Sci10 Learning Module quarter 3

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10
Science
Department of Education
Republic of the Philippines
This book was collaboratively developed and reviewed by educators
from public and private schools, colleges, and/or universities. We encourage
teachers and other education stakeholders to email their feedback,
comments, and recommendations to the Department of Education at
action@deped.gov.ph.
We value your feedback and recommendations.
Learner’s Material
Unit 3
All rights reserved. No part of this material may be reproduced or transmitted in any form or by any means -
electronic or mechanical including photocopying – without written permission from the DepEd Central Office. First Edition, 2015.

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Science – Grade 10
Learner’s Material
First Edition 2015
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Photo Credits: Herma D. Acosta, Dave G. Angeles, Liza A. Alvarez, Ruby D.
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Nilo G. Salazar
Layout Artists: Matthew Daniel V. Leysa and Mary Grace Ann G. Cadisal

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Unit 3: Living Things and Their Environment
Overview
Module 1: Coordinated Functions of the Nervous, Endocrine, and
Reproductive Systems
I. Introduction ------------------------------------------------------------------------------225
II. Learning Competencies/Objectives -----------------------------------------------225
III. Pre-assessment ------------------------------------------------------------------------226
IV. Reading Resources and Instructional Activities---------------------------------228
Activity 1: Break It Down! -------------------------------------------------------230
Activity 2: How Fast Is Your Reaction? --------------------------------------233
Activity 3: A Nervous Trip --------------------------------------------------------237
Activity 4: Who’s in Control? ---------------------------------------------------242
Activity 5: What Went Wrong? -------------------------------------------------245
Activity 6: Mark My Calendar! --------------------------------------------------252
V. Summary/Synthesis/Feedback ------------------------------------------------------257
VI. Summative Assessment -------------------------------------------------------------259
Glossary of Terms -----------------------------------------------------------------260
References and Links ------------------------------------------------------------261
Module 2: Heredity: Inheritance and Variation
I. Introduction --------------------------------------------------------------------------------263
II. Learning Competencies/Objectives-------------------------------------------------264
III. Pre-Assessment ------------------------------------------------------------------------264
IV. Reading Resources and Instructional Activities---------------------------------266
Activity 1: Getting to Know the DNA and RNA Structure ----------------266
Activity 2: DNA Makes DNA ----------------------------------------------------269
Activity 3: What’s the Message ------------------------------------------------273
Activity 4: Relay the Message --------------------------------------------------276
Activity 5: Trace the Code -------------------------------------------------------280
Activity 6: Chromie Change ----------------------------------------------------284
TABLE OF CONTENTS

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Module3: Biodiversity and Evolution
I. Introduction --------------------------------------------------------------------------------299
II. Learning Competencies/Objectives-------------------------------------------------299
IV. Reading Resources and Instructional Activities --------------------------------302
Activity 1A: Where Do I Belong ------------------------------------------------304
Activity 1B: What’s My Age? ----------------------------------------------------306
Activity 2: AHA! Analogous! Homologous! ----------------------------------310
Activity 3: So, Who is My Relative? -------------------------------------------311
Activity 4: Let’s Compare --------------------------------------------------------313
Activity 5: Follow the Track -----------------------------------------------------318
Activity 6: Survivor ----------------------------------------------------------------319
V.Summary/Synthesis/Feedback-------------------------------------------------------322
Glossary of Terms------------------------------------------------------------------325
References and Links-------------------------------------------------------------326
Module 4: Ecosystem: Biodiversity
I. Introduction --------------------------------------------------------------------------------328
II. Learning Competencies/Objectives ------------------------------------------------328
IV. Reading Resources and Instructional Activities --------------------------------329
Activity 1: Classifying the Value of Biodiversity ----------------------------330
Activity 2: Dependent or Independent? --------------------------------------336
Activity 3: Analyzing Environmental Issues ---------------------------------338

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Activity 4: Biodiversity Status in the Community ---------------------------340
Activity 5: Product Creation -----------------------------------------------------341
Activity 6: Showcasing of Products -------------------------------------------344

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UNIT 3
Living Things and Their
Environment

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UNIT 3: Living Things and Their Environment
Overview
In the past years, you have studied about the coordinated functions
of the digestive, respiratory, and circulatory systems. You have learned that
nutrients enter the bloodstream and combine with oxygen taken in through
the respiratory system. You have also understood the structure of genes and
chromosomes, and the functions they perform in the transmission of traits from
parents to offspring. You have discovered that some species that once existed
are now extinct, and that they become extinct when they fail to adapt to changes
in the environment. You have become familiar about how plants capture energy
from the sun and store energy in sugar molecules through photosynthesis, and
learned that stored energy is used by cells during cellular respiration. You have
found out that these two processes are interrelated.
All modules in Grade 10 Unit 3 Living Things and Their Environment
present mental and hands-on activities that will enable you to apply science
concepts and inquiry skills in addressing real-world problems through scientific
investigations. These instructional activities are designed to enhance your
knowledge, understanding, skills, and ability to transfer learning. There are four
modules in this quarter, namely:
Module 1: Coordinated Functions of the Nervous, Endocrine, and
Module 2: Heredity: Inheritance and Variation
Module 3: Biodiversity and Evolution
Module 4: Ecosystems: Biodiversity
At the end of Grade 10, you should have already developed scientific,
technological, and environmental literacy that will lead you to rational choices
on any issue that you will face in life.

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COORDINATED FUNCTIONS
OF THE NERVOUS,
ENDOCRINE,AND
REPRODUCTIVE SYSTEMS
Suggested time allotment: 12 to 14 hours
I. Introduction
The human body is made up of different systems that coordinate with
one another in order to perform their functions well. If any part of these organ
systems malfunctions, the body will become unbalanced. The instability caused
by the malfunctioning of one system cannot be made stable by other systems
because each system has its own function in the body. You have studied in the
past that human body systems are the combined functional units composed
of various organs that work in full coordination with one other. In Grade 9,
you have already studied how the circulatory and respiratory systems work
together and how lifestyle affects these systems. Now you will learn about the
coordinated functions of the reproductive, endocrine, and nervous systems.
As you go through this module, you will be able to understand organisms
having feedback mechanisms, are coordinated by the nervous and endocrine
systems. You will also learn how these feedback mechanisms help organisms
maintain homeostasis to reproduce and survive.
II. Learning Competencies/Objectives
At the end of this module, you are expected to:
1. Describe the parts of the nervous, endocrine, and reproductive systems,
along with their functions.
2. Explain the role of hormones involved in the female and male reproductive
systems.
3. Describe the feedback mechanisms in regulating processes in the
female reproductive system.
4. Describe how the nervous system coordinates and regulates feedback
mechanisms to maintain homeostasis.
Unit 3
MODULE
1

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In Module 1, you will answer the following key questions:
Directions: Study each set of diagrams showing different organs of the human
body. Then, determine which organ does not belong to the group by naming
it on the space provided, on the second column of the table. Lastly, write your
explanation on the third column why the organ should not be included in the
group.
III. Pre-Assessment
Odd Organ Out
• How do the nervous, endocrine, and reproductive systems perform
coordinated functions?
• How do hormones work to regulate various mechanisms inside the
human body?
• How do feedback mechanisms help organisms to maintain
homeostasis in order to reproduce and survive?
Group of Organs Odd-One Out Reason
good-health-guide.
blogspot.com
education-portal.com
eweb.furman.edu
ninds.nih.gov
cervical region
thoracic region
lumbar region
sacral region
coccygeal region

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Group of Organs Odd-One Out Reason
medindia.net myoptumhealth.com
wisegeek.org academymedical.com
globehealingcenter.com hormone.org
tooloop.com facstaff.gpc.edu

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You have studied that cells make up a tissue, then tissues make up an
organ, and organs make up a system. Now, you will first try to understand the
organ system before you go to the cellular level to know how the individual cells
of the nervous system work.
IV. Reading Resources and Instructional Materials
The Nervous System
The Structure of the Nervous System
Figure 1. The human nervous system
sandrocastelli.com tooloop.com
health.allrefer.com Lackfoundation.org

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Your nervous system connects all your body parts and transmits signals
from one part to another. It is a system of cells, tissues, and organs that regulates
the body’s responses to internal and external stimuli. Each part of the nervous
system has a specific role as it functions as an important part of a system.
Major Divisions and Parts of the Nervous System
1. Central Nervous System (CNS)
The CNS serves as the main processing center for the entire nervous
system. It consists of two main components, namely the:
a. Brain
This is an organ located within the skull that functions as organizer
and distributor of information for the body.
It has three main parts:
Cerebrum – large, upper part of the brain that controls activity and
thought.
Cerebellum – the part under the cerebrum that controls posture,
balance, and coordination.
Brain Stem – the part that connects the brain to the spinal cord
and controls automatic functions such as breathing,
digestion, heart rate, and blood pressure.
b. Spinal Cord
This serves as a channel for signals between the brain and the rest of
the body, and controls simple musculoskeletal reflexes without input
from the brain.
1. Peripheral Nervous System (PNS)
The PNS connects the central nervous system to the organs and limbs.
It has two main divisions:
a. Somatic Nervous System
This system is associated with the voluntary control of body
movements and has two main parts:
Spinal Nerves – the nerves that carry motor and sensory signals
between the spinal cord and the body.

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Cranial Nerves – the nerve fibers that carry information into and out
of the brain stem
b. Autonomic Nervous System
This system is associated with the involuntary control of body
movements and has two subdivisions:
Sympathetic - it is activated when the body is in a dynamic role or
stress. (e.g., increased heart rate and breathing, dilation of pupil,
sweating, etc.)
Parasympathetic - it maintains body functions and restores the
body to normal or relaxed mode.
Now, test your understanding of the basic organization of the nervous
system by doing Activity1.
Activity 1
Break it Down!
(Adapted from DepEd Project EASE, Module 9: Life Support Systems, pp. 4-6)
Objective:
Identify the parts of the nervous system
Procedure:
Using the given graphic organizer, fill in the missing parts to complete
the entire concept showing the structure of the nervous system.

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Guide Questions:
Q1. How will you differentiate the Central Nervous System (CNS) and the
Peripheral Nervous System (PNS) in terms of their functions?
Q2. What might happen to the human body if one part of the nervous system
fails to carry out its function properly?
Major Divisions
Main DivisionsMain Components
Brain Somatic
Nervous
System
Subdivisions
Main Parts
Main Parts

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The Nerve Cell
The basic unit of the nervous system is the nerve cell. Nerve cells are
called neurons. Study Figure 2 and look at the different parts of the neuron.
There are billions of neurons in the body. Some exist alone. Others are joined
together to form organs like the brain and spinal cord.
There are twelve to fourteen billions of neurons in one part of the brain
alone. A neuron has a cell body containing the nucleus. Projecting out from the
cell body are root-like structures. These are the dendrites and axons. Dendrites
carry impulses towards the cell body. A cell may have as many as 200 dendrites
carrying impulses toward the cell body. A single dendrite can be over one meter
long. Axons carry impulses away from the cell body. Axons pass impulses to the
dendrites of other neurons or cell body of muscle cells. Axons can be grouped
together into cable-like bundles called nerves.
Control of Body Processes through the Nervous System
The Nerve Impulse
Neurons are cells with the special ability to carry signals or impulses.
Thoughts, emotions, learning, and many body functions are carried by nerve
impulses in the neurons. A nerve impulse is a combination of an electrical
charge and a chemical reaction. A nerve impulse is not a flow of electricity, but
an electrochemical signal moving along a neuron.
Imagine that you have a board with a row of switches. Quickly click each
switch in the row on and off. This will give you an idea of how a nerve impulse
travels along a neuron.
Figure 2. The basic parts of a neuron

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A nerve impulse cannot jump from one neuron to another. When a
nerve impulse comes to the end of an axon, it produces the chemical, called
neurotransmitter, to be released. The chemical crosses the space between
neurons called synapse and stimulates the nerve impulse to start in the next
dendrite.

The nervous system is assisted by five sense organs - the eyes,
ears, nose, tongue, and skin. These sense organs are constantly receiving
information from the environment and sending messages to the brain. These
senses aid in the survival of human beings. A stimulus (plural: stimuli) is any
factor in the environment that may trigger a nerve impulse. A response is a
reaction to a stimulus. A stimulus is received by the body and a response is
made. An organism must be able to respond to a stimulus in order to survive.

Messages do not travel in both directions along the same neuron. Only
the axon of the neuron releases neurotransmitters that cross the space between
neurons. Reaction time is the length of time between application of a stimulus
and detection of a response.
The next activity that you will perform will enable you to understand
these concepts better. Use your body’s senses to detect the stimuli in your
environment and execute the corresponding response.
Activity 2
How Fast is Your Reaction?
(Adapted from DepEd Project EASE, Module 9: Life Support Systems, pp. 7-8)
Objective:
• Measure the length of time of response to catch a dropped object
Figure 3. The nerve impulse is sent by neurotransmitters from one neuron to
another through a gap called synapse

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Materials:
• metric ruler
• data chart
Procedure:
1. Construct a table like the one given below, to record your data.
Trials
Centimeters where the ruler fell
Eyes open Eyes closed
Left hand Right hand Left hand Right hand
1st
2nd
3rd
4th
5th
Average
2. Have your partner hold a metric ruler at its end with the highest number
in cm.
3. Place the thumb and forefinger of your left hand close to, but not touching,
the end with the lowest number.
4. When your partner drops the ruler, try to catch it between your thumb
and finger.
Figure 4. Measuring the reaction time

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5. Record where the top of your thumb is, when you catch the ruler. This
number gives how many centimeters the ruler fell.
6. Repeat steps 2 to 5 five more times and record the measurements on the
data table that you have constructed earlier.
7. Repeat steps 2 to 5 five more times using your right hand to catch the
ruler.
8. Repeat steps 2 to 5 five more times using your left hand with your eyes
closed. Your partner will signal you by saying “now” when the ruler drops.
9. Repeat steps 2 to 5 five more times using your right hand with your eyes
closed. Record your data and observations.
10. Exchange tasks and drop the ruler for your partner.
11. To complete your data chart, change all the centimeters to seconds by
multiplying by 0.01.
12. After recording all the data, compute for the average by adding up the
measurements of all the trials and dividing it by the number of trials.
Guide Questions:
(Answers will depend on whether the person is left-handed or right-handed)
Q3. With which hand did you catch the ruler faster when your eyes were open?
Q4. With which hand did you catch the ruler faster when your eyes were closed?
Q5. Did you catch the ruler faster with your eyes open or closed?
Q6. Explain why a message moving along nerve pathways takes time.
Q7. Describe the nerve pathway that the message followed when you saw the
ruler fall.

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KEY CONCEPTS:
Neurons have the special ability to carry signals or impulses.
A nerve impulse is an electrochemical signal moving along a neuron.
The space between neurons is called synapse. A stimulus is any factor
in the environment that influences behavior. A response is a reaction
to a condition or stimulus. An organism must be able to respond to a
stimulus in order to survive. Reaction time is the length of time between
application of a stimulus and detection of a response.
Did you know that your brain works round the clock for as long as you
live? Your brain does not only control your thoughts, emotions, and movements
but also numerous things that you are less aware of such as your breathing,
your heartbeat, and even the stress that you feel.
How does your nervous system work? This system is like a network
that relays messages back and forth from the brain to various parts of the
body. It transmits information through the spinal cord, which extends from
the brain down through the back and consists of fine nerves that branch out
to every organ and body part. When a message reaches the brain from any
part of the body, the brain commands the body to respond. You can think of
your nervous system as a relay team where one runner passes the object to
another runner. Relatively, you have nerve cells handing its information to the
next cell, which passes the information to another cell. Finally, the information
reaches into its destination and a reaction takes place. For instance, if you
hold a rose stem and accidentally prick your fingers, the nerves in your skin
release a message of pain to your brain. Your brain, in response to the signal,
commands the muscles in your hand to pull away. This split second relay inside
your body happens in a much shorter period than it took you to read about it.
Neurons are specially intended for information processing and
signaling. They relay and receive messages (impulse) between the brain
and body, and within the brain and spinal cord. Motor neurons transmit
impulses from the brain to muscles, glands, or other neurons in the
Peripheral Nervous System (PNS).Sensory neurons transmit impulses
from sensory nerves (receptor cells) to the Central Nervous System (CNS).

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Do the next activity to understand how the nervous system controls body
processes.
Activity 3
A Nervous Trip
Objective:
Explain how the body processes are controlled through the nervous
system
Procedure:
1. Form a team of 8 to 10 students and compete with the other groups in
your class.
2. Among the members of the group, assign students who will represent
the following parts: Brain, Organ, Sensory Neurons, and Motor Neurons
3. Have the “Brain” stand at one end of the classroom, and the “Organ” at
the other end near the blackboard.
4. Let three to four members representing “Sensory Neurons” stand and
line up between the “Brain” and the “Organ.” Another set of three to four
members representing “Motor Neurons” will stand and line up facing the
“Sensory Neurons.”
5. Refer to the following illustration to see how you will position yourselves
in the game.

