Bio 2 - Ecology Lab Works - Science
I attached all the documents & materials required for lab works. There are 3 pdfs to fill out, and putted the ppt it might help.
.1_ecology_labpptx.pptx
ecology_lab_and_student_handout.pdf
lab_2_ecology_food_webs_and_trophic_pyramids_instructions.pdf
lab_2_ecology_food_webs_and_trophic_pyramids_student_handout_to_print.pdf
Unformatted Attachment Preview
Ecology
Uh-oh now
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• This material correlates directly with lecture
• See lecture material for detailed information such as taxonomy
• Lecture updates always take priority over lab power points
After this lab you should be able to…….
• Identify the carrying capacity of a population
• Determine the birth rate and death rate of a population
• Compare and contrast predator prey graphs
• Identify an organisms role in the environment
• Create a food web for an environment
• Generate a food pyramid from a food web
Population Growth and Carrying Capacity
• Carrying Capacity – the
maximum population size of
a species that the
environment can support
indefinitely.
• Populations will fluctuate
around their carrying
capacity over time.
Exponential
Growth
Phase
Birth and Death Rate
• Birth rate – number of births in a population per 1000 individuals
𝐵𝑖𝑟𝑡ℎ 𝑟𝑎𝑡𝑒 =
𝑛𝑢𝑚𝑏𝑒𝑟 𝑜𝑓 𝑏𝑖𝑟𝑡ℎ𝑠
𝑡𝑜𝑡𝑎𝑙 𝑝𝑜𝑝𝑢𝑙𝑎𝑡𝑖𝑜𝑛 𝑠𝑖𝑧𝑒
𝑥 1000
• Death rate – number of deaths in a population per 1000 individuals
𝑛𝑢𝑚𝑏𝑒𝑟 𝑜𝑓 𝑑𝑒𝑎𝑡ℎ𝑠
𝐷𝑒𝑎𝑡ℎ 𝑟𝑎𝑡𝑒 =
𝑥 1000
𝑡𝑜𝑡𝑎𝑙 𝑝𝑜𝑝𝑢𝑙𝑎𝑡𝑖𝑜𝑛 𝑠𝑖𝑧𝑒
Factors Affecting Carrying Capacity
• Water and mineral supply
• Amount of food resources (prey species, vegetation etc)
• Number of predators
• Ecological conditions
• Quality of environment (number and conditions of
living spaces, nesting sites etc)
Organism types
• Autotroph – organism that produces its own food through photosynthesis known
as photoautotroph or an organism who makes its own food from inorganic
molecules known as a chemoautotroph.
• Heterotroph – organism that consumes other organisms (phototrophs,
chemotrophs, or other heterotrophs).
• Producers – organisms at the bottom of the food chain that produce all of their
own food, these are autotrophs.
• Consumers – organisms that consume others, heterotrophs. There are 3 types;
herbivores that only eat plants, carnivores that only eat meat, and omnivores
that eat both plants and meat.
Organism Roles in the Ecosystem
• Primary producers – organisms at the bottom of the food chain that produce all
of their own food
• Primary consumers – first level heterotrophs that only eat plants (aka herbivores)
• Secondary consumers – heterotrophs that only eat primary consumers
(carnivores) or both primary consumers and primary producers (omnivores)
• Tertiary consumers - heterotrophs that primarily eat secondary consumers (most
are carnivores) some are omnivores that also eat plants.
• Quarternary consumers – eat primarily tertiary consumers and are carnivores.
Food Web
• Used to represent the feeding
relationships within a
community
• Arrows point from prey
species to the predators that
consume them,
demonstrates energy flow.
Ecological Food Pyramid (Trophic Pyramid)
• Demonstrates the biomass or
bio productivity at each
trophic level in an ecosystem.
• Only 10\% of the energy at one
level is transferred to the level
above.
• Remaining 90\% of energy is
used by its current level or
lost as heat during energy
transfer to upper levels.
• Pesticides and other poisons
move up the food chain and
amplify in concentrations.
• DDT was a common pesticide for
insects
• It caused the eggs of eagles to
be so fragile they never made it
to hatching and eagle
populations plummeted.
