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Chapter 10 Part I: The Origin and Diversification of Life on Earth
Understanding biodiversityLectures by Mark Manteuffel, St. Louis Community College
Part I:Sections:10.1 to 10. 610. 15 to 10. 18
Learning ObjectivesBe able to describe how: Life on earth most likely originated from nonliving
materials. Species are the basic units of biodiversity. Evolutionary trees help us conceptualize and categorize
biodiversity. An overview of the diversity of life on earth.
Define life Outline the conditions and evidence that support how life
on earth was formed Explain how to identify and name a species Compare and contrast the biological species concept and the
morphological species concept Understand the purpose of a phylogenic tree and what it can
demonstrate Define the difference between analogous traits and
homologous features Compare and contrast microevolution and macroevolution Explain how adaptive radiation and extinction impacts
evolution Understand the current biodiversity found in the three
domains
Learning Objectives
Phase 1: The Formation of Small Molecules Containing Carbon and Hydrogen
10.1 Complex organic molecules arise in non-living environments.
The Urey-Miller Experiments: The first demonstration that complex organic molecules could have arisen in earth’s early environment
Why is it important that Urey and Miller’s experiment produced amino acids?1.Amino acids are the building blocks of DNA2.Amino acids are the building blocks of RNA3.Amino acids are the building blocks of protein4.Amino acids are the building blocks of triglycerides
Take-home message 10.1 Under conditions similar to those on early earth,
small organic molecules form which have some chemical properties of life.
10.2 Cells and self-replicating systems evolved together to create the first life.
Life on earth most likely originated from nonliving materials. Enzymes Required
Phase 2: The formation of self-replicating, information-containing molecules.
RNA appears on the scene. RNA can catalyze reactions necessary for replication.
The “RNA World” Hypothesis a self-replicating system a precursor to cellular life?!! RNA-based life and DNA-based life
What Is Life? Self-replicating molecules? How do we define life?!
Life Is Defined by Two Characteristics1) the ability to replicate
2) the ability to carry out some sort of metabolism
Phase 3: The Development of a Membrane, Enabling Metabolism, and Creating the First Cells
Membranes make numerous aspects of metabolism possible.
How Did the First Cells Appear? Spontaneously? Mixtures of
phospholipids Microspheres Compartmentalization
within cells
Figure 10-4 Are microspheres a key stage in the origin of life?
The earliest life on earth appeared about 3.5 billion years ago, not long after earth was formed.
Self-replicating molecules—possibly RNA—may have formed in earth’s early environment and later acquired or developed membranes
Membranes enabled these self-replicating molecules to replicate and make metabolism possible, the two conditions that define life.
The basic definition of life is:1.the ability to replicate.2.the ability to carry out metabolism.3.the ability to use oxygen.4.the ability to move.5.Both 1 and 2.
Take-home message 10.2
10.3 THIS IS HOW WE DO IT
Could life have originated in ice, rather than in a “warm little pond”?
What if icy baths, not warm ponds, were the “incubator” of life?
Chemical requirement 1
Precursor molecules need to last a while and need to come in contact with each other.
Chemical requirement 2
Precursor molecules need to exhibit catalytic properties.
Is it even feasible that ice was present on early earth and precursor molecules could have formed in it?
• Intriguing observations and evidence:– Freeze tubes containing seawater and the building
blocks of RNA; thaw the tubes—find numerous RNA molecules
– Earth as a “giant snowball”
• Has exploration of the plausibility of ice as the initial medium of RNA replication answered the questions about how life on earth originated?Is there any value to false starts (and even dead ends) encountered in research investigations?
• As researchers investigate how life on earth might have originated, some are questioning the long-held assumptions that self-replicating molecules with catalytic properties are most likely to have formed in a warm, wet environment.
• They’ve proposed that the laws of chemistry and the properties of water as it freezes may actually favor ice as the initial incubator of life.
• The answer is unclear, but the process of scientific thinking is guiding investigators to develop and test their hypotheses.
1. Small compartments form within ice2. Ice floats3. The temperature of ice is constant4. Both 1 and 2.5. All of the above.
What feature of ice may have supported precursor molecule formation on an early earth?
Take-home message 10.3
10.3 What is a species?
Biological Species ConceptSpecies are natural populations of organisms that:•interbreed with each other or could possibly interbreed
•cannot interbreed with organisms outside their own group (reproductive isolation)
Species: different kinds of organisms
Two Key Features of the Biological Species Concept:
1) actually interbreeding or could possibly interbreed
2) “natural” populations
Barriers to Reproduction1) Prezygotic barriers2) Postzygotic barriers
Prezygotic Barriers Make it impossible for individuals to mate with
each other or Make it impossible for the male’s reproductive
cell to fertilize the female’s reproductive cell
These barriers include:
Courtship rituals Physical differences Physical or biochemical factors
involving gametes
1. Why are horses and zebras considered separate species? 1.Because their hybrid offspring look strange.2.Because their hybrid offspring are unhealthy.3.Because their hybrid offspring would not breed under natural conditions.4.All of the above.
2. A “zorse” is sterile, suggesting what type of reproductive barrier? 1.Prezygotic2.Zygotic3.Postzygotic4.Embryonic
Postzygotic Barriers Occur after fertilization Generally prevent the production of fertile
offspring Hybrids Take-home message 10.4
Species are generally defined as:1) populations of individuals that interbreed with each
other or could possibly interbreed.