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6. Your teacher will show a card to the first member of the group, who is
the “Organ.” Each card will depict a situation of a stimulus affecting an
organ.
7. The “Organ” must pass the message to one “Sensory Neuron” by
whispering.
8. Each member who receives the message must relay it to another until
it reaches the last “Sensory Neuron.”
9. Let the last person in the “Sensory Neuron” group run to the “Brain” to
communicate the message that was transmitted from the “Organ.”
10. The “Brain” must think of a reaction to the stimulus presented and
pass this response to the “Motor Neurons.”
11. Each member of the “Motor Neuron” group who receives the response
from the brain, must relay it to another until it reaches the last person
in the group.
12. The “Organ” will receive this response through the “Motor Neurons”
and run quickly to the board to write the response.
13. The team with the most acceptable answer and the shortest time of
trip will win the game.
Figure 5. The game setup showing the relay course from start to end
Blackboard
Sensory Neurons
Motor Neurons
Student
Legend:
Organ Brain

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Guide Questions:
Q8. How does the brain receive the information from the receptor?
Q9. What does the brain do as soon as it receives the information?
Q10. How is the message from the brain sent in response to the stimuli?
Q11. How will you differentiate the sensory and motor neurons based on their
functions?
Q12. Based on the simulation activity, explain how information travels in the
nervous system.
Q13. Why does the damage in the nervous system cause paralysis of the
body?
Q14. What public health care programs in your locality are geared towards
dealing with health issues concerning the nervous system?
Suggested Enrichment Activities
1. During the first three years, a child’s brain triples in weight and
establishes approximately 1,000 trillion nerve connections. Thus, the
child’s experiences during the first three years of life are crucial to brain
development. Gather and write down information about the different
ways of stimulating brain development in children.
2. Design a flyer that will disseminate information about the different
diseases affecting the human nervous system.
KEY CONCEPTS:
When a receptor such as an organ perceives a stimulus, the
impulse is sent to the brain by the sensory neurons, which then transmit
information from one nerve cell to another. As the message reaches
the brain, it processes the information and commands an effector such
as a muscle or an organ to respond. The message coming from the
brain is sent through the motor neurons.

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Similar to the nervous system, the endocrine system controls and
regulates body processes. Generally, the endocrine system is in control of the
mechanisms in the body that slowly take place, such as cell growth. Rapid
processes, such as body movement and breathing, are controlled by the
nervous system. Although these two systems are different, they work together
in a coordinate manner to enable the body to function properly. After studying
about the nervous system, now you will learn about the endocrine system, its
functions, and the glands that comprise the system.
The Endocrine System
Function of Endocrine System
The endocrine system is
composed of glands that secrete
different types of hormones that
affect almost every cell, organ, and
function of our body. It is essential in
regulating growth and development,
metabolism, as well as reproductive
processes and mood.
How does your endocrine
system function? Endocrine glands
secrete chemicals known as
hormones into the bloodstream,
which carries them throughout the
body. When a hormone in the blood
reaches the target organ, it produces
a notable effect. The endocrine
system sends signals all over the
body, much like the nervous system,
but unlike the instant responses
activated by the nervous system, the
effects can take a few hours or even
weeks.
Figure 6. The major endocrine organs
in the body

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Endocrine Glands and Their Hormones
The endocrine system contains a group of glands that release hormones
into the body. The following table lists all the major glands in the body, with their
functions, locations, and the hormones they release.
Gland Location Hormones Released Function
Pituitary
at the base
of the brain
Oxytocin,
Vasopressin,
Growth Hormone,
Adrenocorticotropic
Hormone (ACTH),
Prolactin, Luteinizing
Hormone, Follicle
Stimulating Hormone
(FSH)
stimulates growth, and
controls the functions of
other glands
Thyroid
below the
voice box
Thyroxin, Calcitonin
regulates body
metabolism, and causes
storage of calcium in
bones
Parathyroid in the neck Parathyromone
controls the calcium
levels in your body, and
normalizes bone growth
Thymus
in front of the
heart
Thymosin
enables the body
to produce certain
antibodies
Adrenal
on top of the
kidneys Adrenaline
prepares the body for
action, controls the
heart rate and
breathing in times of
emergency
Pancreas
between the
kidneys
Insulin, Glucagon
regulates blood sugar
levels
Reproductive
-Testes
(Males)
-Ovaries
(Females)
lower
abdomen
lower
abdomen
Androgen,
Testosterone
Estrogen,
Progesterone
control maturation and
male characteristics
influence female
traits, and support
reproductive function

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Now that you are familiar with the different glands in the human endocrine
system, you can already perform the following activity.
Activity 4
Who’s in Control?
Objective:
Identify the major endocrine glands in the human body and their
functions
Procedure:
Study each picture that depicts the involvement of a particular gland in the
endocrine system. Write down the name of the endocrine gland and explain
its effect, according to its function.
Example
Athletes burn up calories
during exercise.
Thyroid Gland
It regulates the
metabolism of
the body.
1.
A pregnant woman A boy running away
from danger
2.
A kid growing taller A sick person in bed A girl eating sweets
3. 4. 5.

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Guide Questions:
Q15. Which gland of the endocrine and nervous system controls the other
glands in the body?
Q16. How will you differentiate thyroid and parathyroid glands in terms of
location and function?
Q17. If a person’s blood sugar level becomes unstable, what glands might be
involved in the problem?
Q18. How important is the thymus gland in keeping your body free from
diseases?
Q19. What might happen to a person born without a thymus gland?
Q20. How will you explain the sudden boost of energy, increased strength
and extraordinary ability to lift very heavy objects especially during
emergency situations?
Q21. Why is injecting insulin an essential part of the daily regime for most
people with diabetes?
Q22. Why does the menstrual cycle stop during menopause?
Q23. How do oral contraceptives, specifically birth control pills, prevent
pregnancy?
Q24. Breastfeeding releases oxytocin and prolactin, hormones that relax the
mother and make her feel more nurturing toward her baby. On the other
hand, how does the baby benefit from the production of these hormones
in the mother’s body?
KEY CONCEPTS:
The endocrine system consists of glands that secrete
chemicals called hormones to control various body processes. This
control system usually brings about slow changes in the body because
chemical messengers move more slowly than nerve impulses. The
major glands in the body are the pituitary, thyroid, parathyroid, thymus,
adrenal, pancreas, ovaries, and testes.

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Effects of Hormones in the Body
Several processes in the body are coordinated by hormones which
regulate and balance the working of organs, tissues, and cells. The endocrine
system influences how your heart beats, how your bones and tissues develop,
and even your capacity to have a baby. It plays an essential role in the
occurrence of disorders such as diabetes, thyroid disease, growth disorders,
and/or sexual dysfunction.
Both men and women produce hormones in the same areas with one
exception, the reproductive glands. Additional male hormones are produced in
the testes while female hormones are produced in the ovaries.
Some hormones have short-term effects while other hormones have
long-term effects such as those that control our growth and the changes at
the onset of puberty. During puberty, there are many hormonal changes that
happen in your body. One moment you laugh, and then suddenly you feel like
crying. Sudden mood swings are relatively caused by the increasing amount
of hormones in the body at this stage. It is therefore important to maintain a
positive outlook in life and remember that these changes are only temporary
and will stabilize with time.
Hormones act in very small amounts. If the organ and hormones do
not produce the regulated amount of chemicals to your body, it may result in
an abnormality of your body. This condition is called hormonal imbalance. An
increase or decrease in its amount may have a significant effect in the human
body.
The next activity will get you acquainted with the different disorders in the
endocrine system due to hormonal imbalance and the hormones responsible
for them.
Figure 7. Disorders due to endocrine dysfunction

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Activity 5
What Went Wrong?
Objective:
Explain the effect of a particular hormone in the body if not properly
regulated
Procedure:
A. Identify which gland in the endocrine system is involved in each
dysfunction and explain the effect of hormonal imbalance that was
observed.

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B. Write a one-paragraph essay about how one of these conditions will affect
your life if you have dysfuntion due to the effect of hormonal imbalance
Guide Questions:
Q25. What condition may arise if the pituitary gland is not producing enough
growth hormones?
Q26. What will happen to a person with excessive secretion of growth hormones
from the pituitary gland?
Q27. Why is there a noticeable swelling in the front part of the neck of a person
who has goiter?
Q28. How does using iodized salt help in preventing thyroid problems?
Q29. How does the medical condition of a person with endocrine dysfunction
affect his or her way of life?
KEY CONCEPTS:
Hormones affect various processes in the body as they regulate
and balance the functioning of organs, tissues, and cells. Hormones
have great impact on your growth, appearance, emotions, and
reproductive functions. These determine whether or not you develop
disorders such as diabetes, thyroid disease, growth disorders, or
sexual dysfunction. Hormones act in very small amounts. An increase
or decrease in hormonal levels may result in body disorder due to
hormonal imbalance.

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For most living creatures, reproduction is basically a normal process
controlled by hormones. Even though human reproduction is also controlled
by hormones, the process is rather more complicated. Unlike other organisms
such as plants and animals, you can make decisions about reproduction. What
influence these decisions are your values, emotions, expectations, and goals.
However, like any other living things, humans depend on reproduction for the
survival of the species. If people stop to reproduce, the human species would
become extinct.
The Reproductive System
The system involved in sexual reproduction is called the reproductive
system. There is a striking difference between the male and the female
reproductive systems, although they also share a number of similarities. For
example, the reproductive organs of the male and female are developed from
the same embryological structures, and some hormones are commonly found
in both male and female, in varying quantities and produce different responses
The Male Reproductive System
Examine the diagram of the male reproductive system. Figure 8 shows
the main parts of the male reproductive system. The cross-sectional side view
of the reproductive system shows that certain parts of the male reproductive
system are also part of the excretory system.
Figure 8. Parts of the Male Reproductive System

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Part Function
Testis Produces sperm cells
Scrotum Sac of skin that holds the testis
Penis Deposits sperms into the vagina during mating
Vas deferens
(tube)
Carries sperm from testes to urethra
Urethra Carries sperm and urine out of the body
Glands
a. seminal
vesicle
b. prostate
gland
c. bulbourethral
gland
Provide liquid in which sperm can swim
- Secretes a fluid that makes up most of the
components of the semen
- Secretes a slightly alkaline milky fluid that is
discharged as part of the semen
- Secretes a thick and clear mucus that lubricates
and neutralizes the any trace of acidic urine in the
urethra
The Female Reproductive System
The female reproductive system has the following functions:
1. Produces female sex cells
2. Receives sperm cells from the male
3. Nurtures the development of and provides nourishment for the new
individual
Be familiar with the specific functions of each basic part using the table below:
Examine the diagram on Figure 9 which shows the front view of the
female reproductive system. The female reproductive system consists of the
ovaries, oviducts (Fallopian tubes), uterus, vagina, and external genitalia.
The internal reproductive organs of the female are located within the pelvis,
between the urinary bladder and rectum. The uterus and the vagina are in the
middle part, with an ovary on each side of the uterus.

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Now, study the function of each part.
Part Function
Ovary produces egg cells
Oviduct
serves as passageway of eggs from the ovary to the
uterus; site of egg fertilization
Uterus
serves as site of egg implantation; is where the
fertilized egg develops
Vagina receives the penis of male during mating
Puberty involves the onset of sexual maturity and the ability to reproduce.
When a female reaches puberty, egg cells start to develop in her ovaries that
produce the sex cells. It is also the time when the body develops the capacity
to conceive.
Figure 9. Parts of the Female Reproductive System
Vaginal
Canal

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The Role of Hormones in Female and Male
The male reproductive system
also has prostate glands. Chemicals from
these glands nourish the sperm cells and
help them mature.
The production of sperm cells and
the release of semen can be regulated
by hormones or special chemicals that
come from the testis, the brain and the
pituitary gland (refer to Figure 10A). These
hormones keep the reproductive system
properly functioning.
The female reproductive system,
just like the male reproductive system, is
also regulated by hormones. The follicles
produce hormones that control the growth
and release of eggs from the ovaries.
While other hormones prepare the uterus
so a baby can grow in it, other hormones
still control the stretching of the uterus
during pregnancy.
Figure 10A. Pituitary gland controls
the function of the testes.
Figure 10B. Pituitary gland controls
the function of the ovaries.
KEY CONCEPTS:
Hormones play an important role in both male and female
reproductive systems. The pituitary gland controls the functions of both
the testes and the ovaries. These hormones keep the reproductive
system properly functioning.

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Feedback Mechanisms Involved in Regulating
Processes in the Female Reproductive System
The Menstrual Cycle
We have learned that, on average, an ovary releases only one egg
every 28 days. Now, what controls this timing? Hormones control many of the
changes in the reproductive system. Remember that hormones are chemicals
that affect certain body organs. The monthly changes that take place in the
female reproductive system are called menstruation. This cycle occurs every
month from the first onset which could happen when a female is between 10 to
13 years old. The monthly cycle continues for about 40 years. Refer to Figure
11 for a clearer explanation of the different events that take place in the cycle.
Just follow numbers 1-10 in proper order.
To summarize, the important events during the menstrual cycle are as follows:
1. The pituitary gland controls and starts the cycle.
2. The pituitary gland releases hormones that cause the egg in the ovary
to mature. The luteinizing hormone (LH) initiates the maturation of the
follicles, converts ruptured follicles into corpus luteum and causes the
secretion of progesterone. The follicle stimulating hormone (FSH) assists
in the maturation of the follicles and causes the secretion of estrogen
from the follicles.
Figure 11. The menstrual cycle

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3. Meanwhile, the ovary itself releases a hormone called estrogen, which
causes the uterine lining to increase in thickness. The uterine lining
becomes thicker so that the fertilized egg can attach to it.
4. The ovary releases an egg on day 14. Assume that no sperm is present.
5. The egg moves through the oviduct and enters the uterus.
6. Meanwhile the uterine lining continues to thicken.
7. The egg has not been fertilized, therefore, it will not attach to the uterus.
8. The thick uterine lining is no longer necessary, so the cells of the
thickened uterine lining break off and leave the vagina. The unfertilized
egg is lost and some blood is lost too. This loss of cells from the uterine
lining, blood, and egg is called menstruation.
9. After menstruation, the cycle starts again.
Did you know that menstrual cramps are the results of the strong
contractions of the uterine wall that occur before and during menstruation? The
cramps can be caused by excessive secretion of prostaglandins. Shedding of
the endometrium of the uterus results in the inflammation in the endometrial
layer of the uterus and prostaglandins are produced as a consequence of the
inflammation.
As you perform Activity 6, you’ll be able to understand the feedback
mechanisms in the female reproductive system.
Activity 6
Mark My Calendar!
Objective:
Describe the feedback mechanisms involved in regulating
processes in the female reproductive system
Materials:
• 2 calendar charts
• diagrams of the male and female reproductive system
• scissors
• tape or glue
Procedure:
Part A - For no fertilization:
1. Get a calendar, with an approximate size of 8 x 11 inches. It must be marked
by the day-to-day changes in the menstrual cycle.
2. Note that certain events are marked on certain days.

