Download - Ecology Part 2 ~ NJBCT ~ End of Yearmissclarkswebsite.weebly.com/uploads/5/0/3/8/5038779/ecology_part... · Ecology Part 2 ~ NJBCT ~ End of Year Populations, ... natural disasters

Name: ________________________________________________________________________________

Ecology Part 2 ~ NJBCT ~ End of Year Populations, Biodiversity, and Conservation

Date Classwork Homework Thursday 5/8 Notes Chapter 4 (Population Ecology) Read and answer Questions to Ch. 4.1 Friday 5/9 Finish Notes Chapter 4 (Population Ecology) Read and answer Questions to Ch. 4.2 Monday 5/12 Notes Chapter 5 (Biodiversity and Conservation)

Handout NJBCT Study Guide Read and answer Questions to Ch. 5.1 and 5.2

Tuesday 5/13 Finish Notes Chapter 5 (Biodiversity and Conservation) Read and answer Questions to Ch. 5.3 Wednesday 5/14 Practice NJBCT Work on NJBCT Study Guide Thursday 5/15 Go over Practice NJBCT

Questions on NJBCT Study Guide Work on NJBCT Study Guide

Friday 5/16 In-class time to work on NJBCT Study Guide Work on NJBCT Study Guide Monday 5/19 Go over NJBCT Study Guide Study for NJBCT Tuesday 5/20 NJBCT Day 1

Cane Toad Video Carbon Footprint Assignment in Packet

Wednesday 5/21 NJBCT Day 2

Cane Toad Video Pass out Study Guide Ecology Part II

Readings: Shifting Baselines and Predators as Key Players - Reading and Questions

Thursday 5/22 Prom – ½ Day

Finish Cane Toad Video and go over questions Start Lessons of Kaibab Activity

Enjoy Prom!

Friday 5/23 Finish Lessons of Kaibab Activity Random Sampling Activity

Study for test

Tuesday 5/27 Finish Friday’s Activities, if needed Review Day – go over Study Guide questions

Packet due tomorrow

Wednesday 5/28 Test Thursday 5/29 Introduce and Work on Final Projects Final Projects due Wednesday 6/4/14 Friday 5/30 Work on Final Projects

Pass out Final Exam Study Guide Final Projects due Wednesday 6/4/14

Monday 6/2 - Tuesday 6/3

Owl Pellet Dissection, Day 1 and Day 2 Work on Final Projects Work on Final Exam Study Guide

Wednesday 6/4 – Friday 6/6

Final Project Presentations Friday – if time, review for final exam

Study for Final Exam

Rubric:

Grade Possible Points Your Points

Ch 4-5 Notes 40 Reading Questions 50 Cane Toa Video Guide 20

Carbon Footprint 20 Predators as Key Players 20 Shifting Baselines 20 Lessons of the Kaibab 20 Grade:

FYI: Seafood Watch

Textbook Homework Chapter 4.1

Before You Read:

1.

2.

3.

4.

5.

6.

7.

8.

Chapter 4.2

Before you Read:

1.

2.

3.

4. List:

a. Largest

b. Smallest

5.

Chapter 5.1

Before you Read: .

1. List

a. Lowest:

b. Hightest

2.

3.

4. List watersheds:

5.

6.

Chapter 5.2

Before you Read:

1.

2.

3.

4.

5.

6. Name the Habitat:

7.

8.

9.

Chapter 5.3

Before you read:

1.

2.

3.

4.

5.

6.

PowerPoint Notes

Population EcologyPopulation Dynamics

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Population Characteristics

• Population- group of organisms of the same _____________ in the same ______________

• Population characteristics include:– Density, spatial distribution and growth rate

• Population Density- number of organisms in an area– 38 deer/square mile in NJ

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Dispersion PatternsUniform (solitary)

• Groups are evenly spaced• Members often don’t want to be near each

other

• Members are usually social• Members are usually around important

resources

Dispersion PatternsClumped (herds)

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Dispersion PatternsRandom (groups)

• Not centered around a certain resource• Some members are social, some are not

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Limiting Factors

• Keep populations from growing indefinitely– Without these, populations would infinitely large

• Can be __________________– Hiding places– Temperature– Rainfall

• Can be __________________– Food– Predators– Disease

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Density Independent Limiting Factors• Does not depend on the number of organisms in an

area• Usually ________________

– Weather (floods, temperatures, hurricanes)

• Depends on ____________________________• Often Biotic

– Parasites, Predators, Disease, Competition

Density Dependent Limiting Factor

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Population Growth

• Population growth rate-

• Birth and Immigration increase Populations• Death and Emigration decrease populations

r = (b – d) + (i – e)

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Exponential Growth

• Growth withoutlimiting factors

• J shaped Curve–

• Many young survive•

– Why?