Biology 1407
Lab 1: Ecology Lab
Objectives:
❀ Determine population change over time based on birth and death rates
❀ Identify the carrying capacity of a population
❀ Compare and contrast predator/prey population graphs
Introduction
An ecosystem can be as small as a drop of water or as large as the entire Earth. The productivity of an
ecosystem limits its carrying capacity, that is, the mass of living organisms that the ecosystem can support. As any
population increases in size, the same resources must be shared by a greater and greater number of individuals. The
decreasing supply of resources may lower the population’s birth rate, increase its death rate, or both – until birth and
deaths are in balance. At that point of balance, and as long as the resource supply remains constant, the population
should stabilize at some equilibrium size. Ecologists call this balance point of a population’s equilibrium the carrying
capacity of the environment the population lives in.
Birth rate is the number of new births in a population, usually calculated as the number of birth’s for every
1000 individuals in a year. The death rate of a population is usually calculated as the number of deaths (from
predations, starvation, disease etc) for every 1000 individuals in year. The population change each year can be
calculated as the number of births minus the number of deaths. If the results are positive there was an increase in the
population (more births than deaths occurred), a negative result indicates a decrease in population size (more deaths
than births).
Birth rate =
Death rate =
number of births
Total population size
x 1000
number of deaths
x 1000
Total population size
Population Change = number of births—number of deaths
The carrying capacity of a population can be determined by graphing the population size over time. Initially a
population may overshoot the carrying capacity of its environment until resources start to dwindle or predators
populations start to increase. Eventually the population change over time will begin to stabilize around the
population’s carrying capacity as seen in figure 1.1. Zero population growth occurs when the number of births equals
the number of deaths so that there is zero change in the population from one year to the next.
Biol 1407 Lab 1
Page 1
Figure 1.1: Example of population growth curve over time. Notice the initial overshoot of the carrying capacity followed by the
population eventually stabilizing around the carrying capacity of the population. Carrying capacity is where the population birth
rate = the population death rate. (Image source: Professor Mello)
Exercise 1.1 Carrying Capacity in Deer Populations
In this exercise you will determine the carrying capacity of a newly introduced deer population in an
isolated forest with no natural predators. This will be accomplished by analyzing their population growth/
decline over 15 years. Deer are herbivores (meaning they only eat plants) so you will also graph the
vegetation population numbers and compare the two populations over time.
Procedure 1.1 : Deer Population Graph
1. Using table 1.3 in the student handout at the end of this lab, calculate the deer population change
for each generation by subtracting the number of deaths from the number of births.
Example: To calculate the population change for the year 1995 you would use the calculation below.
Deer offspring — Predation Deaths — Disease Deaths — Starvation Deaths = Deer Population Change
784 — 0 — 100 — 220 = + 464
2. Add the deer population change to the deer population number to determine the next population
number for the following year.
Example: To calculate the population change for the year 1995 you would use the calculation below.
Deer Population Change + Deer population year 1 = Deer Population year 2
3,143 + 464 = 3,607
Year
1972
1973
Vegetation
Deer
Population
Population
2,541
3,143
2,312
3,607
Deer
offspring
784
756
Predation
Deaths
0
0
Disease
Deaths
100
350
Starvation
Deer Population
Deaths
Change
220
+ 464
500
- 94
Table 1.1: Example of how to fill data table 1.3 in the student handout section of this lab. The cells are color coded to match the
colored lines in the equations above .
Biol 1407 Lab 1
Page 2
3. Once you have table 1.3 filled in use the deer population numbers you calculated to graph their
population change over the years.
4. Approximate the carrying capacity of the deer population by drawing a dashed line in the middle
of the oscillations as seen in Figure 1.1.
5. Label any zero population growth points on the chart. Zero population growth occurs in the year
that the population change equals 0.
6. Graph the vegetation population on the same graph sheet.
7. Use the graph to answer the questions at the end of the student handout.
Exercise 1.2 Predator Prey Graphs in Deer Populations
In this exercise you will determine the carrying capacity of the deer population after wolves (a natural
deer predator) were introduced into the forest in 1994. You will then graph the deer, wolf and vegetation
populations over time to compare their interactions.
Procedure 1.2 : Predator Prey Population Graph
1. Use table 1.4 in the student handout to calculate the deer population change for each generation.
Deer Population Change = Deer offspring — Predation Deaths — Disease Deaths — Starvation Deaths
Example: To calculate the population change for the year 1995 you would use the calculation below.
Deer offspring — Predation Deaths — Disease Deaths — Starvation Deaths = Deer Population Change
832 — 0 — 100 — 220 = + 140
2. Add the deer population change to the deer population number to determine the next population
number for the following year.