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3. Make a copy of the diagrams of the menstrual cycle like in Figure 12.
Some of the diagrams will show events in the ovary, and some will
show events in the uterus. They are not in proper order. Cut out each
square.
4. Place the diagram in the space to the right of the corresponding
description.
5. Tape or glue your diagrams in right places/dates where they occur.
6. Make sure that they are correctly placed.
Part B – With fertilization of the egg
1. Get another calendar marked by the day-to-day changes in the menstrual
cycle.
2. You will be given a set of diagrams to place on the calendar. The diagrams will
not be in proper order. You may not need all the diagrams that show the uterus.
Guide Questions:
Q30. How long does a regular menstrual cycle last?
Q31. Describe what happens to an egg during the first 14 days of the cycle
in Part A.
Q32. Describe what happens to the egg if fertilization occurs.
Q33. Explain what takes place in the uterus after fertilization.
Q34. Why is it important to study the menstrual cycle?
Figure 12. Unsequenced events in the menstrual cycle

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A feedback mechanism is the process through which the level of one
substance influences the level of another substance. A negative feedback
affects the production of hormones in the menstrual cycle. High levels of one
hormone may inhibit the production of another hormone.
Feedback mechanisms in menstrual cycle:
1. Follicle stimulating hormone (FSH) stimulates the ovaries to release
estrogen. High levels of estrogen then prevent the further production of
FSH.
2. Estrogen also stimulates the release of luteinizing hormone (LH) from
the pituitary gland, which in turn controls the production of progesterone.
High levels of progesterone then inhibit the further release of LH.
Figure 13. Negative feedback mechanisms in the menstrual cycle

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Nervous System Working Together with Endocrine
System to Maintain Homeostasis
Both the nervous system and endocrine system are important in enabling
the body to maintain homeostasis. Homeostasis is the state reached when
each part of the body functions in equilibrium with other parts. This is attained
through the regulation of the bodily functions by the endocrine and nervous
systems.
Mostbodysystemsmaintainhomeostasisbyusingfeedbackmechanisms.
When the brain receives messages from the body about an internal change in
one of its systems, it works to restore the system to its normal state. The levels
of hormones in the body are controlled by feedback. It is important that the
amount of hormones in our body is kept at the right level. The endocrine system
plays an important part in homeostasis. To achieve homeostasis, the nervous
and endocrine systems maintain a normal range of the following variables:
• Body temperature
• Amount of water in the body
• Amount of metabolic wastes in the cell
• Blood calcium level
• Hormones in the blood
Q35. What might happen to a person whose nervous and endocrine systems
fail to maintain homeostasis?
Q36. Suppose a boy skipped his lunch for the day. How will the hormones
(glucagon) from his pancreas help his body to cope when his blood sugar
level drops below normal?
Q37. Suppose a girl ate too many sweets such as candies and chocolates.
How will the hormones (insulin) from her pancreas help her body cope
with a possible blood sugar level rise above normal?
Q38. How do the nervous and endocrine systems respond to an increase in
environmental temperature to achieve homeostasis?
Q39. How do the nervous, endocrine, and reproductive systems perform
their coordinated functions in various functions such as pregnancy and
childbirth, menstrual cycle, breastfeeding, and sexual intercourse?

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Performance Task: Video Making
Topic: Contraceptive Measures
Goal: Your objective is to present information to the public about the common
and effective contraceptive measures used in family planning, in line with the
Reproductive Health Law. The video that you will create must be in persuasive
form. The challenge is how you will be able to convince people about the
benefits of various contraceptive measures using gathered facts and scientific
evidences.
Role: Assume the role of a professional video production team. You are tasked
to produce a promotional video that will be used in campaign advertising about
various contraceptive measures used in family planning.
Audience: Your voice, as part of the youth, will be heard through your campaign
advertising. You will present the finished video in front of your class. After that,
you may also opt to use social media advertising to let other people view your
multimedia presentation. It is important to clearly communicate your purpose
from the beginning of the video.
Situation: Campaign advertising is often accomplished by combining a short
message with a catchy tune that people are likely to remember. Since one of the
most powerful means of communicating information today is through music, you
may persuasively share your thoughts and ideas on the topic using a chosen
melody. After studying the coordinated functions of the reproductive, endocrine,
and nervous systems, you will be able to use scientific and logical explanations in
promoting various contraceptive measures. There are challenges to overcome
in accomplishing the task such as the conflicting judgments of people on the
issue that may cause various controversies. Therefore, it is important to be
objective in presenting ideas rather than being subjective.
Product/Performance: Produce a campaign advertising video that presents
common and effective contraceptive measures used in family planning. The
maximum video duration is three (3) minutes. You may seek assistance from
your teacher in MAPEH regarding the tune, rhythm and beats of the music. For
the rhyme and wordplay to be used, you may consult your teacher in English.
Standards: You will be given two (2) days to conceptualize and execute your
ideas through video-making. Once the video is finished, you may already
present it in front of the class for evaluation. Your multimedia presentation will
be assessed according to the rubric that will be given to you by your teacher.

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V. Summary/Synthesis/Feedback
• The nervous system is composed of cells, tissues, and organs that regulate
the body’s responses to internal and external stimuli. Each component of the
nervous system has a specific role to do as an important part of a team.
• The nervous system has two main divisions, which are the Central Nervous
System (CNS) and the Peripheral Nervous System (PNS).
• The Central Nervous System (CNS) serves as the main “processing center”
for the entire nervous system. It has two main parts, which are the brain, and
the spinal cord.
• The Peripheral Nervous System (PNS) contains all nerves that
extend outside the brain and spinal cord. It has two main divisions, which are
the Somatic Nervous System and the Autonomic Nervous System.
• The basic unit of the nervous system is the nerve cell. Nerve cells are called
neurons. Neurons have dendrites and axons that aid in transmitting message.
• Neurons have the special ability to carry signals or impulses. A nerve impulse
is an electrochemical gradient moving along a neuron. The space between
neurons is called synapse. A stimulus is any factor in the environment that
may induce a nerve impulse that initiates physiological and behavioural
changes. A response is a reaction to a condition or stimulus. To survive, an
organism must be able to respond to a stimulus. Reaction time is the length
of time between application of a stimulus and detection of a response.
• When a receptor such as an organ perceives a stimulus, the impulse is sent to
the brain by the sensory neurons, transmitting information from one nerve cell
to another. As the message reaches the brain, it processes the information
and commands an effector such as a muscle or an organ to respond. The
message coming from the brain is sent through the motor neurons.
• The Endocrine System consists of glands that secrete chemicals called
hormones which control various body processes. This control system usually
brings about slow changes in the body because chemical messengers move
more slowly than nerve impulses. The major glands in the body are the
pituitary, thyroid, parathyroid, thymus, adrenal, pancreas, ovaries and testis.

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• Hormones affect various processes in the body as they regulate and balance
the functioning of organs, tissues, and cells. Hormones greatly influence
growth, appearance, emotions, and reproductive functions. These chemicals
play an essential role in the occurrence of disorders such as diabetes, thyroid
disease, growth and/or sexual dysfunction. Hormones act in very small
amounts. An increase or decrease in the said amount may result in a body
disorder due to hormonal imbalance.
• The Reproductive System is a collection of organs in an organism that function
together for sexual reproduction. The male reproductive organs are the penis,
the testicles, the epididymis, the vas deferens, and the prostate gland. The
female reproductive organs are the vagina, uterus (womb), Fallopian tubes,
and ovaries.
• Hormones play an important role in both male and female reproductive
systems. The pituitary gland controls the functions of both the testes and the
ovaries. These hormones keep the reproductive system properly functioning.
• Hormones secreted by the ovaries and a small gland in the brain called the
pituitary gland control the menstrual cycle.
• Feedback mechanism is the process through which the level of one substance
influences the level of another substance. A negative feedback affects the
production of hormones in the menstrual cycle. High levels of one hormone
may inhibit the production of another hormone.
• Homeostasis is the state reached when each part of the body functions in
equilibrium with other parts. This is attained through the regulation of the
bodily functions by the endocrine and nervous systems.

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VI. Summative Assessment
I. Answer briefly the following questions. (2 pts. each)
1. How does the Central Nervous System (CNS) function similarly to the
Central Processing Unit (CPU) of a computer?
_______________________________________________________
2. Why are there significant changes in the body at puberty stage?
_______________________________________________________
3. In what way do the nervous and endocrine systems differ in the way
they communicate messages throughout the body?
________________________________________________________
4. Why is it important to maintain homeostasis in the body?
________________________________________________________
II. Match each gland in column A with its corresponding function in column B.
(1 pt. each)
A B
a. Stimulates growth, and controls the functions of
other glands
1. Thymus
b. Controls the calcium levels in your body, and
normalizes bone growth
2. Pancreas
c. Regulates body metabolism, and causes storage
of calcium in bones
3. Adrenal
d. Enables the body to produce certain antibodies 4. Thyroid
e. Prepares the body for action, and controls the
heart rate and breathing in times of emergency
5. Parathyroid
f. Controls maturation and male characteristics 6. Pituitary
g. Regulates blood sugar levels
7. Testis
h. Influence female traits and support reproductive
function
8. Ovaries
III. Draw and label the parts of a neuron. (4 pts.)

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Glossary of Terms
Axon the part of the neuron that transmits impulses away from
the cell body
Dendrite the branchlike structure of the neuron that extends from
the cell body to receive an impulse
Embryo an organism in its early stages of development, especially
before it has reached a distinctively recognizable form
Endocrine Gland an organ that produces chemical secretions released
directly into the bloodstream
Egg Cell also called ovum (plural: ova); the female gamete
Fertilization a process that occurs when the sperm and egg combine
to produce an embryo
Homeostasis the ability or tendency of an organism to maintain internal
equilibrium by regulating its processes
Hormone a chemical substance produced in the body that controls
and regulates the activity of certain cells or organs
Impulse an electrochemical gradient moving along a neuron
Neuron the basic unit of the nervous system, also called nerve
cell, that transmits messages to and from the central
nervous system
Semen the ejaculated fluid containing sperm cells and
secretions from the seminal vesicle, prostate gland, and
bulbourethral gland
Sperm shorter term for spermatozoon (plural: spermatozoa); the
male gamete
Stimulus any factor in the environment that influences the behavior
of an organism

Synapse the space between neurons where electrochemical
signals pass

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References and Links
Printed Materials:
Rabago, L., et al (2010). Functional Biology - Modular Approach. 2nd ed.
Philippines: Vibal Publishing House, Inc
Strauss, E; Lisowski, M. (2003). Biology: The Web of Life. 2nd ed. Philippines:
Pearson Education Asia Pte Ltd..
(DepEd Materials)
BEAM: Biology – Organ System – Endocrine and Nervous Systems
EASE, Module 9: Life Support Systems
EASE, Module 13: Reproductive Systems
APEX Biology – Unit IV, The Organ Systems
Electronic Sources:
ADAM Inc. (2013). Central Nervous System. Retrieved July 5, 2014 from:
http://www.nlm.nih.gov/medlineplus/ency/article/002311.htm
Alzeimer’s Association (2011). Three Main Parts of the Brain. Retrieved July
4, 2014 from:https://www.alz.org/braintour/3_main_parts.asp
Encyclopedia Britannica Inc. (2014). Homeostasis. Retrieved July 5, 2014
from: http://global.britannica.com/EBchecked/topic/270188/homeostasis
KG Investments (2014). Stimulation Crucial to Devt. Retrieved July 3, 2014
from: http://www.kidsgrowth.com/resources/articledetail.cfm?id=259
MCB Berkely (2014). The Central Nervous System. Retrieved July 4, 2014
from: http://mcb.berkeley.edu/courses/mcb135e/central.html
Missouri University of Science and Technology (n.d.). Neuroscience.
Retrieved July 5, 2014 from: http://web.mst.edu/~rhall/neuroscience/
02_structure_and_pharmacology.pdf
National Center for Infants (2014). Zero to Three. Retrieved July 5, 2014 from:
http://www.zerotothree.org/child-development/brain-development/

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Public Library of Science (2004). A Window into the Brain. Retrieved July 4,
2014 from: http://www.plosbiology.org/article/info:doi/10.1371/journal.
pbio.0020115
Tamarkin, Dawn (2011). The Nervous System. Retrieved July 4, 2014 from:
http://faculty.stcc.edu/AandP/AP/AP1pages/nervssys/unit10/division.
htm
University of Texas (2012). Health Science. Retrieved July 3, 2014 from:
http://teachhealthk-12.uthscsa.edu/ curriculum/ brain/brain01e-Wires.
asp
http://www.animalintelligence.org/2006/08/04/duck-and-chicken-raise-family-
together/

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Suggested Time Allotment: 8 hrs.
Unit 3
Module
2
I. Introduction
You learned in Grade 9 that many genes in plants and animals behave
differently than the genes that Mendel studied in peas, where traits are not
entirely controlled by dominant and recessive genes. You also learned how
the genes in your deoxyribonucleic acid (DNA) influence your characteristics.
Now, you will work on activities to assess your understanding on the
structure of the DNA, explain how DNAreplication takes place, how ribonucleic
acid (RNA) is made using the information from DNA, how information in some
genes is translated into proteins, and explain how mutations may cause
changes in the structure and function of a protein.
Many investigations of how the genes control cells were done even
before scientists first knew that genes were made of DNA. The American
geneticists George Beadle and Edward Tatum established the connection
between genes and enzymes. The experiments of Beadle and Tatum linked
genes to actual products of cells and showed the importance of genes to
cellular activity. In other words, a gene is a portion of DNA that contains the
instructions for the synthesis of specific RNA or protein.
Building a house usually requires a blueprint, or a plan of the structure
of the house to determine how it would look like after construction. Organisms
have blueprints which contain information that will determine their physical
and chemical characteristics. This blueprint is DNA.
HEREDITY:
INHERITANCE and
VARIATION
Unit 3
MODULE
2

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In this module, you are expected to:
1. explain how a protein is made using information from DNA.
a. identify the role of DNA and RNA in protein synthesis
b. describe DNA replication
c. relate DNA replication to its complementary structure
d. describe transcription and translation.
2. Explain how mutations may cause changes in the structure and function of
a protein.
a. Compare the different types of mutations and their possible
results.
Answer the following questions as you work on the activities in this module.
Key questions for this module:
Before you start anything, answer the pre-assessment questions:
III. Pre-Assessment
Directions: Answer the following questions:
1. The sequence of bases in one DNA strand is given below. Identify the
complementary sequence of bases in the other strand of DNA.

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2. Show how the DNA code translates into RNA code by placing the sequence
of bases of the DNA and RNA side by side.
RNA ____________________________
3. Each combination of three nitrogenous bases on the mRNA molecule is a
codon, a three letter code for a specific amino acid. Use the table below to
identify the specific amino acid for each mRNA codon.
THE GENETIC CODE
TABLE

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4. Look at the four DNA sequences of bases below.
Original sequence Base pair removed
Base pair replaced
How does each of these errors change the DNA sequence? What do you call
these changes? ________________________________________________
Now, you will work on the initial assessment activity to measure your
understanding of DNA and RNA structures.
IV. Reading Resources and Instructional Activities
Activity 1
Getting to Know the DNA and RNA Structure
Objective:
Compare the structures of the DNA and RNA molecule
Material:
Activity sheets
Base pair replaced

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Procedure:
1. Read the given information carefully about DNA and RNA.
Figure 1. DNA Structure
Component molecules
1. The DNA molecule is composed of
three types of component molecule:
phosphate group, the sugar
deoxyribose, and the bases adenine,
thymine, cytosine, guanine (A, T, C,
G).
Nucleotides
2. There are three molecules that
form the basic building block of DNA,
the nucleotides. Each nucleotide is
composed of one phosphate group,
one sugar molecule, and one of the
four bases – in the example. Across
the strands of the helix, A always
pairs with T, and G with C.
Figure 2. RNA Structure
Ribonucleic Acid, like DNA, is a
nucleic acid. However, RNA structure
differs from DNA structure in three
ways, shown in Figure 2. First, RNA
is single stranded – whereas DNA
is double stranded. Second, the
sugar in RNA is ribose; DNA has
deoxyribose. Finally, both DNA and
RNA contain four nitrogenous bases,
but instead of thymine, RNA contains
a similar base called uracil (U). The
uracil pairs with adenine. The major
types of RNA include: messenger
RNA (mRNA), ribosomal RNA
(rRNA), and transfer RNA (tRNA).

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2. Fill in the comparison table below.
Basis of Comparison DNA RNA
1. Number of strands
2. Location in the cell
3. Type of sugar
4. Nitrogenous base
pair
Guide Questions:
Q1. What are the components of the DNA and RNA molecule?
Q2. What is the structural difference between DNA and RNA?
Q3. What nitrogenous base is found in RNA but not in DNA?
Replication
In 1953, James Watson and Francis Crick worked out that DNA is
double helix like a twisted staircase. The two sugar-phosphate backbones
make up the sides and the base pairs make up the rungs or steps of the
twisted staircase.
Deoxyribonucleic acid is copied during interphase prior to mitosis and
meiosis. It is important that new copies are exactly like the original molecule.
The structure of the DNA provides a mechanism for making accurate copies
of the molecule. The process of making copies of DNA is called replication.
When DNA replicates, two identical copies of DNA molecules are produced,
which are exactly the same as the original.
KEY CONCEPTS:
• A DNA is a double helix molecule composed of complementary
strands of deoxyribonucleotides units. The complementary base
pairs of the DNA are held by hydrogen bonds.
• RNA is single stranded.
• Examples of RNA types include: mRNA, rRNA and tRNA.
• In DNA, adenine always bonds with thymine, and cytosine bonds
with guanine. In RNA, adenine bonds with uracil, and cytosine
bonds with guanine.