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Logistic Growth

• Population Strains Resources

• Growth will slow or stop

• Fluctuates around a ____________________________________

• S- Shaped

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Carrying Capacity

• Carrying Capacity- the maximum number of individuals that the environment can support for the long term

• Limited by _______________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Reproductive Strategiesr-selected

• Many young• Reproduce quickly• Little parental care• Small in size• Examples:

–––

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Reproductive Strategiesk-selected

•••• Few Young• Examples:

– Kangaroo and Koala– Humans– Redwood trees– Whales

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Human Populations• Humans change their

environment to increase carrying capacities

• Technologies ________________ death rates– Medicine

• 70 million new people every year• 53 years to double the

population• Growth rate is slowing

–– Voluntary Population Control

• Ie. China – One Child Policy

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Trends

• Developed countries have a lower birth rate and later date rate– USA (2009)- 13.9/1000 death @ 78.11 years old– USA (1850) 50/1000 death @ 38.3 years

old

• Why?

• Zero population growth, so…– Birthrate + Immigration rate = Death rate + emigration rate

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Age Structure Diagrams

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Biodiversity and Conservation

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Biodiversity• Biodiversity-• Extinction- no more member of a species

exists• Genetic diversity- variety of genes in a

population– Higher diversity offers a _____________________

_________________________________________– Some individuals are naturally resistant to some

disease• Humans and AIDS (delta 32 mutation)

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Species Diversity

• Species Diversity- number of different species and the abundance in an area

• What biomes have a higher diversity?

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Why preserve Biodiversity?

• We may not know the benefit of an organisms yet– Aspirins-from willow– Penicillin comes from mold– What's next?

• Healthy diversity––

• Its beautiful

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Conservation

Extinction Rates• Background extinction-

– Always present– Caused by natural processes, climate change,

natural disasters

• Mass extinction-

– Dinosaurs 65 million years ago

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Extinctions• 73% of extinct mammals over the last 500 years are

island species– Why?

• Many of Hawaii's birds are extinct– Ground nesters – ie saffron

finches

• Amphibians are currently in danger– Why?

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Threats

• Humans- change natural conditions faster than organisms can adapt

• Humans- Overexploitation– 50 million bison dwindled to 1000 in 1889

• Overexploitation may lead to extinction– Passenger pigeon

• Humans-habitat loss––

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Habitat Disruption

• Changing on thing can have a big effect– Whales disappear then plankton bloom

• Habitat Fragmentation-

• Edge effect- temperature, humidity and species are different at edges than interiors– Overlap makes the area _____________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Biomagnification• Pollutants build up to high levels in

carnivores••• Examples

– DDT- kills mosquitoes and other insects ; accumulates in birds (ie eagles) affects egg shells

– Mercury- accumulates in humans causing problems with the nervous system (vision, hearing and speech)

– Dioxin- causes organ disease, increased risk of cancer and a suppressed immune system

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

____________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Acid Precipitation

• Caused by burning ______________________• Sulfuric acid and nitric acid are formed• Acid rain falls back as rain, snow fog or sleet• Acid rain __________________ nutrients from

soil and kills fish and other organisms

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Invasive Species•

• Organisms are not kept in balance by natural means

• Examples– Cane Toads– Fire Ants– Phragmities (the

plant in the Meadowlands)

– Kudzu – coming up!

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

The Spread of Zebra Mussels

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

The Spread of Wild Hogs

• As far north as south NJ

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Conservation

• Industrialized countries use more resources• ____________________________________ - replaced by

natural processes• ____________________________________ - finite amount

of the resource available

• Which are renewable and which are notFossil Fuels WaterTimber Kenaf

Solar Radiation HydropowerMetals

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Sustainable Use

• Resources must be used at a rate they can be _________________________

• All resources need to be used in an sustainable manner– Nonrenewable resources

••

– Renewable resources••

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Hot Spots

• 15% of the Earth Surfaces is considered a Hot Spot

• There are many endemic species–

• 70% of this habitat is ___________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Should we restore ecosystem?

• What ecosystems should be restored?