2) Species cannot interbreed with organisms outside their own group.
3) This concept can be applied easily to most plants and animals, but for many other organisms it cannot be applied.
10.4 How do we name species? We need an organizational system!
Carolus Linnaeus and Systema Naturae
A scientific name consists of two parts:1) genus2) specific epithet
Hierarchical System
Inclusive categories at the top……leading to more and more exclusive categories below.
Take-home message 10.5 Each species on earth is given a unique name,
using a hierarchical system of classification. Every species on earth falls into one of three
domains.
Which levels of classification do humans share with zebras?
1.Family and Genus
2.Genus and Species
3.Class, Order, and Family
4.Kingdom, Phylum, and Class
5.Kingdom, Phylum, Class, Order, and Family
10.6 Species are not always easily defined.
Difficulties in Classifying Asexual Species Doesn’t involve fertilization or even two
individuals Does not involve any interbreeding Reproductive isolation is not meaningful Evidence for reproductive isolation???
It may not be possible to identify an exact point at which the change occurred.
Difficulties in Determining When One Species Has Changed into Another
Chihuahuas and Great Danes generally can’t mate.
Does that mean they are different species?
Difficulties in Classifying Hybridizing Species
Hybridization• the interbreeding of closely related species
Have postzygotic barriers evolved? Are hybrids fertile?
Difficulties in Classifying Ring SpeciesExample: insect-eating songbirds called greenish warblersUnable to live at the higher elevations of the Tibetan mountain rangeLive in a ring around the mountain rangeWarblers interbreed at southern end of ring.The population splits as the warblers move north along either side of mountain.When the two “side” populations meet at northern end of ring, they can’t interbreed.What happened?! Gradual variation in the warblers on each side of the mountain range
has accumulated… …the two populations that meet have become reproductively
incompatible… …no exact point at which one species stops and the other begins
Morphological Species Concept
Focus on aspects of organisms other than reproductive isolation as defining features
Characterizes species based on physical features such as body size and shape
Can be used effectively to classify asexual species
Which organism below is not easily classified using the biological species concept?1.Bacterial cell2.Fossil3.Greenish warblers4.Fertile hybrids5.All of the above.
Take-home message 10.6 The biological species concept is useful when describing
most plants and animals. It falls short of representing a universal and definitive way
of distinguishing many life forms. Difficulties arise when trying to classify asexual species,
fossil species, speciation events that have occurred over long periods of time, ring species, and hybridizing species.
In these cases, alternative approaches to defining species can be used.
Which choice below would require the morphological species concept to delineate between the two species?
1. Dog and cat. 2. Salmonella and E. coli
3. Cow and goat. 4. Donkey and horse
10.15 All living organisms are divided into one of three groups.
The two-kingdom systemAnimal and plant
The five-kingdom system Monera, plant, animal, fungi, and protists
Classification Systems
Classification Takes a Leap ForwardCarl Woese, an American biologist, and his colleagues Examined nucleotide sequencesTracking changes Woese’s approach is not perfect.
Are viruses alive?
According to the phylogenetic tree below, which of the following are most closely related?
1. Bacteria and archaea2. Archaea and protists3. Fungi and animals4. Bacteria and animals
Take-home message 10.15
All life on earth can be divided into three domains—bacteria, archaea, and eukarya—which reflect their evolutionary relatedness to each other.
Plants and animals are just two of the four kingdoms in the eukarya domain, encompassing only a small fraction of the domain’s diversity.
10.16 The bacteria domain has tremendous biological diversity.
Why is morning breath so stinky?
Bacteria Are a Monophyletic GroupAll bacteria have a few features in common: single-celled organisms with no nucleus or
organelles one or more circular
molecules of DNA several methods of
exchanging genetic
information asexual organisms
Take-home message 10.16
The bacteria all share a common ancestor and have a few features in common:• All are prokaryotic, asexual, single-celled organisms with
no nucleus or organelles.• All have one or more circular molecules of DNA as their
genetic material.• All have several methods of exchanging genetic
information.• Bacteria have evolved a broad diversity of metabolic and
reproductive abilities relative to Eukarya.
10.17 The archaea domain includes many species living in extreme environments.
Several Physical Features Distinguish Archeans from the Bacteria
Thermophiles Halophiles High- and low-pH tolerant High-pressure tolerant Methanogens
Several Physical Features Distinguish Archeans from the Bacteria Archaeans’ cell walls contain polysaccharides not
found in either bacteria or eukaryotes. Archeans have cell membranes, ribosomes, and some
enzymes similar to those found in eukaryotes.
Archaea, many of which are adapted to life in extreme environments, physically resemble bacteria but are more closely related to eukarya.
Because they thrive in many habitats that humans have not yet studied well, including the deepest seas and oceans, they may turn out to be much more common than currently believed.
Take-home message 10.17
10.18 The eukarya domain consists of four kingdoms.
Protists, Plants, Fungi, and Animals,
Take-home message 10.18 All living organisms that you can see with the naked eye are
eukarya, including all plants, animals, fungi, and protists. The eukarya are unique among the three domains in that
they have cells with organelles.