Example: To calculate the population change for the year 1995 you would use the calculation below.
Deer Population Change + Deer population year 1 = Deer Population year 2
2,462 + 140 = 2,602
Year
1994
1995
Vegetation
Wolf
Deer
Deer
Predation
Disease
Starvation
Population Population Population offspring
Deaths
Deaths
Deaths
1,989
0
2,462
832
0
100
220
2,051
200
2,602
871
815
201
245
Deer
Population
Change
+ 140
- 390
Table 1.2: Example of how to fill data table 1.4 in the student handout section of this lab. The cells are color coded to match the
colored lines in the equations above .
Biol 1407 Lab 1
Page 3
Biology 1407
Lab 1: Student Handout
Exercise 1.1: Deer Population Table
Calculate the deer population change of each population by subtracting the number of deaths from
the number of births using the equation in lab procedure 1.1. The first few rows of the chart have been filled
in for you as an example.
Table 1.3
Year
1969
Vegetation
Deer
Population
Population
3,987
1,000
Deer
offspring
650
Predation
Deaths
Disease
Deaths
Starvation
Deaths
0
5
Deer Population
Change
0
+ 645
1970
3,505
1,645
801
0
6
20
+ 775
1971
1972
3,000
2,541
2,420
3,143
820
784
0
0
17
100
80
220
+ 723
+ 464
1973
1974
2,010
1,659
3,607
756
700
0
0
350
389
500
641
- 94
1975
1,200
711
0
401
720
1976
1977
1,415
1,601
715
710
0
0
455
203
788
399
1978
1979
1,912
1,761
721
756
0
0
161
222
287
380
1980
1981
1,574
1,389
731
700
0
0
352
331
614
590
1982
1983
1,614
1,841
651
667
0
0
329
180
451
198
1984
1,633
689
0
191
331
1985
1,300
695
0
278
468
1986
1,341
687
0
341
404
1987
1,589
654
0
304
350
1988
1,603
601
0
379
401
1989
1,791
578
0
313
459
1990
1,981
565
0
289
71
1991
1,641
583
0
229
101
1992
1,408
609
0
301
201
1993
1,613
583
0
379
426
1994
1,803
561
0
321
371
Biol 1407 Lab 1
Page 4
Exercise 1.1: Deer Population Graph
Population Size
Please graph the deer population numbers by year on the graph below. Then graph the vegetation
population numbers by year. Draw a dashed line to approximate the carrying capacity of the deer population
and a second dashed line to represent the carrying capacity of the vegetation. Label any zero population
growth points on the graph as well.
Biol 1407 Lab 1
Time in Years
Page 5
Exercise 1.2 Predator Prey Graphs in Deer Population
Calculate the deer population change of each population by subtracting the number of deaths from
the number of births using the equation in lab procedure 1.2. The first few rows of the chart have been filled
in for you as an example.
Table 1.4
Year
Vegetation
Wolf
Deer
population Population Population
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
Biol 1407 Lab 1
1989
2051
2187
2245
2389
2461
2612
2842
2458
2001
1654
1603
1781
2243
2679
2432
2219
1987
1754
1641
1897
2187
2215
2101
2074
1863
0
200
305
428
311
241
142
71
81
176
254
383
479
283
199
178
245
309
410
501
428
301
241
189
241
314
2,512
2,652
Deer
offspring
832
871
703
697
548
451
489
552
589
1176
1671
987
724
412
579
718
945
1014
1204
874
717
601
487
579
671
801
Predation
Death
0
815
941
1146
855
642
458
364
379
581
917
1200
1325
379
289
196
501
1078
1278
1405
689
431
331
249
289
401
Disease
Death
321
201
30
0
2
5
4
3
4
8
3
0
2
0
0
5
7
11
20
15
2
0
0
2
0
1
Starvation
Deaths
371
245
5
0
0
0
0
0
0
0
1
0
0
0
0
78
200
205
178
105
5
1
0
1
1
4
Population
Change
140
-390
Page 6
Exercise 1.1: Predator Prey Graph in Deer Populations
Population Size
Please graph the deer population numbers by year on the graph below. Then graph the vegetation and wolf
population numbers by year. Draw a dashed lines to approximate the carrying capacity of each population.
Label any zero population growth points on the graph as well.
Time in Years
Biol 1407 Lab 1
Page 7
Data Analysis
Compare the two graphs you created to answer the questions below.
