22.1 SPECIES ARE REPRODUCTIVELY ISOLATED FROM ONE ANOTHER.
22.2 REPRODUCTIVE ISOLATION IS CAUSED BY BARRIERS TO SUCCESSFUL REPRODUCTION BEFORE OR AFTER EGG FERTILIZATION.
22.3 SPECIATION UNDERLIES THE DIVERSITY OF LIFE ON EARTH.
22.4 SPECIATION CAN OCCUR WITH OR WITHOUT NATURAL SELECTION.
Define the term "species."
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Although no one definition is able to perfectly describe the genetic boundaries between different organisms, the biological species concept defines a species as a group of organisms that can share genetic material by interbreeding with one another to generate viable, fertile offspring. By this definition, organisms that cannot successfully reproduce with one another are therefore considered different species.
Given a group of organisms, describe how you would test whether they all belong to one species or whether they belong to two separate species.
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According to the morphospecies concept, organisms of the same species often have very similar appearances, so careful observation of the phenotypic characteristics of the organisms could provide insight into how many species were represented in the group. If possible, a more rigorous test would be to determine whether the organisms could breed with one another to produce viable, fertile offspring.
Name two types of organisms that do not fit easily into the biological species concept.
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Since the biological species concept defines species based on their ability to interbreed to generate viable, fertile offspring, those organisms that reproduce asexually (such as bacteria) and those that are extinct cannot be easily characterized by this definition.
Explain how ecological and evolutionary considerations can help inform whether or not a group of organisms represents a single species.
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Since resources are limited in every habitat, each species must have a unique niche within its environment in order to avoid competition with other species, thus organisms with overlapping ecological requirements are likely members of a single species. In addition, organisms of a single species will have a high degree of genetic identity due to a shared ancestral lineage, so information about the evolutionary history of an organism can suggest whether a group of organisms is indeed a single species or whether they have genetically diverged from one another to form two separate species.
Name four reproductive barriers and indicate whether each is pre-or post-zygotic.
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Reproductive barriers that prevent fertilization (pre-zygotic) include differences in mating behaviors like courtship rituals, mechanical blocks to fertilization such as differences in the genitalia required for mating, and biochemical incompatibilities in the gametes that can limit the fusion of sperm and egg. After fertilization has occurred, post-zygotic barriers limit the ability of the zygotes formed from gametes of different species to develop into fertile adults because of differences at the genomic level such as an improper number of chromosomes.
Describe how genetic divergence and reproductive isolation are related to each other.
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In order for populations to genetically diverge from one another, they must have limited gene flow between them. Reproductive isolation limits the production of hybrid offspring, so genetic exchange between populations is reduced and divergence continues as each population is subjected to the selective pressures of their environment and genetic drift. In addition, if populations begin to diverge through genetic drift or disruptive selection, these differences can result in establishment of a reproductive barrier, which would then work to limit further genetic exchange and promote reproductive isolation.
Differentiate between allopatric and sympatric speciation, and state which is thought to be more common.
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Allopatric speciation, which is thought to happen more often than sympatric speciation, occurs after a geographic barrier physically separates two populations from one another, which limits gene flow and promotes genetic divergence of the two populations as they adapt to their different environments. Sympatric speciation is the divergence of one group of organisms into distinct species within the same geographical area, so that although the organisms inhabit the same area and come in contact with one another, gene flow is limited because of strong selection against hybrid offspring.
Differentiate between allopatric speciation by dispersal and by vicariance and give one example of each.
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Allopatric speciation can occur if a subset of a population moves to a new location far from the original population (dispersal), like if a hurricane blew a group of beetles to a distant island off the coast of the mainland. Allopatric speciation can also occur by vicariance, which is when a change in the environment effectively separates a population into two distinct groups. An example of allopatric speciation by vicariance would be if a lake receded and began to dry out leaving only smaller, isolated ponds behind. Fish from a single species might be split among several different ponds, each of which would be subject to genetic divergence based on the conditions in their respective pond and genetic drift, which over time could lead to speciation.
Describe how genetic drift can result in speciation.
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Since genetic drift acts randomly to alter allele frequencies, the alleles that become fixed or extinct in a given population will be different in each population. These differences, accumulated over time, can result in genetic incompatibility, which will limit gene flow and lead to the establishment of two different species.
Describe how natural selection can result in speciation.
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Speciation is the result of genetic divergence between two populations to the point where they are no longer capable of producing fertile offspring. Natural selection can drive genetic divergence of populations based on the characteristics that are favorable in each population’s environment, which may also influence their reproductive compatibility with other populations. The characteristics that allow for optimal survival and reproduction in one population will be specific for its environment, so two populations that have lived in different locations for a long time, both being adapted to their environments by natural selection, will likely encounter reproductive barriers, limiting gene flow between the populations and reinforcing speciation.