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READ: Body Systems Continued

Site: MN Partnership for Collaborative Curriculum
Course: Biology (B)
Book: READ: Body Systems Continued
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Date: Monday, February 24, 2025, 1:23 AM

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READ: Body Systems Continued

Table of contents

1. Introduction

Introduction:

Each of the chapters of the book are set up as a single lesson. You may do them all in one setting, or break them up into individual sessions.


Review Questions can be found at the end of each section. These are for you to use as a review only. They do not need to be submitted to Mrs. Pace. They would be great study guide questions for the test next week though!


2. Integumentary System

The Integumentary System

Lesson Objectives

  • List the functions of skin.
  • Describe the structure of skin.
  • Describe the structure of hair and nails.
  • Identify two types of skin problems.
  • Describe two ways to take care of your skin.

Vocabulary

&\mathbf{dermis} & &\mathbf{epidermis} & &\mathbf{integumentary \ system} \\ &\mathbf{keratin} & &\mathbf{melanin'} & &\mathbf{oil \ gland} \\ &\mathbf{sunburn} & &\mathbf{sweat \ gland}

Your Skin and Homeostasis

Did you know that you see the largest organ in your body every day? You wash it, dry it, cover it up to stay warm or uncover it to cool off. In fact, you see it so often it is easy to forget the important role your skin plays in keeping you healthy.

Your skin is part of your integumentary system, which is the outer covering of your body. The integumentary system is made up of your skin, hair, and nails. Your integumentary system has many roles in homeostasis, including protection, the sense of touch, and controlling body temperature.


Skin acts as a barrier that stops water and other things, like soap and dirt, from getting into your body.


Functions of Skin

Your skin covers the entire outside of your body. Your skin is your body's largest organ, yet it is only about 2 millimeters thick. It has many important functions. The skin:

  • Provides a barrier. It keeps organisms that could harm the body out. It stops water from leaving the body, and stops water from getting into the body.
  • Controls body temperature. It does this by making sweat, a watery substance that cools the body when it evaporates.
  • Gathers information about your environment. Special nerve endings in your skin sense heat, pressure, cold and pain.
  • Helps the body get rid of some types of waste, which are removed in sweat.
  • Acts as a sun block. A chemical called melanin is made by certain skin cells when they are exposed to sunlight. Melanin blocks sun light from getting to deeper layers of skin cells, which are easily damaged by sunlight.

Structure of Skin

Your skin is always exposed to your external environment, so it gets cut, scratched, and worn down. You also naturally shed many skin cells every day. Your body replaces damaged or missing skin cells by growing more of them. Did you know that the layer of skin you can see is actually dead? The dead cells are filled with a tough, waterproof protein called keratin. As the dead cells are shed or removed from the upper layer, they are replaced by the skin cells below them.

As you can see, two different layers make up the skin — the epidermis and the dermis. A fatty layer, called subcutaneous tissue, lies under the dermis, but it is not part of your skin.


Skin is made up of two layers, the epidermis on top and the dermis below. The tissue below the dermis is called the hypodermis, but it is not part of the skin.


The color, thickness and texture of skin vary over the body. There are two general types of skin:

  1. Thin and hairy, which is the most common type on the body.
  2. Thick and hairless, which is found on parts of the body that experience a lot of contact with the environment, such as the palms of the hands or the soles of the feet.



Lesson Summary

  • Skin acts as a barrier that keeps particles and water out of the body.
  • The skin helps to cool the body in hot temperatures, and keep the body warm in cool temperatures.
  • Skin is made up of two layers, the epidermis and the dermis.

Review Questions

1. Identify two functions of skin.

2. How does the integumentary system help maintain homeostasis?

3. What are the two layers of the skin?

CK-12 Foundation, Biology. http://creativecommons.org/licenses/by-nc-sa/3.0/

3. Skeletal System

The Skeletal System

Lesson Objectives

  • Identify the main tissues and organs of the skeletal system.
  • List four functions of the skeletal system.
  • Describe three movable joints.
  • Identify two nutrients that are important for a healthy skeletal system.
  • Describe two skeletal system injuries.

Vocabulary

&\mathbf{ball \ and \ socket \ joint} & &\mathbf{bone \ marrow} & &\mathbf{cartilage} \\ &\mathbf{fracture } & &\mathbf{gliding \ joint} & &\mathbf{hinge \ joint} \\ &\mathbf{joint} & &\mathbf{ligament} & &\mathbf{movable \ joint} \\ &\mathbf{pivot \ joint} & &\mathbf{skeletal \ system} & &\mathbf{skeleton} \\ &\mathbf{sprain}

Your Skeleton

How important is your skeleton? Can you imagine your body without it? You would be a wobbly pile of muscle and internal organs, and you would not be able to move.