1. What is the approximate carrying capacity of the deer in the years 1969-1994 before wolves were
introduced.
2.What happened to the carrying capacity after wolves were introduced?
3.How did the carrying capacity of the vegetation before the wolves were introduced compare to its
carrying capacity after the wolves were introduced? Why did it effect it this way?
4. If the deer population is decreasing what would you expect to happen to the wolf population? Why?
5. If the vegetation population is increasing what would you expect to happen to the wolf population?
6. Why does the wolf population affect the vegetation and vice versa?
7. What might happen to a ecosystem if you completely removed a predator species like the wolf?
Biol 1407 Lab 1
Page 8
Biology 1407
Lab 2: Food Webs & Trophic Pyramids
Objec ves:
ޝCreate food web for an ecosystem
ޝTurn a food web into a trophic pyramid
Introduc on
A food web represents the feeding rela onships within a community and the transfer of energy from
its source in plants through herbivores to carnivores. Normally, food webs consist of a number of food chains
meshed together. Each food chain is a descrip ve diagram including a series of arrows, each poin ng from
one species to another, represen ng the flow of food energy from one feeding group of organisms to
another.
Figure 2.1: On the le is an example of a food web with pictures of the organisms, on the right is the same food web with only
words. Both demonstrate that all organisms experience either preda on or parasi sm of some sort as a popula on control
mechanism (photos courtesy of h ps://socra c.org/ques ons/552ffa66581e2a5d39b75fef and Amanda Mello).
Biol 1407 Lab 1
Page 1
Food webs can be turned into a ecological food pyramid (also known as a trophic pyramid) which
show how energy moves through the system. Moving from one level to another looses 90\% of the original
level’s energy. This is because organisms at each level must u lize the energy present for their own
metabolism most of the energy at each level is consumer this way. Some energy is also lost as heat (a
byproduct of metabolism) to the environment. The bo om level of the pyramid has the most energy and
consists of primary producers. The second level on the pyramid is made up of primary consumers (herbivores
that only eat plants), followed by the third level which consists of secondary consumers (carnivores and
omnivores that feed from the levels below them). The fourth level consists of ter ary consumers most of
whom are carnivores with some herbivores mixed in that feed on all the levels below them. Finally the top
most level are the quaternary consumers these are all carnivores and are the top predators in the system.
Figure 2.2: A trophic food pyramid demonstra ng the 90\% loss of energy when transferring from one level to the next. Note the
energy lost as heat and the type of producers/consumers at each level. photos courtesy of h ps://socra c.org/
ques ons/552ffa66581e2a5d39b75fef and Amanda Mello).
Exercise 2.1 Food web
In this exercise you will create a food web for an environment of your choosing. You may pick any
biome from your ecology lecture, you will then use its abio c condi ons (temperature, weather pa erns,
water availability, amount of sunlight, types of season etc) as the basis for the organisms you put in your
food web.
Procedure 2.1 : Food web
1. Pick a biome you are interest in from your ecology lecture
2. Research and record all of the abio c factors for your biome in table 2.1 of the student handout.
Biol 1407 Lab 1
Page 2
3. Once you have iden fied the abio c factors you will use them to create your own fic onal
organisms to put into your food web.
4. You should have between 6-20 organisms in your food web. You have enough fic onal cri ers
when every organism has another organism that eats them (preda on) or keeps them under
control through parasi sm.
5. Name your fic onal organisms and list their characteris cs in your student handout. Be sure to
include what type of consumer/producer they are and what each of their food sources are in the
ecosystem.
6. Draw your food web with your fic onal organisms, you may use just their names or names &
pictures.
Figure 2.3: Example of food web made of fic onal organisms. Note that everyone has a predator or parasite that consumes them
and acts a popula on check. Also note that many organisms have mul ple food sources and overlaps of food sources with other
organisms.
Exercise 2.2 Trophic Pyramid
In this exercise you turn the food web that you created in exercise 2.1 into a food pyramid.
Procedure 2.2 : Trophic Pyramid
1. Separate your made up organisms into primary producers and consumers.
2. Place the producers at the bo om of your trophic pyramid.
3. In the second level you will place all consumers that are herbivores only (they do not eat any meat).
4. In the third level you will place consumers that are carnivores and omnivores that only feed on organisms
in the first two levels.
Biol 1407 Lab 1
Page 3
5. In the fourth level, the ter ary consumers, you will place organisms that are carnivores and
maybe a few omnivores that feed on organisms in the bo om three levels.