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The central dogma of the transfer of genetic information is outlined
below.
You will work on the next activity to demonstrate the replication of the
DNA molecule and the specificity of base pairing in the nitrogenous bases.
Activity 2
DNA Makes DNA
Objective:
• Make a model of a DNA template to determine the sequence of
bases in the new DNA strand.
Materials:
• crayons
• scissors
• paste/tape
• 1/4 size illustration board or long size folder
Procedure:
1. Use the patterns of the components of the DNA provided by your
teacher. Color code phosphate = blue, deoxyribose sugar = green and
nitrogenous bases as follows: adenine = yellow, thymine = pink, guanine
= violet and cytosine = red.
2. Cut out the shapes of each nucleotide.
3. Build a model of a strand of a DNA molecule. The strand should contain
6 base “rungs” following the given order of the nucleotides below.
Guanine
Adenine
Cytosine
Thymine
Cytosine
Guanine
Figure 3. Transfer of genetic information

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Guide Questions:
Q4. Compare the two new strands of DNA. Are they the same or different?
Why?
Q5. How do the nucleotides in DNA pair?
Q6. How do you compare a DNA molecule to a zipper?
Q7. How is information from the DNA passed on from one cell to another?
Q8. How does the structure of a DNA molecule help account for the great
variety of life that exists on earth?
4. Tape the cut out pattern to form the nucleotides.
5. Let this arrangement represent the left half of your DNA molecule.
6. Make a complementary strand for the first strand that you made in step
3.
7. Tape the cut-out pattern forming nucleotides for the second strand of the
DNA molecule.
8. Match the bases of the first strand and the second strand. Do not tape
across bases.
9. Once you have made your DNA model, separate the two strands of the
DNA model down the middle so that there are now two single strands of
DNA.
10. Create new double-stranded DNA by matching complementary
nucleotides to the bases on each single strand.
11. Tape and then cut out the pattern forming the nucleotides for each of the
single nucleotides.
12. When you are finished, mount the original DNA model and the DNA
model with its complementary strand in the illustration board or folder.

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Do you understand the process by which DNA copies itself? The
following are the events while DNA copies itself:
• Step 1. An enzyme called helicase breaks the bond between
nitrogenous bases. The two strands of DNA split.
• Step 2. The bases attached to each strand then pair up with the free
nucleotides found in the cytoplasm.
• Step 3. The complementary nucleotides are added to each strand by
DNA polymerase to form new strands. Two new DNA molecules, each
with a parent strand and each with a new strand are formed. The
DNA replication is known as semi-conservative replication, because
one of the old strands is conserved in each new molecule. Figure 4
illustrates the semi-conservative replication of DNA.
Figure 4. DNA Replication
KEY CONCEPTS:
• DNA is made up of sugars, phosphate groups, and nitrogenous
bases and its shape is a double helix. The complementary structure
the two strands of DNA allow each strand to serve as a template
during replication.
• The specificity of base pairing in DNA, adenine with thymine, and
cytosine with guanine, allows DNA to replicate itself with accuracy.

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What do you think is the role of RNA in making proteins in the cell?
Can you imagine a car being assembled in a car factory? By way of analogy,
different cars are being built in many simple steps. Engineers tell workers how
to make cars, and the workers follow directions to build the cars. Suppliers
bring parts to the factory so they can be installed in the car. Protein production
is similar to car production. It is the role of the DNA to provide workers with the
instructions for making the proteins, and the workers build the proteins. Other
workers known as amino acids, bring parts to the factory. RNA molecules or
the workers for protein synthesis get the instructions from the DNA on how the
protein should be assembled.
Moreover, do you know that there are three types of RNA that help
build proteins? You can consider these RNA molecules to be the workers in
the production of protein.
• One type of RNA, messenger RNA (mRNA) brings
information from the DNA in the nucleus to the protein
manufacturing area, the cytoplasm. In the cytoplasm,
the mRNA becomes the template of information to make
proteins.
• Ribosomes, made of ribosomal RNA (rRNA), and ribosomal
proteins hold tightly into the mRNA using its information to
assemble the amino acids in correct order.
Source: internalcampaignschools.org
Figure 5. Types of RNA
• Transfer RNA (tRNA) supplies amino acids to the ribosome
to be assembled as protein.
Did you find this car-making analogy helpful? But, how does the
information in DNA, which is found in the nucleus, move to the ribosome in
the cytoplasm?

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TRANSCRIPTION
In the next activity, you will demonstrate the process of transcription
through the use of paper DNA and mRNA models.
Activity 3
What’s the Message
Objectives:
• Make a model to show how the order of bases in DNA determines
the order of bases in mRNA.
• Infer why the structure of DNA enables it to be easily copied.
Materials:
• crayons
• 1/4 illustration board or long folder
• scissors
• paste/tape
Procedure:
1. Use the patterns of the components of the DNA provided by your
teacher. Color code phosphate = blue, deoxyribose sugar = green,
ribose sugar = brown and nitrogenous bases as follows: adenine =
yellow, thymine = pink, guanine = violet and cytosine = red and uracil
= orange.
3. Using the given order of the nucleotides below, construct a double
stranded DNA molecule.
Guanine
Adenine
Cytosine
Thymine
Cytosine
Guanine
4. Fasten your molecule together using a clear tape. Do not tape across
base pairs.
5. Step 1, use the patterns of the components of the RNA provided by
your teacher. Color code phosphate = blue, ribose sugar = brown
and nitrogenous bases as follows: adenine = yellow, uracil = orange,
guanine = violet and cytosine = red.

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Q1. Does the mRNA model more closely resemble the DNA strand from
which it was transcribed?
Q2. Explain how the structure of DNA enables the molecule to be easily
transcribed. Why is this important for genetic information?
Q3. Why is RNA important to the cell?
Q4. How does a mRNA molecule carry information from DNA?
Do you know how the information in DNA, which is found in the
nucleus, move to the ribosome in the cytoplasm? The following
events can help you understand the process of transcription:
• Step 1. Ribonucleic Acid polymerase enzyme binds and opens the
DNA molecule that will be transcribed.
• Step 2. As the DNA molecule opens, the RNA polymerase slides
along the DNA strand and links free RNA nucleotides that pair with
the nitrogenous bases of the complementary DNA strand. Hence, if
the sequence of bases on the DNA strand were CCG TTA CAT, the
sequence of bases on the RNA strand would be GGC AAU GUA.
• Step 3. When the process of base-pairing is completed, the RNA
molecule breaks away as the DNA strands rejoin. The RNA leaves the
nucleus and goes to the cytoplasm. Figure 6 shows the transcription
process.
7. With your DNA model in front of you, demonstrate the process of
transcription by first pulling the DNA model apart between the base
pairs.
8. Using the right strand of the DNA model in step 3, begin matching
complementary RNA nucleotides with the exposed bases on the DNA
model to make mRNA.
9. Tape the RNA nucleotides.
10. When you are finished, tape your new mRNA molecule together.

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TRANSLATION
The DNA directs the production of proteins and determines the
formation of mRNA. The order of bases of mRNA determines the protein
synthesized.
Proteins control the activities of the cell, as well as so the life of the
entire organism. But how does DNA make a unique protein that will perform
a special function? Would you like to find out how the message of the mRNA
is translated to proteins?
Figure 6. Transcription
KEY CONCEPTS:
• The sequence of nucleotides in DNAdirects the order of nucleotides
in messenger RNA in a process called transcription.
• There are three major types of RNA that help build proteins: mRNA,
rRNA, and tRNA.
• The mRNA carries the information in DNA to the ribosomes found
in the cytoplasm.
TRANSLATION
The DNAdirects the production of proteins and determines the formation
of mRNA. The order of bases of mRNA determines the protein synthesized.
Proteins control the activities of the cell, as well as so the life of the
entire organism. But how does DNA make a unique protein that will perform a
special function? Would you like to find out how the message of the mRNA is
translated to proteins?
Work on the next activity to demonstrate the process of translation.

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Activity 4
Relay the Message
Objectives:
• Make a model of the translation process
• Simulate the steps in translation
Materials:
• crayons
• 1/4 size illustration board or long size folder
• scissors
• paste/tape
Procedure:
1. Use the patterns of the components of the DNA and RNA provided by
your teacher. Color code phosphate = blue, deoxyribose sugar = green
,ribose sugar = brown and nitrogenous bases as follows: adenine =
yellow, uracil = orange, guanine = violet, cytosine = red and amino acid
= green.
3. Using the given order of the nucleotides below, construct a double
stranded DNA molecule.
Guanine
Adenine
Cytosine
Thymine
Cytosine
Guanine
4. Fasten your molecule together using a clear tape. Do not tape across
base pairs.
5. Step 1, use the patterns of the components of the RNA provided by
your teacher. Color code phosphate = blue, ribose sugar = brown and
nitrogenous bases as follows: adenine = yellow, uracil = orange, guanine
= violet and cytosine = red.
6. Cut out the shapes of each nucleotide of RNA.
7. With your DNA model in front of you, pull apart the DNA model.

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8. Using the right strand of the DNA model in step 3, begin matching
complementary RNA nucleotides with the exposed bases on the DNA
model to make mRNA.
9. Tape the RNA nucleotides.
10. Fasten your molecule together using a clear tape. Imagine that
mRNA leaves the cell nucleus and moves out to the cell’s ribosomes.
Meanwhile, transfer RNA (tRNA) is present in the cell cytoplasm. tRNA
has a three –base sequence (a triplet) that can match with the bases
of mRNA.
11. Cut out the two models of tRNA only along solid lines.
12. Join the tRNA molecules to the mRNA model.
13. When you are finished, tape your model of the translation process on
the illustration board or folder.
Q13. What are the four nucleotide bases present in tRNA? Do these bases
differ from those found in mRNA?
Q14. What base in mRNA can only join with the adenine base of RNA?
uracil base of tRNA?
Q15. What is a codon? What does it represent?
Q16. What is the role of tRNA in protein synthesis?
Q17. How does a tRNA molecule carrying its amino acid recognize which
codon to attach?
Q18. You have learned that there is a stop codon that signals the end of
an amino acid chain. Why is it important that a stop codon be part
of protein synthesis?
Q19. A construction worker brings hollow blocks to build a wall. What part
of translation resembles the construction worker’s job?
What do the hollow blocks represent?

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In translation, each set of three nucleotides in an mRNA molecule
codes for one amino acid in a protein. This explains why each set of three
nucleotides in the mRNA is called a codon. Each codon specifies a particular
amino acid. For example, the first codon which is, cytosine-guanine-uracil
(CGU), instructs the ribosome to put the amino acid arg (arginine) in the
protein. The sequence of codons in the mRNA determines the sequence of
amino acids in the protein.
But how are the right amino acids added in the right sequence to match
the sequence of codons in the mRNA? The following events in translation can
help you understand the process:
• Step 1. As translation begins, mRNA binds to a ribosome. Then,
tRNA molecules, each carrying a specific amino acid, approach the
ribosome. The tRNA anticodon pairs with the first mRNA (start) codon
argenine-uracil-guanine (AUG), to form the initiation complex. The two
molecules temporarily join together.
• Step 2. Usually, the first codon on mRNA is AUG, which codes for the
amino acid methionine. AUG signals the start of protein synthesis. Then,
the ribosome slides along the mRNA to the next codon.
• Step 3. A new tRNA molecule carrying an amino acid pairs with the second
mRNA codon.
• Step 4. When the first and second amino acids are in place, an enzyme
joins them by forming a peptide bond between them.
• Step 5. As the process continues, a chain of amino acids is formed until
the ribosome reaches a stop codon (e.g., UAA,UAG,UGA) on the mRNA
strand. The polypeptide chain is released. Protein synthesis is complete.
Figure 7 summarizes the translation process.

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Proteins such as enzymes are mostly amino acids chained together
in a certain order. Each group of three nucleotide bases represents a codon
in a DNA or mRNA that corresponds to a specific amino acid or a start/
stop signal. This code is picked up by the mRNA and is carried from the
nucleus to the cytoplasm. The codon has its complement anticodon in tRNA.
Each amino acid that will form the protein molecule to be synthesized is
determined by the triplet code or codon on the mRNA.
Source: www.scq.ubc.ca
Figure 7. Translation
KEY CONCEPTS:
• The process of converting the information in messenger RNA
into a sequence of amino acids that make a protein is known as
translation.
• The role of transfer RNA (tRNA) is to bring the amino acids in the
cytoplasm to the ribosomes to make proteins.

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In this activity, you will apply what you have learned about DNA and
mRNA, and the use of the information in the Genetic Code Table.
Activity 5
Trace the Code
Objective:
• Identify the amino acids coded for by the mRNA codon using the
Genetic Code Table.
Materials:
• Genetic Code Table
• activity sheets
Procedure:
1. Copy and fill in the table.
2. Refer to the Genetic Code Table to identify the amino acid.
Order of bases
in DNA
Order of bases
in mRNA
(codon)
Order of bases
in tRNA
Amino Acid
Coded into
Proteins
TAG AUC
CAT
GUC
CCA
Methionine
Valine
ACU
ACA UGU
AAA
GAA CUU
3. To determine the order of bases in the first column (DNA), second
column (codon), and third column (anticodon), consider the
complementary base pairs in DNA: adenine pairs with thymine and
guanine pairs with cytosine. While in RNA, adenine pairs with uracil
and guanine pairs with cytosine.
4. To identify the amino acid, look at the bases in the mRNA codon, e.g.,
AUG using the Genetic Code Table. Look for the first letter of the
mRNA codon on the left side of the genetic code table (A), the second
letter of the mRNA on the second letter column (U), and the third letter
on the right side column (G). AUG codes for the amino acid -methionine.
5. Do the same with the other codons in the chart.

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Genetic Code Table
Q20. Why is specific base pairing essential to the processes of
transcription and translation?
Q21. How many codon/s codes for one amino acid?
MUTATION: Changes in the Genetic Code
When you copy from the blackboard, sometimes you may make mistakes.
In a similar way, mistakes may occur when DNA is replicated. Look at Figure 8
to see some common mistakes in replication. Changes in the DNA sequence
may delete such protein or change its structure.
Source: www.shmoop.com
Figure 8. Common Mistakes in Mutation

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When the code in a gene is changed, a different message may
result. Any change in the sequence of nitrogenous bases in the DNA,
any mistake in the transcription of genetic information from DNA to
RNA or pairing of the codon and anticodon, may cause changes in the kind,
sequence and number of amino acids of proteins synthesized by cells.
Changes in the protein structure or level of expression may lead to changes
in cellular properties and behavior, as a result, the organism is affected.
Changes in the genes can occur for a variety of reasons. Mutation may be
induced by factors called mutagens. Mutagens are commonly in the form of
toxic chemicals, and harmful radiation. Sometimes, mistakes occur in DNA
replication, mitosis, and meiosis. All of these can alter the DNA sequence
and length.
Mutations can occur in two different
types of cells: reproductive cells and body
cells. Only mutations in sex cells pass on to
offspring. Mutations affect the reproductive
cells of an organism by changing the
sequence of nucleotides within a gene in
a sperm or an egg cell. If these cells are
fertilized, then the mutated gene becomes
a part of the genetic makeup of the offspring
as shown in Figure 9. If mutation is severe,
the resulting protein may be nonfunctional,
and the embryo may not develop. There
are two types of mutations that can occur
in gamete cells:
Figure 9. Diagram of a cross
with mutated chromosomes
• Gene mutation is a permanent change in the DNA sequence that makes
up a gene.
• Chromosomal mutation occurs at the chromosome level resulting in
gene deletion, duplication or rearrangement that may occur during
the cell cycle and meiosis. It maybe caused by parts of chromosomes
breaking off or rejoining incorrectly.
Most mutations are harmful. Some mutations in a body cell are known
to cause cancer, while mutations in sex cells can cause birth defects. A
severe mutation may lead to cell death and may have no effect on the body.
Sometimes mutations may be useful for the species. For example, a mutation
in blood proteins prevents viruses or parasites to thrive in host organisms.
Egg cell with 23
chromosomes
Sperm cell with 23
chromosomes
Zygote with 47
chromosomes

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• When is mutation inherited? Why are mutations in sex cells heritable?
Many diseases are caused by the effects of inherited genes. In most
cases, there is only a small difference between DNAsequences in the defective
gene and a normal one. This difference is enough to cause serious and often
fatal diseases. These disease-causing genes are the result of a mutation.
They may be passed from one generation to the next if present in gametes.
Figure 10 shows changes in the sequences of bases in normal
hemoglobin and the one affected by mutation. A recessive gene causes
sickle- cell anemia, where most of the red blood cells stiffen and become
sickle shape in affected people. These diseased cells carry less oxygen than
normal cells. People affected by the disease eventually die.
Consider what might happen if an incorrect amino acid was inserted
in a growing protein chain during the process of translation. Do you think this
will affect the structure of the entire molecule? This can possibly happen in
point mutation where a change in a single base pair occurs. Read the two
sentences below. What happens when a single letter in the first sentence is
changed?
THE DOG BIT THE CAT.
THE DOG BIT THE CAR.
Did you see that changing a single letter also changes the meaning of
the sentence? A change in nitrogenous base in a protein may yield a different
amino acid and a corresponding change in the protein structure and function.
Source: education-portal.com
Figure 10. Hemoglobin Gene Mutation

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What will happen if a single base is deleted from a DNA strand? You
learned in Activity 3 and 4 that an mRNA corresponds to a DNA sequence
translated by ribosomes into proteins. If the new sequence with a deleted base
was transcribed, then every codon after the deleted base would be different.
Deletion or insertion of a base may change the reading frame of the codon
leading to frameshift mutation. Read again the two sentences below.
THE DOG BIT THE CAT.
THE DOB ITT HEC AT.
What was deleted? Would the result be the same if there would be an
addition of a single base?
Mutations in chromosomes may occur in a variety of ways. Sometimes
parts of chromosomes are broken off and lost during mitosis or meiosis.
Now, you will work on an activity that will help you visualize some
chromosomal mutations using models.
Activity 6
Chromie Change
Objective:
• Illustrate the kinds of chromosomal mutations
• Differentiate the kinds of chromosomal mutations
Material:
Modeling clay of varied color
Procedure:
A. Translocation
1. Using modeling clay make models of two (2) chromosomes. One should
have a different color and size from the other.
2. Break one part of each of the chromosomes. Exchange the parts and
attach them to each of the other chromosomes. See illustration below.

