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What is a species?

Understand how evolution creates new species, the intricacies of defining a species, patterns of speciation, and the dynamics of species existence and extinction in this comprehensive exploration. From biological species concepts to reproductive isolation mechanisms, this text delves into the complexities of speciation rates, hybrid infertility, and the impact of environmental changes on species diversification. Discover the factors influencing punctuated equilibrium, mass extinctions, and the significance of classifying life’s diversity for conservation efforts.

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What is a species?

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  1. Theseare members of different species - eastern (left) and western (right) meadowlark. Macroevolution and Speciation Evolution creates (and destroys) new species, but … What is a species? Its not as straightforward a question as most believe.

  2. What is a Species? There is only one extant (existing) human species.

  3. What is a Species? And these are all members of a single species.

  4. Determining What Is and What Isn’t a Distinct Species Can Have Economic Consequences Northern spotted owl (left) and barred owl (right).

  5. What is a Species? The definition we’ll use is this: A species is a group of individuals capable of interbreeding to produce fertile offspring. This is the biological species concept. Like all attempts to define a species, it has many problems.

  6. One Problem in the Biological Species Concept For asexually-reproducing organisms, like these bacteria, what constitutes a species?

  7. How Many Species Are There? We don’t know. About 2 million species have been described. Estimates of existing species number range from 4 million to 100 million (with 10-15 million being a more commonly considered upper estimate).

  8. Two Patterns of Speciation

  9. How Do Species Arise? The key to speciation is reproductive isolation of populations. There are extrinsic and intrinsic reproductive isolating mechanisms. Geographic isolation is the primary extrinsic reproductive isolating mechanism.

  10. Reproductive Isolation May Occur With or Without Geographic Isolation Allopatric speciation occurs when geographic isolation creates a reproductive barrier (an extrinsic mechanism). Sympatric speciation occurs when a reproductive barrier is created by something other than geographic isolation (intrinsic mechanisms).

  11. Allopatric Speciation White-tailed antelope squirrel Harris’ antelope squirrel Two species of ground squirrel are postulated to have descended from a common ancestral population that was separated by formation of the Grand Canyon.

  12. White-tailed antelope squirrel Harris’ antelope squirrel Intrinsic Reproductive Isolating Mechanisms Are Always Required for Speciation Intrinsic mechanisms involve changes to organisms that prevent interbreeding. In allopatric speciation, intrinsic mechanisms come into play once populations are physically separated. In sympatric speciation, intrinsic mechanisms are the only ones involved.

  13. (different habits within an overlapping range) Many Intrinsic Reproductive Isolating Mechanisms Drive Speciation

  14. Courtship rituals, like these, are critical for mating within a species, but ineffective for attracting members of other species. Many Intrinsic Reproductive Isolating Mechanisms Drive Speciation

  15. Behavioral Isolation Mechanisms Courtship rituals, like these, are critical for mating within a species, but ineffective for attracting members of other species.

  16. Many Intrinsic Reproductive Isolating Mechanisms Drive Speciation

  17. Many Intrinsic Reproductive Isolating Mechanisms Drive Speciation

  18. Hybrid Infertility Was the Impetus for Cloning a Mule

  19. Speciation Occurs at Widely Differing Rates A slow rate of speciation evidenced by a living horseshoe crab (13 extant species) and a 300 million year-old fossil species A rapid rate of speciation evidenced by Galapagos finches which have diversified into 13 species within the last 100,000 years.

  20. Generalists, like the horseshoe crab, tend to remain as stable species. Specialists, like the Galapagos finch, tend to be unstable as species. Speciation Rates Speciation also becomes rapid when, as occurred with Galapagos finches, new niches become available.

  21. Speciation Dynamics - Gradualism or Punctuated Equilibrium? Punctuated equilibrium appears to be a more accurate view of speciation dynamics.

  22. Does Evolution Create the Perfect Organism? No, only better organisms as evolution is constrained by history and buffeted by random events. Essentially, every organism on earth is in significant part a sum of accidents.

  23. Species Come and Go Best estimates from the fossil record indicate that greater than 99% of species that have exited are now extinct. A typical “lifetime” for a species is about 1 million years.

  24. Mass Extinctions Are a Fact of Life

  25. Gary Larson The Cretaceous/Tertiary Mass Extinction

  26. Are We Now Causing a Mass Extinction?

  27. Classifying Life’s Rich Diversity Why bother? An intrinsic reason is that modern classification systems tell who’s related to whom and how we all came to be.

  28. Classifying Life’s Rich Diversity Why bother? A practical reason is that if we want to preserve an environment compatible with human life, we’d better know what’s out there.

  29. The Linnaean Hierarchical ClassificationSystem

  30. How Do We Classify Organisms? Ideally, classification is based on establishing the evolutionary relationships between organisms. The evolutionary relationship between organisms is their phylogeny. Cladistics is the method of classification based on establishing phylogenies (i.e. getting at evolutionary relationships. Cladistics proceeds by comparing shared ancestral and shared derived characters between sets of organisms.

  31. Cladistics each node indicates a common ancestor A phylogeny (cladogram) for vertebrates. The greater the number of derived characters shared by a pair of organisms, the closer their degree of relationship. The closer the degree of relationship, the closer the most recent common ancestor.

  32. It’s Critical (and often difficult) To Distinguish Homology from Analogy Homologous structures, like the bat wing and gorilla arm, are similar because they are derived by modification of a shared ancestral structure. Homology is the key to establishing phylogenies.

  33. Distinguishing Homology from Analogy Analogy is similarity due to convergent evolution. Analogy mistaken for homology confuses phylogenies.

  34. Another Set of Analogies Created by Convergent Evolution Ocotillo of the US southwest Allauidia of Madagascar

  35. Results of Cladistic Analyses Sometimes Run Counter to Classical Classification Schemes Which pair is more closely related? A lizard/crocodile or bird/crocodile? Cladistic analysis indicates that the bird/crocodile pair is more closely related.

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