Your skeleton is important for many different things. Bones are the main organs of the skeletal system. They are made up of living tissue. Humans are vertebrates, which are animals that have a backbone. The sturdy set of bones and cartilage that is found inside vertebrates is called a skeleton.

The adult human skeleton has 206 bones, some of which are named in Figure below. Strangely, even though they are smaller, the skeletons of babies and children have many more bones and more cartilage than adults have. As a child grows, these “extra” bones grow into each other, and cartilage slowly hardens to become bone tissue.

Living bones are full of life. They contain many different types of tissues. Cartilage is found at the end of bones and is made of tough protein fibers called collagen. Cartilage creates smooth surfaces for the movement of bones that are next to each other, like the bones of the knee.

Ligaments are made of tough protein fibers and connect bones to each other. Your bones, cartilage, and ligaments make up your skeletal system.


The skeletal system is made up of bones, cartilage, and ligaments. The skeletal system has many important functions in your body.


Functions of Bones

Your skeletal system gives shape and form to your body, but it is also important in maintaining homeostasis. The main functions of the skeletal system include:

  • Support. The skeleton supports the body against the pull of gravity, meaning you don't fall over when you stand up. The large bones of the lower limbs support the rest of the body when standing.
  • Protection. The skeleton supports and protects the soft organs of the body. For example, the skull surrounds the brain to protect it from injury. The bones of the rib cage help protect the heart and lungs.
  • Movement. Bones work together with muscles to move the body.
  • Making blood cells. Blood cells are mostly made inside certain types of bones.
  • Storage. Bones store calcium. They contain more calcium than any other organ. Calcium is released by the bones when blood levels of calcium drop too low. The mineral phosphorus is also stored in bones.


Structure of Bones

Bones are organs. Recall that organs are made up of two or more types of tissues. Bones come in many different shapes and sizes, but they are all made of the same materials.

The two main types of bone tissue are compact bone and spongy bone.

  • Compact bone makes up the dense outer layer of bones.
  • Spongy bone is found at the center of the bone, and is lighter and less dense than compact bone.


Bones look tough, shiny, and white because they are covered by a layer called the periosteum. Many bones also contain a soft connective tissue called bone marrow. There are two types of bone marrow - red marrow and yellow marrow.

  • Red marrow makes red blood cells, platelets, and most of the white blood cells for the body (discussed in the Diseases and the Body’s Defenses chapter).
  • Yellow marrow makes white blood cells.


The bones of newborn babies contain only red marrow. As children get older, some of their red marrow is replaced by yellow marrow. In adults, red marrow is found mostly in the bones of the skull, the ribs, and pelvic bones.

Bones come in four main shapes. They can be long, short, flat, or irregular. Identifying a bone as long, short, flat, or irregular is based on the shape of the bone, not the size of the bone. For example, both small and large bones can be classified as long bones. The small bones in your fingers and the largest bone in your body, the femur, are all long bones. The structure of a long bone is shown in Figure below.


Bones are made up of different types of tissues.


Bone Growth

Your skeleton begins growing very early in development. After only eight weeks of growth from a fertilized egg, your skeleton has been formed by cartilage and other connective tissues.

At this point your skeleton is very flexible. After a few more weeks of growth, the cells that form hard bone begin growing in the cartilage, and your skeleton begins to harden. Not all of the cartilage, however, is replaced by bone. Cartilage remains in many places in your body, including your joints, your rib cage, your ears, and the tip of your nose.

A baby is born with zones of cartilage in its bones that allow growth of the bones. These areas, called growth plate, allow the bones to grow longer as the child grows. By the time the child reaches an age of about 18 to 25 years, all of the cartilage in the growth plate has been replaced by bone. This stops the bone from growing any longer.

Even though bones stop growing in length in early adulthood, they can continue to increase in thickness throughout life. This thickening occurs in response to strain from increased muscle activity and from weight-lifting exercises.


Lesson Summary

  • Bones, cartilage, and ligaments make up the skeletal system.
  • The skeleton supports the body against the pull of gravity.
  • The skeleton provides a framework that supports and protects the soft organs of the body.
  • Bones work together with muscles to move the body.
  • Blood cells are mostly made inside the bone marrow.

