Term
| T/F: Viruses exhibit all the characteristics of living organisms. |
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Definition
| False: They exhibit some, but not all. |
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Term
| What are the 3 things that viruses can infect? |
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Definition
1) Bacteria
2) Plant
3) Animal cells |
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Term
| T/F: Viruses can replicate themselves without the host cell. |
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Definition
| False, they need a host cell. |
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Term
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Definition
-An RNA virus that reproduces by means of a DNA molecule. -Copies its RNA to DNA using reverse transcription. |
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Term
| What kind of virus is HIV? |
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Definition
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Term
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Definition
-Acquired immune deficiency syndrome - The disease caused by HIV infection - One of the most significant health challenges facing the world today |
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Term
What is AID's treated with? |
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Definition
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Term
| 3 new viruses that have emerged in recent years: |
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Definition
1) HIV 2) Ebola 3) West Nile |
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Term
How do new viruses arise? (3 ways) |
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Definition
1) Mutation of existing viruses 2) Spread to new host species 3) Spread from isolated populations |
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Term
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Definition
-Severe acute respiratory Syndrome -8,450 people infected -10% died |
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Term
| Can clones occur in nature in mammals? |
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Definition
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Term
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Definition
| Gene that is expressed (on) in every cell |
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Term
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Definition
-All contain a complete genome -Have the potential to express all of an organism's genes |
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Term
| Differentiated Plant Cells |
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Definition
| Have the ability to develop into a whole new organism. |
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Term
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Definition
| Is the regrowth of lost body parts in animals |
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Term
| T/F: The somatic cells of a single plant can be used to produce hundreds of clones. |
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Definition
False It can produce hundreds of thousands of clones. |
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Term
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Definition
| Taking the nucleus out of an egg |
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Term
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Definition
| -Involves replacing nuclei of egg cells with nuclei from differentiated cells. |
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Term
| What has been used to clone a variety of animals? |
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Definition
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Term
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Definition
Produces embryonic stem cells Cloning a specific cell for something good Ex: Diabetes |
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Term
What was the first mammal cloned in 1997? And what kind of cloning was it? |
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Definition
Dolly, the sheep Reproductive Cloning |
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Term
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Definition
| Can give rise to specific types of differentiated cells. |
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Term
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Definition
-Generate replacements for nondividing differentiated cells. -Are unlike embryonic stem cells, because they are partway along the road to differentiation |
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Term
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Definition
| Somatic Cell -> nucleus into enucleated egg -> embryo -> implanted in surrogate mom |
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Term
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Definition
-Master control genes -Regulate many other genes -Help direct embryonic development in many organisms |
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Term
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Definition
-Are sequences of nucleotides common in many organisms -Can turn groups of genes on and off during development |
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Term
| When a field is treated with a pesticide, what is true about the insects that survive? |
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Definition
| They carry a gene or genes that cause them to be resistant to pesticide. |
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Term
| Basic idea of natural selection |
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Definition
-Organisms can change over generations -Individuals with certain heritable traits leave more offspring than others |
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Term
| What is the result of natural selection? |
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Definition
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Term
| 2 points Darwin made in his book: |
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Definition
-Organisms inhabiting Earth today descended from ancestral species -Natural selection was the mechanism for descent with modification |
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Term
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Definition
-Preserved remnants or impressions left by organisms that lived in the past -Are often found in sedimentary rocks -Have to die in the right place |
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Term
Evidence of Whale evolution (3) |
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Definition
1) Pelvis and legs in ancestral whales 2) The progression of nostrils at front of the head and moving backward 3) Correlation between swimming movements of marine mammals and terrestrial mammals (movements different from fish) |
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Term
| The Basilosaurus fossil (an extinct, early whale) provides strong evidence that... |
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Definition
| Whale ancestors were four-legged terrestrial animals |
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Term
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Definition
-The study of the geographic distribution of species -First suggested to Darwin that today's organisms evolved from ancestral forms. |
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Term
| Many examples from ___________ support evolutionary theory. |
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Definition
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Term
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Definition
-Changes in an organisms DNA -Alone do not have much effect on a large population -Can have significant cummulative effects on a population |
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Term
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Definition
-The comparison of body structure between different species -Confirms that evolution is a remodeling process |
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Term
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Definition
| Is the similarity in structures due to common ancestry. |
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Term
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Definition
The comparison of structures that appear during the development of difference organisms -Coparative embryology of vertebrates supports evolutionary theory |
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Term
| What is an excellent example of natural selection and adaptive evolution? |
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Definition
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Term
| Darwin based his theory of natural selection on 2 key observations: |
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Definition