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3. Fill in the second column (translocation) of the table.
B. Deletion
1. Make a model of a chromatid (one of the duplicated copies of a
chromosome).
2. When done, remove a portion of it (close to either end of the chromosome
or within the long arm or short arm). If you choose to remove a part within
the arms, be sure to join back the bottom part. See sample illustration.
3. Fill in the third column (deletion) of the table.

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C. Inversion
1. Make a colored chromatid as shown below.
2. This time break a portion (with 2 colors) of it. Refer to the illustration
below.

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4. Fill in the fourth column (inversion) of the table.
3. Reinsert it to the chromatid in reverse manner.
Chromosomal Mutations
Translocation Deletion Inversion
1. How many
chromosomes are
involved?
2. How did you change
the original structure of
the chromosomes?
3. Which condition/s
do you think result/s
to change/s of
chromosome material?
Please indicate using
the words loss, gain,
either loss or gain of
genetic material.

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Q22. How are the three chromosomal aberrations different from each other?
How are they similar?
Q23. Do you think the normal genetic content of the chromosome is
affected?
Q24. Which condition results to gain of chromosome material? Loss of
chromosome material?
Q25. What are some possible effects of these chromosomal mutations?
(Activity adapted from BEAM – DepEd Material)
Abnormalities in chromosomal structure may occur during meiosis. The
normal process of crossing-over and recombination may be affected, such
that chromosomes break and reunite the wrong segments. If there is a loss or
gain of chromosomal material, there can be significant clinical consequences.
Changes that affect the structure of chromosomes can cause problems with
growth, development, and function of the body’s systems. These changes can
affect many genes along the chromosome and disrupt the proteins made from
these genes. Structural changes can occur during the formation of egg or
sperm cells in fetal development, or in any cell after birth. Pieces of DNA can
be rearranged within one chromosome or transferred between two or more
chromosomes.
The effects of structural changes depend on their size and location,
and whether any genetic material is gained or lost. Some changes cause
medical problems, while others may have no effect on a person’s health.
The gain or loss of chromosome material can lead to a variety of genetic
disorders. Human examples are the following on the next page:

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(a) “Cri du chat” is caused by the
deletion of part of the short arm
of chromosome 5. “Cri du chat”
is French, and the condition
is so named because affected
babies make high-pitched cries
that sound like a cat. Affected
individuals have wide-set eyes,
a small head and jaw, are
moderately to severely mentally
retarded, and very short.
Source: player.mashpedia.com
Figure 11. Cri du chat
(b) Down’s syndrome is usually
caused by an extra copy
of chromosome 21(trisomy
21). Characteristics include
decreased muscle tone,
stockier build, asymmetrical
skull, slanting eyes and
mild to moderate mental
retardation.
Source: www.healthtap.com
Figure 12. Down’s Syndrome
(c) Edwards syndrome, which
is the second most common
trisomy after Down’s syndrome,
is a trisomy of chromosome 18.
Symptoms include mental and
motor retardation and numerous
congenital anomalies causing
serious health problems. About
99% die in infancy. However,
those who live past their first
birthday, usually are quite
healthy thereafter. They have a
characteristic hand appearance
with clenched hands and
overlapping fingers.
Source: healthtap.com
Figure 13. Edward Syndrome
flattened
nose and
face, upward
slanting eyes
widely seperated
first and second
toes and
increased skin
creases
single palmer
crease, short
fifth finger that
curves inward
small mouth,
small jaw,
short neck
shield chest,
or short and
prominent
sternum;
and wide-set
nipples
occiput, or back
part of the skull, is
prominent
dysplastic, or
malformed ears
clenched hands
with overlapping
fingers
flexed big toe;
prominent heels

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e) Klinefelter’s syndrome
(XXY). Men with this condition are
usually sterile and tend to have
longer arms and legs and to be
taller than their peers. They are
often shy and quiet and have a
higher incidence of speech delay.
(f) Turner’s syndrome (X
instead of XX or XY). Female sexual
characteristics are present but
underdeveloped. They often have a
short stature, low hairline, abnormal
eye features and bone development
and a “caved-in” appearance to the
chest
Figure 14. F. TurnerFigure 14. E. Klinefelter
Source: http://chengmoh.blogspot.
com/2012/08/genetic-diseases.html
Sources:http://ghr.nlm.nih.gov/handbook/mutationsanddisorders/structuralchangeshttp://
www.usd.edu/med/som/genetics/curriculum/1ECHROM3.htm
Human Karyotyping
Occasionally, chromosomal material is lost or rearranged during the
formation of gametes or during cell division of the early embryo. Such changes,
primarily the result of nondisjunction or translocation, are so severe that the
pregnancy ends in miscarriage – meaning loss of an embryo or fetus before
the 20th week of pregnancy or fertilization does not occur at all. It is estimated
that one in 156 live births has some kind of chromosomal abnormality.
Some of the abnormalities associated with chromosome structure
and number can be detected by a test called a karyotype. A karyotype is
an image of the full set of chromosomes of an individual that displays the
normal number, size, and shape. Karyotypes may reveal the gender of a
fetus or test for certain defects through examination of cells from uterine
fluid – a procedure called amniocentesis – or through sampling of placental
membranes as shown in Figure 15.
(d) Jacobsen syndrome is also called terminal 11q deletion disorder. This
is a very rare disorder. Those affected have normal intelligence or mild
mental retardation, with poor or excessive language skills. Most have
a bleeding disorder called Paris-Trousseau syndrome.

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Figure 15. Amniocentesis
To produce a karyotype, chromosomes commonly derived from actively
dividing white blood cells are stained and photographed. The homologous
pairs of chromosomes are identified and arranged in order by size, with the
exception of the sex chromosomes; these appear last as shown in Figure
16. These tests are typically done on a blood sample, although any body cell
could be used. The cell must be undergoing mitosis – preferably in metaphase
– so that the chromosomes are replicated, condensed, and visible under a
microscope.
Source: www.austincc.edu
Figure 16. Karyotype of Human Male and Female

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Today, molecular biologists are finding applications for recombinant DNA
technology: from medical applications, including gene therapy and vaccines;
DNA fingerprinting used to identify persons responsible for crimes and provide
evidence for identity of dead persons; to the creation of genetically modified
crops that are resistant to pesticides, or that make extra vitamins and minerals;
to bacteria that can clean oil spills. While the applications of recombinant
DNA technology are numerous, its limitations are its potential effects on our
ecosystem.
Genetic Engineering
Understanding the gene has led to the remarkable development of
methods for changing a cell’s DNA. A modern biotechnology called genetic
engineering produces transgenic or GM crops of organisms. Scientists have
developed methods to move genes from one species into another. When DNA
from two different species are joined together, it is called recombinant DNA.
This process uses restriction enzymes to cleave one organism’s DNA into
fragments and other enzymes to splice the DNA fragment into a plasmid or viral
DNA. Transgenic organisms are able to manufacture genetic products foreign
to them using recombinant DNA. Genetic engineering has already been applied
to bacteria, plants, and animals. These organisms are engineered to be of use
to humans. Figure 17 shows the method for producing recombinant DNA.
Figure 17. Diagrammatic Illustration of the Steps in Genetic Engineering
A plasmid (ring of DNA) is
isolated from a bacterium
An enzyme cuts the DNA
at specific sites
A gene for protein, taken
from another cell, is cut
with the same enzyme
The gene is inserted into the
plasmid, where it fits exactly.
This is recommended DNA.
When the bacterium divides
and replicates, it copies itself
and the recombinant DNA
The recombinant
plasmid is inserted back
into the bacterium
The new gene
directs the
bacterium to make
a new protein
products such as
interferon

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KEY CONCEPTS:
• • A mutation is a change in the base sequence of DNA. Mutations
may affect only one gene, or they may affect whole chromosomes.
• Mutations in eggs or sperm affect future generations by transmitting
these changes to their offsprings.
• Mutations in body cells affect only the individual and are not passed
on to the offspring.
• When DNA from two different species are joined together, it is
called recombinant DNA. This process uses restriction enzymes to
cleave one organism’s DNA into fragments and other enzymes to
splice the DNA fragment into a plasmid or viral DNA.
Now that you have learned that protein is made using the information
from DNAand how mutations may cause changes in the structure and function
of a protein, it would be worth finding out how a deeper understanding of
molecular genetics may affect your life. What do you think are the significant
contributions of this knowledge to human society? You may share your
thoughts and ideas with your classmates.

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• Deoxyribonucleic Acid (DNA) is the genetic material of organisms.
A DNA is a double helix molecule composed of two complementary
strands of deoxyribonucleotides units. The complementary base pairs
of the DNA are held by hydrogen bonds.
• The central dogma of the transfer of genetic information states that the
sequence involved in the expression of hereditary characteristics is
from DNA to RNA to proteins.
• Genes are segments of DNA that may code for RNA or proteins.
• Most sequences of three bases in the DNA of a gene code for a single
amino acid in a protein.
• Transcription is the process by which the information in a strand of
DNA is copied into a new molecule of messenger RNA (mRNA).
• There are three major types of RNA in the cell and their functions:
1) The mRNA carries the information from DNA to the ribosomes.
2) The tRNA translates the genetic message carried by the mRNA
through protein synthesis.
3) The rRNA forms the structural component of the ribosome.
• Ribosomal RNA serves as the site for attachment of mRNA and tRNA
and for protein synthesis
• Translation is a process which determines the order of bases in mRNA
of amino acids into a protein. It occurs in a ribosome in the cytoplasm.
• A mutation is a change in the base sequence of DNA. Mutations may
affect only one gene, or they may affect whole chromosomes.
• Mutations in eggs or sperm may affect future generations by transmitting
these changes in the offsprings. Mutations in non-sex (somatic) cells
only are not hereditary.
• When DNA from two different species are joined together, it is called
recombinant DNA. This process uses restriction enzymes to cleave
one organism’s DNA into fragments and other enzymes to splice the
DNA fragment into a plasmid or viral DNA.

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A. Choose the letter of the correct answer:
The following is the base sequence on one strand of a DNA molecule:
A A T G C C A G T G G T
1. If this strand is replicated, which of the following is the complementary
strand that is produced?
a. T C G T C C G T C T A G c. T T A C G G T C A C C A
b. A G C A G G C A G G G T d. U C G U C C U C U A G A
2. If transcribed into an mRNA, what would be the resulting strand?
a. U U A C G G U C A C C A c. A G C A G G C A G A U C
b. A G C A G G A G A T C d. T C G T C C G T C T A G
3. During translation, the tRNA sequence of nucleotides arranged linearly
is _______.
a. T C G T C C G T C T A G c. A G C A G G C A G A U C
b. A A U G C C A G U G G U d. U C G U C C G U C U A G
B. Each combinations of nitrogen bases on the mRNA molecule is a codon,
which is a three letter code for a specific amino acid. The table shows the
mRNA codon for each amino acid. Use the Genetic Code Table to answer
the questions.
4. The codon for tryptophan is _______.
5. For leucine, there are _______ different codons.
6. The codon GAU is for __________.
7. In a stop codon, if the second base is G, the first and third bases are
____ and ___.
C. Sequence the following steps in protein synthesis from first to last (1-6).
___A. Transcription
___B. tRNA – amino acid units link to mRNA
___C. Amino acid separate from tRNA
___D. Polypeptide chain assembled
___E. mRNA links to ribosome
___F. Stop codon encountered in mRNA
D. Given the list of amino acids, determine the sequence of bases in the
codon of the mRNA that codes for these amino acids. Use the table for the
Genetic Code.

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1. Methionine 6. Asparagine
2. Leucine 7. Valine
3. Arginine 8. Glycine
4. Threonine 9. Aspartic acid
5. Lysine 10. Glutamic acid
E. Write the sequence of bases in the mRNA molecule from which the protein
molecule in letter D was identified.
Glossary of Terms
Amino acid the building blocks of a protein molecule
Anticodon the complement of the mRNA; triplet code in the
tRNA
Chromosomal changes in the chromosomes where parts of
mutations the chromosomes are broken and lost
during mitosis.
Codon each set of three nitrogenous bases in mRNA
representing an amino acid or a start/stop signal
DNA replication process in which the DNA is copied
Genetic code set of rules that specify the codons in DNA
or RNA that corresponds to the amino
acids in proteins

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mRNA messenger RNA; brings information from the DNA
in the nucleus to the cytoplasm
Mutation any change in the DNA sequence.
Nitrogenous base is a carbon ring structure that contains one
or more atoms of nitrogen. In DNA, there
are four possible nitrogen bases:
adenine(A), thymine(T), cytosine(C) and
guanine(G)
Recombinant DNA a form of DNA produced by combining genetic
material from two or more different sources by
means of genetic engineering.
rRNA ribosomal RNA; hold tightly to the mRNA and use
its information to assemble amino acids
Transcription process of copying DNA sequence into RNA.
Translation process of converting information in mRNA
into a sequence of amino acids in a protein.
tRNA transfer RNA; a type of RNA that attach the correct
amino acid to the protein chain that is being
synthesized in the ribosome.

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Printed Materials:
Rabago, L.et al. (2010). Functional Biology:Modular Approach. Vibal
Publishing House, Inc.
Biggs.A. Gregg, K., et al. (2000). Biology: the Dynamics of Life. USA: McGraw-
Hill Companies. Inc.
Addison-Wesley (1996). Science Insights:Exploring Living Things.
USA:Addison Wesley Publishing Company.
Teaching Guide – Integrative Science Biology by Eferza Publications
Electronic Sources:
www.chemguide.co.uk/organic props/amino acids/dna1.html/
www.accessexcellence.org
www.elmhurst.edu
ghr.nlm.nih.gov/handbook/mutations and disorders/gene mutation
ww.nature.com/scitable/topicpage/Genetic-Mutation - 1127
www.buzzle.com/articles/hybrid-fruits-and-vegetables.html
internalcampaignschools.org
www.scq.ubc.ca
www.shmoop.com
education-portal.com
playermashpedia.com
www.healthtap.com
healthtap.com
http://chengmoh.blogspot.com/2012/08/genetic-diseases.html
www.austincc.edu
DepEd Materials
APEX Biology Unit 6 Anatomy of Genes Lessons 1-5 Heredity and Genetics
BEAM Learning Guide, Nov.2008, Genetic Book of Life pp. 28-34
EASE Biology Lesson 3 The DNA Material pp. 20 -24

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Suggested Time Allotment: 8 hrs.
I. Introduction
Do you know why dinosaurs no longer exist today? Why some animals
before are very different from the animals we have now? From Grade 7 to
Grade 9 you have learned that organisms are grouped into Kingdom, Phylum,
Class, Order, Family, Genus, and Species. You also learned that organisms
possess unique characteristics. Some organisms may look the same but have
distinct differences from each other, others may not be related to one another
but they have similar functional features and characteristics. You may also
wonder why some animals that are present before are no longer existing today.
Such extinction of organisms were caused by various environmental factors
and human activities.
This module will give you an idea that maintaining individual differences
and variety of characteristics are important to ensure the survival of species.
This module will also discuss the different sources of possible evidence
for evolution such as fossil records, and developmental and molecular biology
which gave way to the different concepts about the origin of life. It will also
provide a variety of activities to help you understand the processes and
mechanism of evolution.
Through this module, it is hoped that you will be encouraged to further
take care of and protect our environment (e.g. natural resources), to ensure the
survival of species and conservation of our biodiversity.
At the end of this module you are expected to:
1. Understand how evolution is being studied from the fossil record and
molecular data.
2. Give the importance of understanding the origin of life.
3. Explain why reproduction, variation, and adaptation are necessary for
the survival of species.
4. Discuss how natural selection promotes expression and propagation of
traits and species that adapt with the changing environment.
BIODIVERSITY AND
EVOLUTION
Unit 3
MODULE
3

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III. Pre- Assessment
I. Multiple Choice. Choose the best answer.
1. Where can most of the fossils be found?
a. Sedimentary rock
b. Granite rock
c. Lava flows
d. Black soil
2. Which of the following statements DOES NOT describe evolution?
a. Evolution is continuous.
b. Evolution refers to change.
c. The world is stable and unchanging.
d. If there is mutation, there is evolution.
3. Which pairs of animals show a correct example of homologous
structures?
a. Wings of butterfly and bat.
b. Flipper of whale and forelimb of cat.
c. Fingers of human and arm of starfish
d. Tongue of frog and proboscis of mosquito.
4. In what Era can the oldest fossils be found?
a. Cenozoic
b. Mesozoic
c. Paleozoic
d. Pre-Cambrian
1. Why are evidences important in the study of origin of life?
2. Explain how reproduction, variation, and adaptation are necessary for
survival of species.
3. How can Natural Selection contribute to biodiversity or extinction?