6. In the final level, the quaternary consumers, you place carnivores that feed on organisms from the
ter ary level. They may also feed off of consumers in the other levels but they must feed off
ter ary consumers too in order to be a quaternary consumer.
Figure 2.4: Example of trophic pyramid made from the food web in figure 2.3.
Biol 1407 Lab 1
Page 4
Biology 1407
Lab 2: Student Handout
Exercise 2.1: Biome and Food Web
Describe the biome you picked for your food web in the table below.
Table 2.1: Biome abio c factors.
Name of Biome:
Abio c Factors
Descrip on
List any other important factors in your ecosystem
Descrip on
Temperature
Sunlight levels
Amount of rain per year
Weather pa erns
Season types
Soil types
Atmosphere type
Biol 1407 Lab 1
Page 5
Exercise 2.1: Organisms for food web
Name and describe your fic onal organisms on this page. Your descrip ons should include what type of
consumer/producer they are and what each of their food sources are in the ecosystem.
Biol 1407 Lab 1
Page 6
Exercise 2.1 con nued: Food web
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The inbound logistics for William Instrument refer to purchase components from various electronic firms. During the purchase process William need to consider the quality and price of the components. In this case
4. A U.S. Supreme Court case known as Furman v. Georgia (1972) is a landmark case that involved Eighth Amendment’s ban of unusual and cruel punishment in death penalty cases (Furman v. Georgia (1972)
With covid coming into place
In my opinion
with
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The ability to view ourselves from an unbiased perspective allows us to critically assess our personal strengths and weaknesses. This is an important step in the process of finding the right resources for our personal learning style. Ego and pride can be
· By Day 1 of this week
While you must form your answers to the questions below from our assigned reading material
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5 The family dynamic is awkward at first since the most outgoing and straight forward person in the family in Linda
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The most important benefit of my statistical analysis would be the accuracy with which I interpret the data. The greatest obstacle
From a similar but larger point of view
4 In order to get the entire family to come back for another session I would suggest coming in on a day the restaurant is not open
When seeking to identify a patient’s health condition
After viewing the you tube videos on prayer
Your paper must be at least two pages in length (not counting the title and reference pages)
The word assimilate is negative to me. I believe everyone should learn about a country that they are going to live in. It doesnt mean that they have to believe that everything in America is better than where they came from. It means that they care enough
Data collection
Single Subject Chris is a social worker in a geriatric case management program located in a midsize Northeastern town. She has an MSW and is part of a team of case managers that likes to continuously improve on its practice. The team is currently using an
I would start off with Linda on repeating her options for the child and going over what she is feeling with each option. I would want to find out what she is afraid of. I would avoid asking her any “why” questions because I want her to be in the here an
Summarize the advantages and disadvantages of using an Internet site as means of collecting data for psychological research (Comp 2.1) 25.0\% Summarization of the advantages and disadvantages of using an Internet site as means of collecting data for psych
Identify the type of research used in a chosen study
Compose a 1
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effect relationship becomes more difficult—as the researcher cannot enact total control of another person even in an experimental environment. Social workers serve clients in highly complex real-world environments. Clients often implement recommended inte
I think knowing more about you will allow you to be able to choose the right resources
Be 4 pages in length
soft MB-920 dumps review and documentation and high-quality listing pdf MB-920 braindumps also recommended and approved by Microsoft experts. The practical test
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One thing you will need to do in college is learn how to find and use references. References support your ideas. College-level work must be supported by research. You are expected to do that for this paper. You will research
Elaborate on any potential confounds or ethical concerns while participating in the psychological study 20.0\% Elaboration on any potential confounds or ethical concerns while participating in the psychological study is missing. Elaboration on any potenti
3 The first thing I would do in the family’s first session is develop a genogram of the family to get an idea of all the individuals who play a major role in Linda’s life. After establishing where each member is in relation to the family
A Health in All Policies approach
Note: The requirements outlined below correspond to the grading criteria in the scoring guide. At a minimum
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Read Connecting Communities and Complexity: A Case Study in Creating the Conditions for Transformational Change
Read Reflections on Cultural Humility
Read A Basic Guide to ABCD Community Organizing
Use the bolded black section and sub-section titles below to organize your paper. For each section
Losinski forwarded the article on a priority basis to Mary Scott
Losinksi wanted details on use of the ED at CGH. He asked the administrative resident