1) Overproduction -All species tend to produce excessive numbers -Leads to a struggle for existence 2) Individual Variation -Variation exists among individuals in a population -Much of this variation is heritable |
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Term
3 examples of natural selections: |
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Definition
1) Pesticide resistance in insects 2) The development of antibiotic-resistant bacteria 3) Drug-resistant strains of HIV |
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Term
| How are unique new alleles formed? |
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Definition
|
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Term
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Definition
| How present an allele is in a population |
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Term
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Definition
-Is a group of individuals of the same species living in the same place at the same time -Is the smallest biological unit that can evolve |
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Term
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Definition
-Focuses on populations as the evolutionary units -Tracks the genetic makeup of populations over time |
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Term
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Definition
| Shuffles alleles during meiosis |
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Term
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Definition
| Consists of all alleles of all individuals making up population |
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Term
| The Hardy-Weinberg formula |
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Definition
-A mathematical representation of a gene pool -Adds up all of the genotypes in a population |
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Term
| Hardy-Weinberg equilibrium |
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Definition
| Describes a nonevolving population that is in genetic equilibrium |
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Term
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Definition
| A generation-to-generation change in a population's frequencies of alleles |
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Term
| 4 main causes of microevolution are |
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Definition
1) Genetic drift 2) Gene flow 3) Mutations 4) Natural selection |
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Term
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Definition
| Is a change in the gene pool of a small population due to chance |
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Term
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Definition
-Is an example of genetic drift -Results from a drastic reduction in a population size -Bottlenecking in a population usually reduces genetic variation |
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Term
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Definition
| Is genetic drift in a new colony. Explains high frequency os certain inherited disorders and certain inherited disorders amoung some populations. Ex: Retinitis pigmentosa (eventual blindness) |
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Term
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Definition
| Genetic exchange with another population. Tends to reduce genetic differences between populations. |
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Term
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Definition
-Affects about one out of every 400 African Americans -Is more common among African Americans |
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Term
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Definition
-Confers resistance to the disease malaria -Is adaptive in the African tropics where malaria is common |
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Term
T/F: Since all moquitoes look roughly alike, they all only bite humans. |
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Definition
False. They all do look roughly alike but there are many distinct species, 2 of which may bite birds or people. |
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Term
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Definition
-Encompasses the major biological changes evident in the fossil record -Includes the formation of new species |
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Term
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Definition
-Is the focal point of macroevolution -May occur based on two contrasting patterns |
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Term
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Definition
| A population transforms but does not create a new species |
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Term
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Definition
| One or more new species branch from a parent species that may continue to exist |
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Term
| What is the more common form of speciation? Branching or nonbranching? |
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Definition
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Term
| Which type of evolution would lead to the most diversity of species? |
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Definition
|
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Term
| Interbreeding in nature leads to fertile or nonfertile offspring? |
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Definition
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Term
| Can biological species concept be applied in all situations? |
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Definition
No. For example, not with fossils and asexual organisms. |
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Term
| What prevents mating between species? |
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Definition
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Term
Prezygotic Barriers include: (4) |
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Definition
-Temporal Isolation -Habitat Isolation: Doesn't live in the same place -Mechanical Isolation: Can't physically interact -Gametic Isolation: Eggs and sperm don't get to one another |
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Term
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Definition
| Are mechanisms that operate should interspecies mating actually occur and form hybrid zygotes |
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Term
| In order to have speciation, you have to have _________ |
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Definition
|
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Term
| Example of Behavioral Isolation |
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Definition
| Species of frogs pair off correctly because of this |
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Term
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Definition
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Term
| What is considered a postzygotic barrier to reproduction? |
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Definition
| Fertilization occurs, but the embryo dies before it is born. |
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Term
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Definition
1) Allopatric Speciation 2) Sympatric Speciation |
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Term
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Definition
-Can fragment a population into two or more isolated populations -Can contribute to allopatric speciation |
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Term
| When does Sympatric speciation occur? |
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Definition
| If a genetic change produces a reproductive barrier between mutants and the parent population. |
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Term
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Definition
A mechanism of sympatric speciation -First observed by Hugo de Vries -Works best in plants |
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Term
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Definition
-Can originate from accidents during cell division -Can result from the hybridization of 2 parent species |
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Term
| Many domesticated plants are the result of _______________________ |
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Definition
|
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Term
|
Definition
| "Same Country" -> Species evolve within the same population |
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Term
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Definition
| "Different Country" -> Geographical barriers |
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Term