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5. Which of the following statements best explains the Theory of Natural
Selection?
a. Organs that are not used may disappear while organs that are
constantly used may develop.
b. In nature, the organisms with desirable characteristics may survive
while those with weaker traits may not.
c. Organisms develop desirable structures to survive in a given
environment.
d. Acquired characteristics of parents can be passed on to offsprings.
6. Which is a more definite characteristics to show relatedness of two
organisms?
a. Similarity in development
b. Similarity in courting behavior
c. Similarity in structure
d. Similarity in genomic DNA
7. Which of the following statement explains Lamarck’s Theory of Use and
Disuse?
a. Body structures develop because they are used extensively
b. Body structures develop because they are not in use
c. Body structures develop because of competition
d. Body structures develop because of mutation
8. Which of the following statements does not show the process of
adaptation?
a. Dying out of dinosaurs during Cretaceous period.
b. Certain group of birds eating different kinds of food.
c. The finches in Galapagos with different beaks.
d. A child learning to walk on his own.
9. Why do organisms with close biochemical similarities show stronger
evolutionary relationships?
a. They have varied and different ancestry.
b. They have similar patterns during their early stages of development.
c. They have a common ancestor and have the same kind of proteins.
d. They possess same vestigial structure that made their evolutionary
relationship closer.

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10. Which of the following statements supports the idea that extinction is
necessary?
a. To give way for other organisms to develop
b. To let other organisms evolve and progress
c. To know who is the fittest
d. All of the above
II. Draw the appropriate graphical representation of the following situations.
a. Equal population of black peppered moths and white peppered moths
inhabit a particular area in the city. After a while, modernization and
industrialization came. Because of pollution, white peppered moths
did not survive while the dark peppered moths enjoy the smog.
b. A variety of species of deer lives in a certain part of the forest. But
after sometime a new organism was introduced to the wild; the fast
deer increased in number, while the slow ones became extinct.
III. Pattern of Evolution. Tell whether the diagrams illustrate convergent evolution
or divergent evolution.
SOURCES OF EVIDENCE FOR EVOLUTION
Organisms inhabiting the earth have changed overtime, their structures,
traits, and abilities allowed them to adapt and survive in their environment. Data
from the fossil records, anatomy and morphology, embryonic development and
biochemistry could be analyzed to demonstrate if evolution of life on earth has
taken place.
Evidence from Fossil Records
Have you ever seen fossils of any organism? Fossils are examples
of evidences that paleontologists use in studying evolution. They are traces
of organisms that lived in the past and were preserved by natural process
or catastrophic events. They can be remains of organisms which include
bones, shells, teeth and also feces embedded in rocks, peat, resin, and ice.
Paleontologist is a person who studies fossils.

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Sources: (a) www.albertawow.com (b) www.earthhistory.uk
Most fossils were commonly found in sedimentary rocks. They were
from the hard parts of the organism like woody stem, bones, or teeth.
Compression
Source: The Virtual Petrified Wood Museum
Impression
Another type of fossil is an imprint or impression. Imprints are shallow
external molds left by animal or plant tissues with little or no organic materials
present. Compression is the other side with more organic material.
(a) (b)
(a) (b)
Compression
Source: The Virtual Petrified Wood Museum
Impression

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Determining the age of fossils
Do you know how a paleontologist usually determines the age of a
fossil? Paleontologists make initial estimates of the age through the position in
the sedimentary rocks. Fossils found in the bottom layer are much older than
those found in upper layer of rocks.
The following activities will teach us how to determine the age of fossils.
Activity 1A
Where Do I Belong?
Objective:
Draw and place the fossil of organisms in its proper Era and Period.
Material:
pen and paper
Directions:
Try to place or draw the fossils of the following organisms in the Era
and period where they belong.

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Trilobite
An invertebrate, it lived
in a shallow marine
environment during
Ordovician and Silurian
periods.
Crinoid Stem
Crinoids look like
plants but are actually
animals related to our
modern day starfish.
They belong to Phylum
Echinodermata and
lived during the Triassic
Period.
Dinosaur bone
Dinosaurs or giant
reptiles ruled the earth
during the Jurassic
Period under Mesozoic
Era.
Vascular Plant This fossilized leaf is
once part of an early
vascular plant during the
Carboniferous Period.
Q1. Analyze the table above. Which is assumed to be the oldest organism?
Why do you think so? What is the probable age of the fossil?
Q2. In what era can you possibly find the most recent fossil? Why do you say
so?
Q3. Do you think there are organisms that lived during the Cambrian Period?
Explain your answer.
Q4. When do you think did the present day humans first appeared on earth?
Q5. Describe how organisms are arranged in the table.
Source: Images of trilobite and crinoid stem taken from The Virtual Petrified Wood Museum
Era Period Organism
Cenozoic Recent
Quaternary
Teritiary
Mesozoic Cretaceous
Jurassic Dinosaurs
Triassic Crinoids
Paleozoic Permian
Carboniferous
Vascular
Plants
Devonian
Silurian Trilobites
Ordovician Trilobites
Cambrian

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Relative dating is a method used to determine the age of the rocks by
comparing them with the rocks in the other layer. The younger sedimentary
rock layer is assumed to be found on top and the older rock is found at the
bottom layer. Fossils found at the bottom layer are assumed to be older than
those on the upper layer.
The fossils of invertebrates found at the bottom part of the rock layer
suggest that invertebrates are probably one of the first and oldest organisms
that lived on earth.
Another method is through the use of radioactive isotopes such as
carbon-14. Radiometric dating is a method used to determine the age of rocks
using the decay of radioactive isotopes present in rocks.
All organisms have decaying carbon-14 in it. Plants and animals that are
still alive constantly replace the supply of carbon in their body and the amount
of carbon -14 in their body stays the same. When an organism dies, carbon-14
starts to decay.
Carbon dating is used to tell the age of organic materials. Art collectors
use carbon dating to determine if a piece of art work is genuine or not.
Do you want to know how to determine the age of a fossil? Try this activity.
Activity 1B
What’s My Age?
Objective:
Determine the age of fossil.
Materials:
• Paper
• pen
Directions:
Use the information below to answer the age of the fossils.
One way scientists determine the age of fossils is by checking
the amount of radioactive carbon-14 in the fossil. Carbon-14 breaks
down or decays to form nitrogen-14; the rate of this decay is constant
e.g. half of the remaining Carbon-14 breaks down every 5730 years.
Use this information and compute the age of the fossils on the next
page.

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Source: Payawal P. (1993)
Q6. What is the oldest fossil?
Q7. Why is it important to know the age of the fossil?
Out of the examination of layers of rocks and dating fossils, scientists
were able to develop the Geologic Time Scale. The Geologic Time Scale shows
the major events in the Earth’s history. It also shows the appearance of various
kinds of organisms in a particular period of time on earth.

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GEOLOGIC TIME SCALE
Era is the largest division of Geologic Time Scale, namely Precambrian,
Paleozoic, Mesozoic, and Cenozoic. Each Era is further divided into Period.
Source: Biology- Science and Technology II Textbook, 1990.

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Looking at the Geologic Time Scale, can you determine how old is the Earth?
Do you have any idea why particular organisms exist in every period or era?
Hint of Evolution from Comparative Anatomy
Another hint of evolutionary concept is from the comparative anatomy.
Structures from different species which have similar internal framework,
position, and embryonic development are considered to be homologous.
Homologous structures may perform different functions in the species
living in the different environment, or it may have the same origin but different
functions.
Here are some example of homologous structures: forelimbs of dog, bird, lizard,
and whale, which are structurally the same, but functionally different.
Structures of unrelated species may evolve to look alike, because the
structure is adapted to similar function. These are called analogous structures.
Analogous structures have similar functions but different origin.
Examples are wings of birds, bats, and insects that have the same function but
different in origin.
Q8. Can you give some examples of analogous structures? What are those?

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Activity 2
AHA! Analogous! Homologous!
Objectives:
• Distinguish homologous structure from analogous structure.
• Explain the relevance of comparative anatomy as an evidence of
evolution.
Materials:
• paper
• pen
Directions: Write in the space provided H if the structures below are homologous
and A if they are analogous.
Activity from Payawal P. (1993)
Q9. Can you say that human, whale and bat might belong to a common
ancestral group? Explain why.
Structure Classification
Whale flipperHuman arm
Human arm Alligator forelimb
Bat wing Butterfly wing
Bird wing Butterfly wing

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Q10. Give other examples of homologous structures.
Front limbs of man, cat, horse, bat, whales, and other mammals are made
up of same kinds of bones, they just vary only in size and function differently.
The presence of homologous structures is
a strong indicator that the organisms evolved from
common ancestors. This type of evolution is called
divergent evolution.
Divergent evolution is the splitting of
an ancestral population into two or more sub-
populations that are geographically isolated from
one another.
Convergence is an increase in similarities
among species derived from different ancestors as
a result of similar adaptation to similar environment.
In convergent evolution, analogous
structures of unrelated organisms from different
ancestors develop similar function such as butterfly
wings and bird wings.
Is it true that humans are related to other organisms? If yes, then who’s
your relative?
Activity 3
So, Who is My Relative?
Objectives:
• Compare the stages embryonic development of different organisms.
• Explain how embryonic development provides clues for evolution.
Materials:
• paper
• pen
Divergent evolution
Convergent evolution
Source: pixgood.com
(Pliohippus), pixshark.com
(horse), background-kid.com
(zebra)

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Directions: Study and compare the stages of embryonic development of the
different vertebrates.
Source: Carale (1989)
Q11. In what stages of development of the organisms above show similarities?
Q12. Identify the structure, how and where are they similar?
Q13. In stage 3, identify the structures that made the organisms different from
each other?
Q14. Can embryonic development be an evidence that evolution took place?
Explain.

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Evidence from Embryonic Development

An embryo is an early stage of development in organisms. Embryonic
development include stages such as blastula, gastrula, and organogenesis.
The embryo of fishes, salamanders, lizards, birds, cats, and humans are
similar during the first stage of their embryonic development; and have several
homologous structures that are not present when the organisms are adults
Studies show that species that are closely related exhibit similar
embryonic development. Even when in the adult stage, the organisms are quite
different.
After the three activities, you’ve learned that fossil records, anatomical
structures and embryonic development can be used to study the relationship
of organisms. Another evidence of evolution is provided by the biochemical
analysis and amino acid sequence of the organisms’ DNA. The next activity will
further help you understand more the relationship of organisms based on their
amino acid sequences.
Activity 4
Let’s Compare
Objectives:
• Compare the sequence of amino acids in the cytochrome C of the
different vertebrates.
• Infer about the evolutionary relationship of the organisms from the
differences in amino acid sequence.
Materials:
• Pen
• paper
• graphing paper
• coloring materials.
Procedures:
1. Given are the sequences of amino acids in the cytochrome C of the
human, chimpanzee, gorilla, Rhesus monkey, horse, and kangaroo.
Cytochrome C is a respiratory enzyme located inside the mitochondria.
2. Study carefully the sequence of the amino acid.

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3. Supply the missing amino acid sequence of chimpanzee, gorilla, Rhesus
monkey, horse, and kangaroo to complete Tables 2, 3 and 4. Refer to
table 1 for your answer.
4. Identify the differences using the amino acid sequence of human as
reference.
5. Complete Table 5 to show the number of amino acid differences and the
position which they vary.
Activity taken from Brittain T. (Biology the Living World) Lab Manual, 1989
Table 1
Table 2 Table 3
87 88 89 90 91 92 93 94 95 96
THR LEU SER GLU LEU HIS CYS ASP LYS LEU
Human
Chimpanzee
Gorrilla
Rhesus monkey
Horse
Kangaroo
Human
Chimpanzee
Gorrilla
Rhesus monkey
Horse
Kangaroo
91 98 99 100 101 102 103 104 105 106
HIS VAL ASP PRO GLU ASN PHE ARG LEU LEU

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Q15. Based on the activity, which organism is closely related to humans?
Q16. Which organism is least related to humans?
1. Study tables 6 and 7 below.
Activity taken from Brittain T. (Biology the Living World) Lab Manual, 1989
Table 4 Table 5
Table 6 Table 7
107 108 109 110 111 112 113 114 115 116
GLY ASN VAL LEU VAL CYS VAL LEU ALA HIS

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Q19. If the amino acid sequence of the two organisms are similar, would their
DNA be also similar? Why?
Q20. Do you think the chimpanzee, gorilla, and humans have a common
ancestry? Explain your answer.
The greater the similarity in amino acid sequence, the closer the
relationship of the organisms. The organisms which are similar in structure and
also possess similarity at the biochemical level could probably have a common
ancestor.
Theories of Evolution
Jean Baptiste de Lamarck was the first
evolutionist to believe that organisms change over
time. Using fossil records as a guide, Lamarck was able
to develop three theories; one is The Theory of Need
which states that organisms change in response to
their environment. Their ability to survive helped them
develop characteristics necessary for them to adapt in
a given environment.
2. In a graphing paper, plot the information on Table 6 and Table 7 in a bar
graph, and use different colors to represent each pairing of species.
Q17. What organism appears to be least related to humans?
Q18. In Tables 6 and 7, which pair of organisms appears to be more related
to each other? Which pair of organisms is the least related to each other?
Why did you say so?

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Darwinian Theory
The more popular Theory of Evolution proposed by
Charles Darwin based on natural selection is different from
the theories of Lamarck. According to Darwin, giraffe species
originally had varying neck lengths but natural selection
favored the survival of giraffes with longer necks that could
feed on taller trees that were available. Giraffes with short
neck were eliminated due to lack of accessible food supply.
Fifty years after Lamarck’s Theory of Use and Disuse, Charles Darwin
suggested the Theory of Natural Selection, after his voyage to the Galapagos
Island in HMS Beagle. He was fascinated by the diversity of organisms he
found along the journey.
In Galapagos Island, he observed that finch species have different beak
structures for different food types. The abundance of certain finch species in an
island was somehow related to the type of available food for these birds.
Next is The Theory of Use and Disuse; which according to Lamarck,
organs not in use will disappear while organs in use will develop. Lamarck
believed that giraffes before have short necks, but because of the need to
survive and in order to reach tall trees for food, they kept stretching their
necks until these became longer and able to reach taller trees. These acquired
characteristics were believed to be inherited by their offsprings and propagated
by the next generation of giraffes. Lamarck called it as The Theory of Acquired
Characteristics.
If you change the color of your hair from black to blond, do you think
your child can inherit the blond color of your hair? A young lady keeps on using
whitening soap and becomes fair? Can her child inherit her acquired fairness?
Many scientists rejected the theories of Lamarck. They understood that
if there were changes in cell or body structure, there could be changes in the
genetic information of the species.

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Activity 5
Follow the Track
Objective:
• Explain the Theory of Natural Selection.
Materials:
• pen
• paper
Procedure:
1. Observe the set of footprints in the diagram.
2. Try to tell a story about the different events.
3. Predict what can probably happen at the end of the diagram.
Darwin suggested that selection also takes place in nature. In selective
breeding, farmer identifies and selects the best and desirable trait to propagate.
In natural selection, environmental factors promote the survival of the fittest
and eliminates the less fit.

