the genetic
diversity of a threatened population rather than
the environmental factors that caused the population's
decline. B) S-PA kicks in for conservation biologists when
population numbers fall below 500. C) D-PA would likely involve
bringing together individuals from scattered small populations
to interbreed in order to promote genetic diversity. D) S-PA
would investigate and eliminate all of the human impacts on the
habitat of the species being studied for recovery. E) D-PA
would use recently collected population data to calculate an
extinction vortex. | back 28 S-PA is interested in bolstering the genetic diversity of a
threatened population rather than the environmental factors that
caused the population's decline. |
front 29 The long-term problem with red-cockaded woodpecker habitat
intervention in the southeastern United States is A) the
only habitat that can support their recovery is large tracts of mature
oak forest. B) the mature pine forests in which they live cannot
ever be subjected to forest fire. C) all of the appropriate
red-cockaded woodpecker habitat has already been logged or
converted to agricultural land. D) the social organization
of the red-cockaded woodpecker precludes the dispersal
of reproductive individuals. E) what habitat remains for the
red-cockaded woodpecker does not contain trees suitable
for nest-cavity construction. | back 29 the social organization of the red-cockaded woodpecker precludes the
dispersal of reproductive individuals. |
front 30 Managing southeastern forests specifically for the red-cockaded
woodpecker A) required the growth of a dense understory of trees
and shrubs. B) contributed to greater abundance and diversity of
other forest bird species. C) caused other species of songbird to
decline. D) involved strict fire-suppression measures. E)
involved the creation of fragmented forest habitat. | back 30 contributed to greater abundance and diversity of other forest bird species. |
front 31 Which of the following is true about the current research regarding
forest fragmentation? A) Fragmented forests support a greater
biodiversity because they result in the combination
of forest-edge species and forest-interior species. B)
Fragmented forests support a lesser biodiversity because the
forested-adapted species leave, and only the edge and open-field
species can occupy fragmented forests. C) Fragmented forests are
the goal of conservation biologists who design wildlife
preserves. D) Harvesting timber that results in forest
fragmentation results in less soil erosion. E) The disturbance of
timber extraction causes the species diversity to increase because of
the new habitats created. | back 31 Fragmented forests support a lesser biodiversity because the
forested-adapted species leave, and only the edge and open-field
species can occupy fragmented forests. |
front 32 According to the small-population approach, what would be the best
strategy for saving a population from extirpation? A)
determining the minimum viable population size by taking into account
the effective population size B) establishing a nature
reserve to protect its habitat C) introducing individuals from
other populations to increase genetic variation D) determining
and remedying the cause of its decline E) reducing the population
size of its predators and competitors | back 32 introducing individuals from other populations to increase genetic variation |
front 33 Relatively small geographic areas with high concentrations of endemic
species and a large number of endangered and threatened species
are known as A) endemic sinks. B) critical
communities. C) biodiversity hot spots. D) endemic
metapopulations. E) bottlenecks. | |
front 34 How is habitat fragmentation related to biodiversity loss? A)
Less carbon dioxide is absorbed by plants in fragmented
habitats. B) In fragmented habitats, more soil erosion takes
place. C) Populations of organisms in fragments are smaller, and
thus more susceptible to extinction. D) Animals are forced out of
smaller habitat fragments. E) Fragments generate silt that
negatively affects sensitive river and stream organisms. | back 34 Populations of organisms in fragments are smaller, and thus more
susceptible to extinction. |