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Definition
-Involves a structure that evolves in one context gradually becoming adapted for other functions -Is a mechanism for novel features to arise gradually through a series of intermediate stages -Used for one particular thing |
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Term
| T/F: A subtle change in developmental genes does not have a profound effect. |
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Definition
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Term
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Definition
-Is the retention of juvenile body features in the adult -Is important in human evolution |
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Term
| Have extinction rates been steady? |
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Definition
|
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Term
| What are extinctions typically followed by? |
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Definition
| Explosive diversification of organisms |
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Term
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Definition
| An assemblage of species living close enough together for potential interaction |
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Term
| 2 components that make up a community |
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Definition
1) Species richness: the total number of different species in the community 2) Relative abundance of the different species. |
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Term
| What does the trophic structure of a community concern? |
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Definition
| The feeding relationships among the various species making up the community. |
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Term
| Interspecific Competition |
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Definition
- May occur when 2 or more species in a community rely on similar limiting resources - May limit population growth of the competing species |
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Term
| The trophic structure of a community concerns: |
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Definition
| the feeding relationships among the various sepcies making up the community. |
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Term
| A species' ecological niche: |
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Definition
-Is the sum total of a species' use of the biotic and abiotic resources in its environment -Is the species' ecological role |
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Term
| The competitive exclusion principle |
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Definition
Two species cannot coexistin a community if their iches are identical |
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Term
| 2 possible outcomes of competition between species with identical niches: |
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Definition
1) Extinction of one species 2) Evolution of one species to use a different set of resources |
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Term
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Definition
Is the differentiation of niches that enables similar species to coexist in a community |
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Term
What is one way 2 very similar species can avoid the consuquences of the competitive conclusion principle? |
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Definition
| One will adapt to a slightly different habitat or food |
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Term
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Definition
-Organisms eat other organisms -Identifies the predator as the consumer and the food species as they prey -Includes herbivory, the consumption of plants by animals |
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Term
| T/F: Most predators do not have acute senses/ |
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Definition
|
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Term
| Plants 2 various types of defenses against herbivores |
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Definition
1) Chemical toxins 2) Spines and thorns |
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Term
| Behavioral defenses examples |
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Definition
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Term
| Distraction displays examples |
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Definition
| Direct the attention of the predator away from a vulverable prey to another prey that is more likely to escape. |
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Term
| Experiments of Robert Paine |
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Definition
-Removed a dominant predator from a community -Provided evidence of the importance of predation |
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Term
| What led to the concept of keystone predators? |
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Definition
| Paine's experiments and others |
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Term
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Definition
| Help maintain species diversity by preventing competitive exclusion of weaker competitors. |
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Term
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Definition
| Is an interaction between two or more species that live together in direct contact |
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Term
|
Definition
| Interaction between 2 species is only beneficial to one |
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Term
|
Definition
| Beneficial to both species |
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Term
| What makes communities complex? |
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Definition
| The branching of interactions between species |
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Term
|
Definition
-Refers to the community's ability to resist change and return to its original species combination after being disturbed. -Depends on both the type of community and the nature of disturbances. |
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Term
|
Definition
-Are episodes that damage biological communities, at least temporarily -Destroy organisms and alter the availability of resources -Affect all communities. |
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Term
| Does primary succession have top soil? |
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Definition
|
|
Term
| When does secondary succession occur? |
|
Definition
| Where a disturbance has destroyed an existing community but left the soil intact. |
|
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Term
|
Definition
-Often have positive effects on a community -May create new habitats |
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Term
| Intermediate Disturbance Hypothesis |
|
Definition
| States that species diversity may be greatest in an area where disturbances is moderate in both severity and frequency |
|
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Term
|
Definition
| Is a biological community and the abiotic factors with which the community interacts. |
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Term
| What does energy flow and chemical cycling depend on? |
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Definition
| The transfer of substances in the feeding relationships, or trophic structure, of an ecosystem. |
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Term
|
Definition
| Determine an ecosystem's routes of energy flow and chemical cycling. |
|
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Term
|
Definition
| Divide the species of an ecosystem based on their main sources of nutrition |
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Term
| Who is often left off most food chain diagrams |
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Definition
| Detritivores, or decomposers. |
|
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Term
|
Definition
| Is the amount of organic material in an ecosystem |
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Term
What is an ecosystem's primary productivity? |
|
Definition
The rate at which plants and other producers build biomass |
|
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Term
| On average ___% of energy is stored as biomass at each trophic level |
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Definition
|
|
Term
| T/F: When energy flows as organic matter through the trophic levels of an ecosystem, very little of it is lost at each link in the food chain. |
|
Definition
| False, Much of it is lost. |
|
|
Term
| What is a virus that converts RNA into DNA? |
|
Definition
|
|
Term
| What drug fools reverse transcriptase? |
|
Definition
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