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Diagram 1 Diagram 2 Diagram 3 Diagram 4
Q21. In Diagram 1, how many sets of footprints are there? Based on the size
of footprints, describe the organisms.
Q22. In what directions are the footprints going?
Q23. Describe or predict what is happening in Diagram 3. In Diagram 4.
Create your own story using the four diagrams and share it to the class.
Organisms struggle for existence in order to survive; they compete for
food and space. Organisms with favorable and advantageous characteristics
survive and reproduce. Fitness refers to the ability of an organism to survive
and produce offsprings. Different individuals in a population possess different
characteristics and abilities. This is called variation.
Variation among individuals in the population would likely bring greater
chance of survival. An organism that is adapted and has structures fitted to
survive in a given environment would likely produce offsprings.
Activity 6
Survivor
Objective:
Determine the effect of environmental changes on adaptation and
survival of a species.
Materials:
Tray (made up of chicken wire, 30 cm x 25 cm long and 4 cm thick),
surgical mask, alcohol lamp, magnet, rags or mittens, glass of tap
water, 25 pieces of marbles, paper clips, paper square (1.5 cm x 1.5
cm), candles, (1.5 cm x 1.5 cm), plastic cellophane (1.5 cm x 1.5 cm)

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Procedure:
1. Place inside the tray, 6 pieces each of marbles, paper clips, square
paper, plastic cellophane, and candles. Spread them thoroughly on the
tray.
2. Hold the tray with a mitten and run it over an alcohol lamp for one minute.
Be careful while working with an alcohol lamp.
3. Remove the burnt materials and record the “survivors” or those that did
not get burned.
4. For every one survivor, add two offsprings. (Ex. for one marble, add two
more marbles.)
5. Run along the magnet on the tray.
6. Count the number of survivors. Repeat procedure 4.
7. Using a glass of water, sprinkle water inside the tray.
8. Remove the wet and destroyed organisms on the tray.
9. Count and record the number of survivors and repeat procedure 4.
Disturbances
Materials/
Organisms
Fire (alcohol
lamp)
Earthquake
(magnet)
Flood/
typhoon
(water)
Total number
of survivors
Marbles
Paper
Candles
Plastics
Paper Clips
Q24. Which of the organisms has the most number of survivors?
Q25. Are there organisms that decrease in number or did not survive the three
environmental disturbances?
Q26. Compare and contrast the characteristics of organisms that survive and
did not survive the three environmental disturbances.

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Q27. How can changes and disturbances in the environment affect the survival
of the species?
Your lesson in Grades 8 and 9 will affirm that genes can be transferred from
parents to offspring. You also learned that the combined genes of parents will
bring about variation of traits.
Variation increases the chance of survival of living things. Organisms with
the best and desirable traits would likely adapt to environmental changes and
may gradually become better suited to survive in a given environment.
Organisms which are best adapted to the environment will continue to
reproduce and perpetuate their own kind. Mating between surviving populations
of the same species may shift the abundance of a new breed of organism
because of mutation, gene combination, and natural selection. This then leads
to speciation and may subsequently increase biodiversity.
Q28. Can destruction of our natural resources affect the survival of species?
How?
Q29. In what way can you help to protect our natural resources and save our
biodiversity?
Do you want to survive in any given environment or situation? Better
equip yourself with things and skills you need in order to survive.

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Your multimedia presentation will be graded accordingly using a rubric. It
will be assessed based on purpose, content, understanding of the concepts,
additional information, and creativity.
• Species may change over time. Fossil records, Developmental and
Molecular Biology and Genetics may provide possible evidence for
evolution.
• Patterns in animal development suggest that some organisms may have
one common ancestor.
• Evidence in structure and molecular studies suggests that organisms
are related with one another.
• Jean Baptiste de Lamarck proposed The Theory of Need, The Theory of
Use and Disuse and The Theory of Acquired Characteristics.
• Charles Darwin presented the Theory of Evolution based on natural
selection.
• Speciation or formation of a new species may occur through mutation,
gene combination, and natural selection.
• Speciation increases biodiversity.
Performance Task
After learning about variation and adaptation you will now create a
multimedia presentation about the things an individual must do in order to adapt
and survive in environmental changes and challenges.
You can express your thoughts and ideas from the point of view of
an environmentalist, a climate change advocate, a mayor or governor of a
particular town or a barangay official. Your presentation should cater to the
common citizens to encourage them to be aware of environmental changes
that can occur, to prepare them for things they need to do, and to help them
adapt and survive in these environmental changes. You can interview people
from Department of Environmental and Natural Resources (DENR), Climate
Change Commission, National Disaster Risk Reduction and Management
Council (NDRRMC), and other government agencies and Non-Government
Organization (NGO’s) where you can gather information that will help you with
your presentation.

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Multiple Choice: Directions: Choose the correct answer.
1. Where can most of the fossils be found?
a. Sedimentary rock
b. Granite rock
c. Lava flows
d. Black soil
2. Which of the following statements DOES NOT describe evolution?
a. Evolution is continuous.
b. Evolution refers to change.
c. The world is stable and unchanging.
d. If there is mutation, there is evolution.
3. Which pairs of animals shows a correct example of homologous
structures?
a. Wings of butterfly and wings of bat.
b. Flipper of whale and forelimb of cat.
c. Fingers of human and arm of starfish
d. Tongue of frog and proboscis of mosquito.
4. In what era can the oldest fossils be found?
a. Cenozoic c. Paleozoic
b. Mesozoic d. Pre Cambrian
5. Which of the following statements best explains the Theory of Natural
Selection?
a. Organs that are not used may disappear, while organs that are
constantly used may develop.
b. In nature, the organism with desirable characteristics may survive,
while those with weaker traits may not.
c. Organisms develop desirable structures to survive in a given
environment.
d. Acquired characteristics of parents can be passed on to offsprings.
6. According to evolutionists, which is the best test to show the relatedness
of two organisms?
a. Similarity in development
b. Similarity in courting behavior
c. Similarity in structure
d. Similarity in genomic DNA

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7. Which of the following statements explains Lamarck’s Theory of Use
and Disuse?
a. Body structures develop because they are used extensively
b. Body structures develop because they are not in use
c. Body structures develop because of competition
d. Body structures develop because of mutation
8. Based on the number of differences in amino acid sequence, which pair
of organisms is least related to each other?
a. Fruit fly-wheat
b. Human-horse
c. Fruit fly- pigeon
d. Human - wheat
9. Why do organisms with close biochemical similarities show stronger
evolutionary relationships?
a. They have varied and different ancestry.
b. They have similar pattern during their early stage of development.
c. They have a common ancestor and have the same kind of proteins.
d. They possess same vestigial structure that made their evolutionary
relationship closer.
10. Which of the following statements supports the idea that extinction is
necessary?
a. To give way for other organisms to develop
b. To let other organisms evolve and progress
c. To know who is the fittest
d. All of the above
Test II. Identify whether the following statements describe convergent or
divergent evolution.
1. Two organisms which live in a certain area developed the same
characteristics after a while.
2. A population of certain organisms went separate ways and developed
different structures.

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For numbers 3 and 4, draw the appropriate graphical representations of
the following situations.
3. Three species of lizards inhabit a particular area in a forest; the
heavily pigmented lizard, medium pigmented, and lightly pigmented
lizard. After the introduction of new species of birds, only the heavily
pigmented lizard increased in number; the medium and light pigmented
lizard disappeared in the forest.
4. According to Charles Darwin, the necks of giraffes vary in length: the long
neck, medium neck, and short neck. Shortage of food and competition made
the short and medium neck giraffes disappear, while the giraffes with long
necks survived.
Glossary of Terms
Adaptation ability of an organism to adjust and thrive in a
given environment.
Analogous structures structures in different organisms that are similar
in function but different in origin
Convergent evolution an increase in similarities among species derived
from different ancestors as a result of similar
adaptation to similar environment
Divergent evolution an increase in the difference among descendants
of a single ancestral species as time passes
Evolution species change over time
Fitness ability to survive and produce offsprings
Fossils remains of once living things, fossil remains
include bones, shells, teeth and also feces
Gene a segment of DNA or RNA that codes for protein
or RNA, a molecular unit of hereditary trait

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Homologous structures parts of different organisms that are similar in
structure but serve different functions
Reproduction the process by which an organism produces
offspring and thus perpetuate the species
Variation differences in traits of organisms in a population
Printed Materials:
Alexander, P. Bahret, MJ, Charles, J.,Chaves,J.,Courts,G.,D’Allessio,NS.,
Biology The Living World, Prentice hall New Jersey. 1989.
Biology,Science and Technology Textbook, Department of Education, 1990.
Brittain, TM., Biology: The Living World Laboratory Manual, New Jersey, USA:
Prentice Hall Englewood Cliffs.1989.
Campbell, NA., Williamson, B.,Heyden, RJ., Biology: Exploring New Life, New
Jersey USA: Pearson Education Inc. 2004.
Capco, CM. Phoenix Science Series: Biology Quezon City Philippines:
Phoenix Publishing House. 2003.
Carale LR., Galvez, ER. Risa,L. Biology Science and Technology for Better
Life, Gil Puyat Ave., Makati City Philippines: Basic Media System Inc.
1989.
Delos Reyes, J. Introductory Biology, University of the Philippines, Manila:
IPPAO. 1995.
Kent, M, Advance Biology, Great Claredon St. Oxford USA: Oxford University
Press 2000.
Mader, SS. Biology , USA: WM C. Brown Publishing. 1985.
Meyer, DE. Biological Science a Molecular Approach , Boulder, Colorado,
USA Biological, Science Curriculum Study . 1980.

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Olivares, M., Bermio, E., Cruz J., Science and Technology for the Modern
World; SEMP II Diwa Scholastic Press Inc. 2003.
Payawal, PC., Lannu, A., Lucia S.D., Sangalang, MF., Soligam, AC., Cadiz,
NM., Torreta, NK., Biology: Study and Review Guide, Greenhills San
Juan, Phil: Academe Publishing House 1993.
Rabago, LM., Joaquin, CC.,Lagunzad, CG. Functional Biology, Vibal
Publishing 2010.
Reading Essentials for Biology, Teacher Annotated Edition, Glencoe science,
McGraw Hill, New York.USA.
Electronic Sources:
http.www.earth history.org.uk
http.www.albertawow.com
http.www.napedu/catalog.php?recor id+13165
http// petrified wood museum.org/imprints.htm
http://serendip.brynmawr.edu/waldron/#evolution
Poole, Lynne Carbon -14. www.chem.uwec.edu
pixgood.com
pixshark.com
background-kid.com

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I. Introduction
In Module 3, you have learned how evolution through natural selection
can result in biodiversity.
In this module, you will learn how biodiversity can influence the stability
of an ecosystem, the relationship between population growth and carrying
capacity of a specific environment. You will become aware of the different human
activities that have a negative impact on the environment and propose projects
(e.g., Clean and Green Project, Sagip Ilog, War on Waste, Urban Gardening,
Adopt a River, etc.) that will help protect and conserve the biodiversity you have
in your community.
Biodiversity describes how varied are life forms in different ecosystems.
The Philippines is known for its very rich biodiversity. According to an article
published in the Department of Environment and Natural Resources (DENR)
2014 website, “The country has more than 52,177 described species of which
more than half is found nowhere else in the world.” On a per unit area basis,
the Philippines probably harbors more diversity of life than any other country
on the planet. But our country is also considered as a biodiversity hotspot.
This is because our country is continuously experiencing an alarming rate of
environmental destruction like damage of coral reefs, forests and other similar
important resources. Do you know how important biodiversity is? You will find
out as you go through this module.
What are expected for you to learn?
1. How diversity of species increases the probability of adaptation and
survival of organisms in a changing environment.
2. The relationship between population growth and carrying capacity.
3. The limiting factors that affect population growth.
4. Ways to minimize human impact on the environment.
ECOSYSTEM:
BIODIVERSITY
Unit 3
MODULE
4
Suggested Time Allotment: 10-11 hrs.
Unit 3
Module
4

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III. Pre-Assessment
Directions: Fill in the table below to assess your prior knowledge about
biodiversity and stability, and identify the skills needed in accomplishing the
learning tasks in this module.
K W H L
What do I know?
What do I want to
find out?
How can I find
out what I want to
learn?
What did I
learn?
Skills I expect to
use:
Biodiversity and Stability
Biodiversity is a term that describes how varied living things are in a
specific area. How many kinds of living things can be found in your community?
Think about a place in your community; try to identify organisms that can be
found in your locality and are valuable to your life. Why do you consider those
organisms important to you?
Organisms are part of biodiversity and may be economically and
ecologically valuable. Their products are source of food, medicine, clothing,
shelter, and energy. These organisms are also important in maintaining balance
in the ecosystem as they performing their specific roles. Some species maintain
the quality of natural bodies of water; some prevent soil erosion and floods,
cycle minerals in the soil and absorb pollutants. Others feed on insects and
pests which control the population of organisms in a certain environment, thus
making the ecosystem balance and stable.
How does biodiversity affect the stability of an ecosystem?
What are the limiting factors that affect population growth?
How does population growth affect the carrying capacity of an ecosystem?
How do human activities affect the environment?
What can you do to protect and conserve biodiversity in your community?

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The value of species can be divided into various categories:
1. Direct economic value
The species is considered to have direct economic value if their products
are sources of food, medicine, clothing, shelter, and energy. For example,
some medicines being used nowadays have formulations extracted from
plants or animals. Vinblastine and vincristine are two chemicals that
have been extracted from rosy periwinkle (tsitsirika in Tagalog) and are
used in chemotherapy for Hodgkin’s disease and some form of cancer,
including lymphocytic leukemia. Another common plant, Vitex negundo
(lagundi) is extracted for cough syrup production.
2. Indirect economic value
A species has an indirect economic value if there are benefits produced
by the organism without using them. For example, certain species
maintain the chemical quality of natural bodies of water, prevent soil
erosion and floods, cycle materials in the soil, and absorb pollutants.
3. Aesthetic value
A lot of species provides visual or artistic enjoyment, like a forested
landscape and the calming beauty of a natural park; or they may be
used for spiritual meditation like the Prayer Mountains.
Now it’s your turn to classify the value of biodiversity in an ecosystem. This
will let you appreciate more the importance of the living things found in your
community. Then try to think about how you can help conserve them.
Activity 1
Classifying the Value of Biodiversity*
As a group, you are going to visit a specific area or ecosystem designated
by your teacher. You will list down the organisms found in that area and describe
the value of the organism. Then you will classify the value by putting a happy
face () on the space under the correct column.

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Table 1. Organisms and their value
Organism Value
Direct
economic
value
Indirect
economic
value
Aesthetic
value
Example:
Trees
• Freshen the air 
• Provide shade 
• Source of lumber 
*(Adapted from DepEd Science and Technology Biology textbook, pages 326-327)
Biodiversity is very important because it sustains through flow of energy
the food web on earth and contributes to environmental stability. Stability of an
ecosystem can be described as the resilience to withstand changes that may
occur in the environment. There are many changes that occur in the environment
which may be a result of natural or human activities. These changes may
severely reduce biodiversity and result to the instability of the ecosystem.
Now that you appreciated the importance of biodiversity, try to examine
how the population of organisms in an ecosystem affects biodiversity.
The Ups and Downs of Population Growth
A population is a group of organisms of the same species that live in
a certain area. Ecologists regularly monitor the number of organisms in many
populations, but why do they do this? Why should we care if the number of
organisms in an area is increasing or decreasing? Well, populations that are
growing or diminishing can be indicators of potential problems in the organisms’
environment, and such conditions alarm the ecologists if something is going
wrong. But it is not enough to simply know if the number of organisms in an
area is increasing or decreasing; ecologists need to know why the number
of organisms is decreasing. So, one of the main questions ecologists ask
themselves is this: Why is a population’s size increasing or decreasing?
There are many factors that can cause a population’s size to change.
But first, you must understand the basic reasons behind why a population
increases or decreases. Any population, whether it be that of humans, animals,
the mold growing on bread, or the bacteria living in your intestines, will grow
if more organisms are being developed (Genetically modified organisms), or
born, than are dying. The number of births in a population is called the birth
rate (natality). The number of organisms that are dying in a population is called

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the death rate (mortality). Thus, if the birth rate is greater than the death rate,
a population will grow. If the death rate is greater than the birth rate, then the
population will decrease.
(Adapted from the activity on ecosystem created by Terie Engelbrecht)
Source: http://www.crazyteacherlady.com/uploads/5/1/4/8/5148626/objective_2_activities_
pop_growth.pdf
Think about this!
1. The human population is currently growing at an exponential rate. How
can this be explained in terms of birth and death rates?
2. The monkey-eating eagle (Pithecophaga jefferyi) is considered an
endangered species. What does this mean in terms of the birth and the
death rate of monkey-eating eagles?
While populations would probably
to continue to grow in size, a population
of organisms cannot grow forever—its
growth will be limited, or stopped, at
some point, and the death rate will be
greater than the birth rate. A population’s
growth is limited by two general factors:
density-independent factors and density-
dependent factors.
To understand why scientists
named these factors in the way they did,
you must first understand the concept of
population density. Population density
refers to the number of organisms per
unit area. If a population’s density is very high, that means there are a lot of
organisms crowded into a certain area. If a population’s density is low, that
means there are very few organisms in an area.
A factor that regulates a population’s growth and is influenced by
population density, is called density-dependent limiting factor. If the population’s
density does not directly influence changes in population’s growth, then it is
called a density-independent limiting factor.
Figure 1. Sample Population Density of
people in a certain community
Manila Bay

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Density-independent limiting factors that can stop a population from
growing can be such things as natural disasters, temperature, sunlight, and
the activities of humans in the environment. Natural disasters such as tropical
cyclones, floods, earthquakes and fires will stop a population from growing
no matter how many organisms are living in a certain area. The same goes
for the temperature of an area and the amount of sunlight it receives. If the
temperature increases due to global warming, this will cause a decrease in a
population’s numbers, no matter how large or small the population was to begin
with. Human activities that alter the environment will also decrease the number
of organisms in a population, regardless of the size of a population.
Density-dependent limiting factors come into play when a population
reachesacertainnumberoforganisms.Forexample,whenapopulationreaches
a certain size, there won’t be enough resources (food, shelter, water) for all of
the organisms. This could cause the population to stop growing when it reaches
the maximum number of organisms that can be supported, or “carried,” by the
environment. This number is known as the population’s carrying capacity in a
particular environment. Each population of organisms has a different carrying
capacity, depending on the amount of resources available in the area in which
it lives.
Below is a graph of a habitat where a goat population has reached its carrying
capacity:
Q1. What is the carrying capacity?
___________________________________
Why? ______________________________
___________________________________
Q2. What have you noticed with the
population of goat between mid-May and
mid-June? __________________________
___________________________________
___________________________________

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Before a population reaches its carrying capacity, it experiences a period
of rapid growth. This period of growth is called exponential population growth.
During this period, there are plenty of resources available for all organisms, so
more births are recorded than deaths in organisms.
Source: http://cnx.org/content/m47780/1.1/
Think about this!
3. Fill in the differences of the terms in the chart below:
Density-dependent limiting factor Density-independent limiting factor
Logistic population growth Exponential population growth
4. The human population is growing at an exponential rate. Since you have
learned that population cannot grow infinitely, what do you think will
happen if the human population reaches its carrying capacity? _______
________________________________________________________
When resources are unlimited, populations exhibit exponential growth, resulting in
a J-shaped curve. When resources are limited, populations exhibit logistic growth.
In logistic growth, population expansion decreases as resources become scarce,
and it levels off when the carrying capacity of the environment is reached, resulting
in a S-shaped curve.