• How should we do it?– Bioremediation-remove toxins by using living

organisms– Bioaugmentation- adding natural predators

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

___________________________________

Cane Toad Video Guide Be sure you have the following information in your video notes (if not, add it):

1. What organism attacked the sugar cane crop in Australia in the 1930’s? _________________________

2. The cane toads were brought from ______________________________________________________.

3. How many toads were originally brought to Australia? ________________________________________

4. Into which river were the first toads released? ______________________________________________

5. Considering a map of Australia, where were the first toads released? ____________________________

6. What is amplexus? ___________________________________________________________________

7. How many eggs does a female cane toad produce? _________________________________________

8. How many eggs per frog need to survive to adulthood in order to maintain a stable population? ______

9. In 1945, what finally rid the region of the sugar cane beetle grub? ______________________________

10. Where are the cane toad’s venom glands? ________________________________________________

11. What type of molecule is the cane toad venom? ____________________________________________

12. What part of the human body does cane toad venom affect? __________________________________

13. How did some crazy humans use the cane toad venom in dried form? ___________________________

14. Why did some cane toads become cannibalistic? ___________________________________________

15. Explain this term: Bufo marinus : ________________________________________________________

16. Cane toads are native to _______________________________ and __________________________.

17. In their native land, cane toads (like many populations) are kept in check by two things… what are they?

a. _____________________________________________________________________________

b. _____________________________________________________________________________

18. Give two other impressions you had from the video and/or what lesson is learned from this video:

a.

b.

Carbon Footprint Activity Go to: http://www.nature.org/greenliving/carboncalculator/ Calculate your carbon footprint. My Carbon Footprint MAKE SURE YOU INCLUDE UNITS US Person Average Person MAKE SURE YOU INCLUDE UNITS Calculate your family’s carbon footprint. MAKE SURE YOU INCLUDE UNITS What can you do to reduce your carbon footprint? _______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

_______________________________________________________________________________________

http://www.nature.org/greenliving/carboncalculator/

Predators as Key Players 1. Where is Mike Heithaus studying sharks? 2. What is a dugong? 3. Explain what Mike Heithaus wants to learn? 4. What is an apex predator? Give an example? 5. What is a keystone predator? Give an example 6. What happens in you remove a keystone species from the population? Give an example. 7. What would happen if you lost the sea grasses in Shark Bay? 8. How did they look at who lives in the banks? 9. Why didn’t other dolphins feed in the best feeding areas? 10. Explain the difference between the two sea grasses?

Shifting Baselines Reading 1. What is a shifting baseline? Give an example. 2. What happened to salmon between present day, the 1930’s and the 1800’s? 3. What part of California’s Marine Protection act is Controversial? What’s your opinion? 4. Give two examples from the reading that show how the ocean is in decline?

Lessons of the Kaibab

Introduction: The environment may be altered by forces within the biotic community, as well as by relationships between organisms and the physical environment. The carrying capacity of an ecosystem is the maximum number of organisms that an area can support on a sustained basis. The density of a population may produce such profound changes in the environment that the environment becomes unsuitable for the survival of that species. For instance, overgrazing of land may make the land unable to support the grazing of animals that lived there. Objectives:

• Graph data on the Kaibab deer population of Arizona from 1905 to 1939 • Determine factors responsible for the changing populations • Determine the carrying capacity of the Kaibab Plateau

Background: Before 1905, the deer on the Kaibab Plateau were estimated to number about 4000. The average carrying capacity of the range was then estimated to be about 30,000 deer. On November 28th, 1906, President Theodore Roosevelt created the Grand Canyon National Game Preserve to protect the "finest deer herd in America." Unfortunately, by this time the Kaibab forest area had already been overgrazed by sheep, cattle, and horses. Most of the tall grasses had been eliminated. The first step to protect the deer was to ban all hunting. In addition, in 1907, The Forest Service tried to exterminate the predators of the deer. Between 1907 and 1939, 816 mountain lions, 20 wolves, 7388 coyotes and more than 500 bobcats were killed. Signs that the deer population was out of control began to appear as early as 1920 - the range was beginning to deteriorate rapidly. The Forest Service reduced the number of livestock grazing permits. By 1923, the deer were reported to be on the verge of starvation and the range conditions were described as "deplorable." The Kaibab Deer Investigating Committee recommended that all livestock not owned by local residents be removed immediately from the range and that the number of deer be cut in half as quickly as possible. Hunting was reopened, and during the fall of 1924, 675 deer were killed by hunters. However, these deer represented only one-tenth the number of deer that had been born that spring. Over the next two winters, it is estimated that 60,000 deer starved to death. Today, the Arizona Game Commission carefully manages the Kaibab area with regulations geared to specific local needs. Hunting permits are issued to keep the deer in balance with their range. Predators are protected to help keep herds in balance with food supplies. Tragic winter losses can be checked by keeping the number of deer near the carrying capacity of the range.

