taks objective 3 the student will demonstrate an understanding of the interdependence of organisms...
TRANSCRIPT
TAKS Objective 3TAKS Objective 3TAKS Objective 3TAKS Objective 3The student will demonstrate an The student will demonstrate an
understanding of the understanding of the interdependence of organisms interdependence of organisms
and the environment.and the environment.
4C• compare the structures and
functions of viruses to cells and describe the role of viruses in causing diseases and conditions such as acquired immune deficiency syndrome, common colds, smallpox, influenza, and warts
Structure and Function of Viruses
• Core of nucleic acid surrounded by a protein coat.
• ‘Geometric’ in shape
Structure and Function of Cells
Membrane,wall(some), cytoplasm,nucleus,organelles,nucleic acids, protein.
You will always “see” the nucleus
Structure and Function of Viruses Vs. Cells
• What structures and functions they have in common?– Nucleic acid (DNA, RNA = genetic info)– Protein– Can change & adapt to surroundings
Major differences of Viruses Vs. Cells
– viruses are not living!!!!
– Viruses must have a host cell to accomplish most of the life functions
– cells do not.
Diseases caused by Viruses
-AIDS(HIV virus)– Cold– Chicken pox and Smallpox – Flu– Warts
4D• identify and describe the role of
bacteria in maintaining health such as in digestion and in causing diseases such as in streptococcus infections and diphtheria
Role of Bacteria
• Benefits (most bacteria) - E.coli in digestive tract help maintain proper health.
– Used to make food such as yogurt and cheese.– Decomposition recycles nutrients in the biosphere– Produce beneficial drugs
Role of Bacteria
• Bad News - Non-Serious Conditions: Cavities, acne, strep throat. - food spoiling and poisoning - Serious diseases/conditions: Lyme disease, Tuberculosis
One characteristic shared by a virus and a living cell is that both __.
a. store genetic information in nucleic
acids b. have a crystalline structure c. gain energy directly from the sun d. use glucose for respiration
• Which one of the following cannot metabolize nutrients?
Make sure you can identify these types of organisms by looking at their diagram.
7A
• identify evidence of change in species using fossils, DNA sequences,
anatomical similarities, physiological similarities, and embryology; and
Anatomical and
Physiological
Similarities
Embryology
• 53 The table shows a comparison of some amino acids found in cytochrome c. The two organisms in the table that are most
closely related are —
The diagram shows relationships of selected species over time. According to this information, which of these species is expected to have the greatest phenotypic difference from the ancestral species?
a.Species Qc.Species Tb.Species Rd.Species U
7B
• illustrate the results of natural selection in speciation, diversity, phylogeny, adaptation, behavior, and extinction.
Speciation- Formation of New Species Due to:
– Separation of populations– Changes in gene pool– Reproductive isolation– Ecological competition– Natural selectionNatural selection- survival of fittestAdaptation- characteristic that increases
chances of survival.Extinction- disappearance of species
The myxoma virus was used to control anoverpopulation of European rabbits inAustralia. When first introduced in the mid-1900s, the virus greatly reduced the Europeanrabbit population. Today the virus is not aneffective control of the European rabbitpopulation. Fewer European rabbits areaffected by the virus today because theyhave —
F learned to avoid the virusG moved away from infected areasH undergone a change in dietJ developed resistance to the virus
9D/12 E• analyze the flow of matter and
energy through different trophic levels and between organisms and the physical environment
• investigate and explain the interactions in an ecosystem including food chains, food webs, and food pyramids
Ecosystems• Producers
-Capture energy form sunlight or chemicals and
use that energy to produce food. - Also known as autotrophs
• Consumers-Cannot capture energy directly from the environment,
they rely on other organisms for their energy and food supply.
- Also known as heterotrophs
Ecosystems• Herbivores: eat only
plants• Carnivores: eat only
meat• Omnivores: eat both
meat and plants• Decomposers: break
down organic matter
Flow of Energy/ Trophic Levels• Sunlight provides the energy for a food web
• Arrows indicate direction of energy flow
• Greatest amount of energy is at the bottom of the pyramid – 10% of energy is transferred
to next level of food pyramid– 90% of energy is given off as
heat from one level to the next 1000 kcal
100 kcal
10 kcal
1 kcal
Energy Pyramid
Food Chains/ Food Webs
• Energy flows through an ecosystem in one direction from sun or chemicals producers consumers decomposers
• Food chain: series of steps in which organisms transfer energy by eating and being eaten.
• Food web: complex network formed by feeding relationships among various organisms.
Food Chain/Food Web
• The diagram represents different levels of a marine food pyramid. Between which two levels is the greatest amount of
energy transferred?
• A. R and QB. S and RC. T and SD. U and T
Follow the arrows carefully on this one – remember the arrow points from the one being eaten to the one that is eating it. Read the info to see what is supposed to be eating what!
12 B• interpret interactions among
organisms exhibiting predation, parasitism, commensalism, and mutualism
Can’t We All Just Get Along?
• Mutualism: A relationship in which both organisms benefit from the relationship.– Example: Clown Fish & Sea
Anemone – the fish receives protection from enemies and the anemone receives scraps of leftover food from the fish
Can’t We All Just Get Along?
• Commensalism: A relationship in which one organism benefits, and the other is neither helped nor harmed– Example: Egret & Rhino –
the bird receives protection from predators by its proximity to the rhino and the rhino is neither helped nor harmed
Can’t We All Just Get Along?
• Parasitism: A relationship in which one organism, who lives on another, benefits, and the other organism is harmed.– Example: Deer & Ticks –
the ticks gain nourishment from the deer and the deer looses blood; ultimately may die
Can’t We All Just Get Along?
• Predation: A relationship in which one organism benefits (the predator) and the other organism is killed/consumed (the prey)– Example: Lion &
Zebra/Rabbit & Lettuce – the lion eats the zebra; the rabbit eats the lettuce
• Which of these is the best example of a• mutualistic relationship in an aquatic• environment?• F Some fish can survive repeated infections
by harmful bacteria.• G Some fish have bacteria living in their
digestive tract that help the fish digestfood.
• H Some bacteria are present in aquatic foodchains in which fish are secondaryconsumers.
• J Some bacteria are aquatic decomposersthat recycle nutrients useful to fish.
Which of the following is most likely to cause increases in a predator population?
A. Fewer preyB. More parasitesC. A reduction in competition.D. A period of drought
Now You Try!Now You Try!Now You Try!Now You Try!
Some bacteria benefit mammals by helping with -
• a.growth• b.digestion• c.defense• d.respiration
According to this phylogenetic tree, which organism is most closely related to R?
Which of the following explains this phenomenon?
F CompetitionG ExtinctionH PredationJ Speciation
• About 10% of the energy at one trophic level is• passed to the next level. What usually• happens to the energy that is not passed to• the next trophic level or used to carry out life• processes?• A It is given off as heat.• B It is stored as vitamins.• C It is used in reproduction.• D It is used in protein synthesis.
• After being introduced in the 1930s, the fire ant (Solenopsis invicta) became established throughout much of the southern United States. One biological way to control fire ants might be to introduce organisms that are –
A. mutualistic with fire ant queensB. nurtured by fire ant workersC. preyed on by fire ant dronesD. parasitic to fire ant larvae
• According to the information in the box, which of these best describes the relationshipbetween rhizobia and bean plants?
A. ParasitismB. CommensalismC. OpportunismD. Mutualism
The picture shows a piece of rotting wood. Which of these does the picture demonstrate?
A. Photosynthesis occurringB. Decomposers growingC. Wood regeneratingD. Genes transforming