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Limiting Factors that depend on population density
1. Diseases and parasites – Infectious diseases and parasites spread faster in
densely populated areas.
2. Competition for
resources - Organism
with better adaptations
to obtain (food)
resources will be
able to reproduce
more often, and its
population will grow.
The organisms that
have limited abilities
to compete for the
resources will not
reproduce as often,
may not be fit enough
to live long, and can
cause their population
to decrease.
3. Predation - plenty of prey are available, predators will be able to eat
sufficiently, thus have energy to reproduce much, and increase their
numbers. The population of their prey will begin to decrease as more and
more of them are eaten. However, the predator population will eventually
reach carrying capacity—there will not be enough prey for all of the predators
in the population, since the predators themselves compete for their “prey”
resource. As the number of prey decreases, so will the number of predators,
because there is not enough food to sustain them.
4. Emigration - Emigration occurs when, as a population approaches its
carrying capacity, and individual organisms leave and go to a new area
where they can find enough resources for survival and reproduction. This
will obviously cause a decrease in the amount of organisms in a population.
Figure 2. Diagram of Limiting Factors

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Activity 2
Dependent or independent?
1. Read each situation in the table below, then state if it is a density-
independent limiting factor or a density-dependent limiting factor.
Indicate the specific limiting factor that is occurring.
Situation
Density-
independent
or density-
dependent?
Limiting
factor
Mrs. Rosales has 55 students in her
biology class, but she has room for
50. Because the room was crowded,
the 5 students were asked to go to the
curriculum chairperson to change their
schedule.
Dinoflagellates in Laguna de Bay increase
in population due to increase in organic
substance in the body of water brought by
water pollution.
The oil spill in Cavite area harmed many
aquatic organisms in the vicinity.
A new strain of Dengue virus breaks out
in the country.
Super typhoon Yolanda caused many
residents to leave Leyte.
Population of wild boar decreases
because of deforestation.
An increase in population of house lizard
in Barangay Himpot causes a decrease in
population of mosquito.
2. Cause and Effect
Read the causes on the left side of the chart then predict and write the
effect on the right side of the table.
Cause Effect
Statistics show that the number of babies
born per day doubles the number of death
per day.
Palawangovernmentcreatesmoreimprovised
breeding areas for the endangered marine
turtle and coral reef fishes in their area.
Sharks are hunted and killed for their fins.

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You have learned how a certain activity or phenomena affects the
environment; now, try to think of possible solutions to some of the pressing
environmental concerns in our country.
Environmental Problems and Issues

The Philippines is considered as one of the biologically richest country
in the world because of its high biodiversity at various levels. Our country has
both aquatic and terrestrial ecosystems, and also a high degree of endemism,
meaning high numbers of native species of flora and fauna are found only in
tropical communities.
We have all these rich natural biological resources but we have not truly
protected them. We are losing this global heritage due to habitat destruction,
overuse and pollution. As our forests are destroyed at a fast rate, the natural
habitats which are dwelling places of plant and animal species are also lost.
Our coral reefs, where the fishes lay eggs, are badly damaged by destructive
fishing methods such as muro-ami, dynamite and fine nets in fishing. In addition,
people hunt animals, collect plants, and sell corals and exotic animals for
livelihood, and other activities that cause the population of these organisms to
decrease at a faster rate. Hence, in view of these harmful human activities, our
country is also noted in the world as a hot spot for conservation and protection
of species.
The rate of development in some parts of the country is extraordinary.
The natural landscape has been changed by tall buildings, establishments,
housing projects, expressways, railway systems and overpasses. Other
reclaimed areas have been converted into industrial structures and techno
parks.
Figure 3. Forested area converted into housing

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You may observe similar changes taking place in your community. How
do these changes in the community might affect biodiversity in your locality?
For you to provide a good solution you need to analyze these problems.
To do that you have to perform the following activities.
Activity 3
Analyzing Environmental Issues
(Adapted from DepEd Science and Technology Biology Textbook page 345)
Directions: Analyze the problems depicted in the pictures that follow. What
effects do these problems create on the ecosystem? What causes these
problems?
Problem 1. Farmlands are converted into housing projects

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Problem 3. Forested area is converted into technopark.
Problem 2. River ecosystem dumped with garbage from illegal settlers
and toxic wastes from industries.

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You have learned in the previous activity that human activities have
impacts on the environment that may have negative or positive result to
economic and social attributes of the community.
The next activity will guide you in determining the status of biodiversity
in your area and identifying its effect on the economy, environment and social
aspects in the locality. Try to think of a possible project proposal that will help
conserve or improve this status and lessen the negative impact on the society.
Activity 4
Biodiversity Status in the Community
You need to gather data about the status of biodiversity, population density,
and carrying capacity of your locality to determine the effects of these concerns
on the economic, environment and social aspects of your community.
A. Use the guide questions below to plan out how you will accomplish this task.
Guide Questions:
1. What will be the task of each member of your group? ___________________
_____________________________________________________________
_______________________________________________
2. What are the possible questions that you will ask in your survey/interview? __
_____________________________________________________________
_____________________________________________________________
____________________________________________
3. Who are your target respondents for your survey/interview? ______________
___________________________________________________
4. How will you organize the data that you gathered? ______________________
___________________________________________________
5. What are the possible ways that your group can do beyond class hours to
complete your learning tasks? _____________________________________
_________________________________________________
Take home task: Conduct a survey or interview at the local Department of
Environment and Natural Resources Office (DENR).

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B. Analyzing local biodiversity status
Complete the table below based on the data gathered from the survey or
interview.
Status
of Local
Biodiversity
Threats
Faced
by Local
Biodiversity
Local
Conservation
Efforts
Gaps
Proposed
Possible
Strategies
Activity 5
Product Creation
Now that you are done with the analysis and plan on how to conserve
and protect your local biodiversity, you will produce materials that support the
strategies and programs in its conservation and protection. During the creation
of your product, you will undergo the cycles of creations: planning, doing
reviewing and sharing to ensure quality in your output.
Planning
After learning about the project or ideas, you will be asked to select one
project to work on with a group of three to five students. Before beginning with
your project, you must first write a project plan and get it approved by your
teacher.
Questions to consider:
1. How has your community changed since the time you have lived
there?
2. What important issue is your community facing with regards to
conservation and protection of local biodiversity? Why is the
issue considered a problem or challenge in conserving the local
biodiversity?

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Planning for your presentation
Work with your group to plan for your presentation. Discuss your answers to
the following guide questions. Write your ideas on a sheet of paper.
1. Review the description of the project you will be working on and
rewrite the challenges in your own words. Discuss the questions you
need to consider.
2. What are the big ideas that you will address in your presentation?
Which ones will you need to research and explore further?
3. How will you begin your presentation? What information do you think
should your presentation contain? How do you want your presentation
to end?
4. What smaller activities might you include as part of your presentation?
5. How will you entertain your audience? Will you have printed materials
for them? Will some of your members act, sing, or dance?
6. Who among your group members will work on specific tasks?
7. How long would it take for each member to complete his/her assigned
task? Which task/part should be completed first? Which should come
last?
3. What other information will you need to find out about this issue?
Where will you find this information?
4. How is your community likely to change in the next few years?
5. What can people do in the community do to help protect and conserve
the local biodiversity?
6. How can you encourage them to participate in this project?
7. What materials do you need for this project?

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Review your presentation plan. Use a rubric as guide and present it to
your teacher.
Doing
Now that your group has put together the plan that has been approved
by your teacher, you can now start working on your presentation. Remember
that you only have few class sessions to complete your work, so it is important
that you use your time wisely.
Before you begin your work, meet as a group and review the steps
below.
1. Read and check your approved plan. Be sure that everyone knows
what task to accomplish.
2. Complete the required research. Use available resources including
the data gathered from the survey or interview.
3. Check on your progress using the progress checklist provided by
your teacher.
Reviewing
Towards the end of the class session, you should review the work you
have completed and consider the following questions:
1. From the information that you gathered, which do you think is not
necessary? What other information do you need?
2. How does each completed task help make your big ideas clear?
3. What could be done to make the different parts look like they belong
in the same presentation?
4. Make any desired changes. Remember to acknowledge or appreciate
the task done by each member of the group.
5. Practice your presentation.
6. As you practice, make sure you take note of all the possible questions
that your audience may ask you. Come up with the possible answers
in advance.

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Activity 6
Showcasing of Products
Your group will give a final presentation to an audience including invited
members of the community, parents, teachers and classmates.
In addition, you will watch and listen to other groups’ presentation.
A. Review the steps below:
1. When it is your turn to share, remember to speak slowly and clearly so
people can understand what you are saying. When you are finished,
allow members of the audience to ask questions.
2. As other groups give their presentations, watch and listen quietly, pay
attention to the information they are sharing. Think about the things you
like about the presentation, as well as any questions you may wish to
ask later.
• Biodiversity benefits people in many ways. It can be of economic,
ecological or aesthetic value.
• Greater biodiversity promotes a more stable ecosystem.
• The more recent loss of biodiversity has been attributed primarily to
human activities such as overfishing, overhunting, and loss of habitat.
• Population growth gives us an idea on how fast a population changes
over time.
• Population growth can be affected by density-dependent or density-
independent limiting factors.
• Changes in the habitat may cause an increase or decrease in biodiversity.
• Humans are obliged to take responsibility in maintaining a clean and
healthy state of the ecosystem.

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Directions: Answer the following questions.
A. How should each of the ecosystems below be used to conserve its
resources? Explain your choice.
1. Coral reef
a. Promote it as an ecotourism destination
b. Collect coral fishes and sell them to pet shops.
c. Collect corals as souvenir items for tourists.
2. Hilly land
a. Convert it into an industrial area
b. Build a community where houses are built among the trees.
c. Turn it into a jogging area
3. Rainforest
a. Cut the trees into logs and make timber.
b. Get only minor forest products.
c. Advertise it as a camping site.
4. Cocolisap infestation outbreak has been declared in some parts
of the Philippines. The cocolisap feeds on the sap of the coconut
tree and injects toxic enzymes, resulting in discolored leaves and
deformed plant tissues that retard its growth of coconut tree. This,
results in a decrease of the survival rate of coconut trees. Which
of the following factors limit the population of coconut trees?
a. diseases and parasites
b. emigration
c. predation
d. competition for resources
5. Davao is known for its wide variety of fruits and other plant species
that makes it more attractive to tourists. Which of the following
classification of value of biodiversity is described?
a. Direct economic value
b. Indirect economic value
c. Ethical/cultural
d. both a and c

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6. What type of population growth is shown in the graph:
a. normal growth
b. exponential growth
c. logistic growth
d. none of the above
For question no. 7-8 study the graph below.
7. What can you infer about the graph?
a. The graph shows that an increase in population of the protist P. aurelia
causes a decrease in the population of P. caudatum when they are
grown together.
b. The graph is an example of a density-dependent limiting factor.
c. The graph is an example of a density-independent limiting factor.
d. The population of P. caudatum decreases while the population of P.
aurelia increases when they are grown together.
8. Which of the two protists is better adapted to competition?
a. P. aurelia c. P. caudatum
b. Both of them d. None of them
9. Which of the following causes a decreasing wildlife population in most of
the places in our country?
a. loss of limiting factor c. loss of habitat
b. loss of natural disturbances d. loss of carrying capacity
10. Aperson breeds guinea pigs in a cage.After a few generation, the breeder
observes that the guinea pigs are more aggressive towards each other,
the young are less healthy and more young guinea pigs die. What do
you think will happen to the population of the guinea pigs?
a. The population will remain the same.
b. The population will increase.
c. The population will decrease.
d. The population is not affected.

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Glossary of Terms
Biodiversity the variety of life forms in a particular ecosystem
Carrying capacity the maximum number of organisms that an
environment can support
Ecosystem a community of organisms that live, feed and interact
with the environment
Exponential growth a constant increase in the number of population
Limiting factors factors that control the growth of a population
Logistic growth a population growth in which the growth rate
decreases with increasing number of organisms,
until it becomes zero when the population reaches
its carrying capacity
Population the total number of organisms belonging to the same
species in a particular environment
Population density the measurement of population per unit area
Stability the ability of an ecosystem to be self-regulating, and
again become steady after a disturbance
Printed Materials:
Dispezio, M.,Luebe, M, et al. (1996). Diversity and Adaptation. In Science
Insights Exploring Living Things (p. 139). United States of America:
Addison-Wesley Publishing Company.
Department of Education Republic of the Philippines (2009). Importance of
Biodiversity, Environmental Issues, problems and Solutions. In Biology
Textbook (pp. 326-327; 344-346). Mandaluyong City, Philippines: Book
Media Press Inc.
Glencoe (2000). Ecology. In Biology The Dynamics of Life (p. 94; 114). USA:
McGraw-Hill Companies.
Rabago, L. (2010). Philippine as Megadiversity Country. In Functional Biology
(2nd ed., pp. 409-410). Quezon City, Philippines: Vibal Publishing
House Inc.

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Electronic Sources:
http://www.conservation.org/global/philippines/publications/Documents/
Mapping_Population-Biodiversity_Connections.pdf
Activate Instruction (2011, January 11). Study Guide: Population Dynamics |
Carrying Capacity | Activate Instruction. Retrieved March 5, 2014, from
https://app.activateinstruction.org/playlist/resource-sview/
rid/51ef03ce07121c75158c76f0/id/51ed742a07121cad4fe66a3c/bc0/
search/bc1/playlist
Daily, G., & Ehrlrich, P. (1992, November). Population, Sustainability, and
Earth’s Carrying Capacity A framework for estimating population
sizes and lifestyles that could be sustained without undermining
future generations, by Gretchen C. Daily and Paul R. Ehrlich.
Retrieved March 6, 2014, from http://dieoff.org/page112.htm
DENR (n.d.). Biodiversity Resources. Retrieved March 1, 2014, from
www.denr.gov.ph/index.php/component/content/article/18.html
Elbrecht, T. (2010). ECOLOGY UNIT: POPULATION GROWTH.
Retrieved February 28, 2014, from
http://www.crazyteacherlady.com/uploads/5/1/4/8/5148626/objective_2_
activities_pop_growth.pdf
Philippine Clearing House Mechanism for Biodiversity (n.d.). Overview on
Biological Diversity. Retrieved February 28, 2014, from
http://www.chm.ph/index.php?option=com_
content&view=article&id=55&Itemid=55
Skoool.co.uk/ Intel (2004). Population size. Retrieved March 4, 2014, from
http://www.skoool.co.uk/content/keystage3/biology/pc/learningsteps/FSPLC/
LO_Template.swf
Teachers try science (2012, January 30). Dynamic Population Dynamics.
Retrieved February 28, 2014, from
http://www.teacherstryscience.org/lp/dynamic-population-dynamics
http://cnx.org/content/m47780/1.1./

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