Data: 1. Graph the deer population data. Place time on the X axis and "number of deer" on the Y axis

DATA TABLE 1905-1939

Year Population Year Population Year Population

1905 4,000 1925 60,000 1930 25,000

1910 9,000 1926 40,000 1931 20,000

1915 25,000 1927 37,000 1935 18,000

1920 65,000 1928 35,000 1939 10,000

1924 100,000 1929 30,000

Analysis: 1. During 1906 and 1907, what two methods did the Forest Service use to protect the Kaibab deer?

2. Were these methods successful? Use the data from your graph to support your answer.

3. Why do you suppose the population of deer declined in 1925, although the eliminated of predators occurred?

4. Why do you think the deer population size in 1900 was 4,000 when it is estimated that the plateau has a carrying capacity of 30,000?

5. Why did the deer population decline after 1924?

6. Based on these lessons, suggest what YOU would have done in the following years to manage deer herds.

a. 1915:

b. 1923:

7. It is a criticism of many population ecologists that the pattern of population increase and subsequent crash of the deer population would have occurred even if the bounty had not been placed on the predators. Do you agree or disagree with this statement. Explain your reasoning.

8. What future management plans would you suggest for the Kaibab deer herd?

Random Sampling Activity

Introduction

Scientists cannot possibly count every organism in a population. One way to estimate the size of a population is to collect data by taking random samples. If you survey every person or a whole set of units in a population you are taking a census. However, this method is often impracticable; as it’s often very costly in terms of time and money. For example, a survey that asks complicated questions may need to use trained interviewers to ensure questions are understood. This may be too expensive if every person in the population is to be included. Sometimes taking a census can be impossible. For example, a car manufacturer might want to test the strength of cars being produced. Obviously, each car could not be crash tested to determine its strength! To overcome these problems, samples are taken from populations, and estimates made about the total population based on information derived from the sample. A sample must be large enough to give a good representation of the population, but small enough to be manageable. Data obtained by random sampling can be compared to data obtained by actual counts. By comparing data from random sampling to the actual count, you can compute the percentage error to determine the accuracy of the random sampling. Objective

The size of a population can be determined using the random sampling method.

Procedure

1. Tear a sheet of paper into 20 slips, each approximately 4cm x 4 cm.

2. Number 10 of the slips from 1 to 10 and put them in an envelope.

3. Label the remaining 10 slips from A through J and put them in a second envelope.

4. Use the grid below for you random and actual counts. The grid represents a meadow measuring 10 meters on each side. Each grid segment is 1m x 1m. Each black circle represents one sunflower plant.

5. Randomly remove one slip from each envelope. Write down the number-letter combination and find the grid segment that matches the combination. Count the number of sunflower plants in that grid segment. Record this number on Data table 1. Return each slip to its appropriate envelop.

6. Repeat step 5 until you have data for 10 different grid segments (and the table is filled out). These 10 grid segments represent a sample. Gathering data from a randomly selected sample of a larger area is called sampling.

7. Find the total number of sunflower plants for the 10 segment sample. This is an estimation based on a formula. Add all the grid segment sunflowers together and divide by ten to get an AVERAGE number of sunflower plants per grid segment. Record this number in the table. Multiple the average number of sunflower plants by 100 (this is the total number of grid segments) to find the total number of plants in the meadow based on your sample. Record this number in Data Table 1.

8. Now count all the sunflower plants actually shown in the meadow. Record this number in Data Table 2. Divide this figure by 100 to calculate the average number of sunflower plants per each grid.

Data Table

Random Sampling Data Grid Segment

(number-letter)

Total # of Sunflowers:

Average Per Grid: (divide by 10)

Total # of plants in meadow: multiply average by 100

Actual Data

Total number of Sunflowers

(count by hand)

Average number of Sunflowers

(divide total by 100) Per grid

Questions

1. Compare the total number you got for sunflowers from the SAMPLING to the ACTUAL count. How close are they?

2. Why was the paper-slip method used to select the grid segments?

3. Why do biologists use Sampling? Why can’t they just go into the forest and count all the sunflower plants?

4. Population Sampling is usually more effective when the population has an even dispersion pattern. Clumped dispersion patterns are the least effective. Explain why this would be the case.

5. Describe how you would use Sampling to determine the population of dandelions in your yard.

6. In a forest that measures 5 miles by 5 miles, a sample was taken to count the number of silver maple trees in the forest. The number of trees counted in the grid is shown below. The grids where the survey was taken were chosen randomly. Determine how many silver maple trees are in this forest using the random sampling technique. Show your work!

7

3

5

11 9