Review Questions

1. What are the main organs of the skeletal system?

2. Name one tissue of the skeletal system.

3. List four functions of the skeletal system.


CK-12 Foundation, Biology. http://creativecommons.org/licenses/by-nc-sa/3.0/


4. Digestive System

The Digestive System

Lesson Objectives

  • List the functions of the digestive system.
  • Explain the role of enzymes in digestion.
  • Describe the digestive organs and their functions.

Vocabulary

&\mathbf{absorption} & &\mathbf{chemical \ digestion} & &\mathbf{digestion} \\ &\mathbf{digestive \ system} & &\mathbf{duodenum} & &\mathbf{esophagus} \\ &\mathbf{food \ allergies} & &\mathbf{ileum} & &\mathbf{jejunum} \\ &\mathbf{large \ intestine} & &\mathbf{mechanical \ digestion} & &\mathbf{small \ intestine} \\ &\mathbf{stomach} & &\mathbf{villi}

What Does the Digestive System Do?

Nutrients in the foods you eat are needed by the cells of your body. How do the nutrients in foods get to your body cells? What organs and processes break down the foods and make the nutrients available to cells? The organs are those of the digestive system. The processes are digestion and absorption.

The digestive system is the body system that breaks down food and absorbs nutrients. It also gets rid of solid food waste. The main organs of the digestive system are shown in Figure below.


This drawing shows the major organs of the digestive system. Trace the path of food through the organs of the digestive system as you read about them in this lesson.


Digestion is the process of breaking down food into nutrients. There are two types of digestion, mechanical and chemical. In mechanical digestion, large chunks of food are broken down into small pieces. This is a physical process. In chemical digestion, large food molecules are broken down into small nutrient molecules. This is a chemical process.

Absorption is the process that allows substances you eat to be taken up by the blood. After food is broken down into small nutrient molecules, the molecules are absorbed by the blood. After absorption, the nutrient molecules travel in the bloodstream to cells throughout the body.

Some substances in food cannot be broken down into nutrients. They remain behind in the digestive system after the nutrients are absorbed. Any substances in food that cannot be digested and absorbed pass out of the body as solid waste. The process of passing solid food waste out of the body is called elimination.


Digestive Organs and Their Roles

The mouth and stomach are just two of the organs of the digestive system. Other digestive system organs are the esophagus, small intestine, and large intestine. From Figure 17.10 you can see that the digestive organs form a long tube. In adults, this tube is about 30 feet long! At one end of the tube is the mouth. At the other end is the anus. Food enters the mouth and then passes through the rest of the digestive system. Food waste leaves the body through the anus.

The organs of the digestive system are lined with muscles. The muscles contract, or tighten, to push food through the system. This is shown in Figure below. The muscles contract in waves. The waves pass through the digestive system like waves through a slinky. This movement of muscle contractions is called peristalsis. Without peristalsis, food would not be able to move through the digestive system. Peristalsis is an involuntary process, which means that it occurs without your conscious control.


This diagram shows how muscles push food through the digestive system. Muscle contractions travel through the system in waves, pushing the food ahead of them. This is called peristalsis.


The liver, gall bladder, and pancreas are also organs of the digestive system. They are shown in Figure below. Food does not pass through these three organs. However, these organs are important for digestion. They secrete or store enzymes or other chemicals that are needed to help digest food chemically.


This drawing shows the liver, gall bladder, and pancreas. These organs are part of the digestive system. Food does not pass through them, but they secrete substances needed for chemical digestion.


Mouth, Esophagus, and Stomach

The mouth is the first organ that food enters. But digestion may start even before you put the first bite of food into your mouth. Just seeing or smelling food can cause the release of saliva and digestive enzymes in your mouth.

Once you start eating, saliva wets the food, which makes it easier to break up and swallow. Digestive enzymes, including amylase, start breaking down starches into sugars. Your tongue helps mix the food with the saliva and enzymes.

Your teeth also help digest food. Your front teeth are sharp. They cut and tear food when you bite into it. Your back teeth are broad and flat. They grind food into smaller pieces when you chew. Chewing is part of mechanical digestion. Your tongue pushes the food to the back of your mouth so you can swallow it. When you swallow, the lump of chewed food passes down your throat to your esophagus.

The esophagus is a narrow tube that carries food from the throat to the stomach. Food moves through the esophagus because of peristalsis. At the lower end of the esophagus, a circular muscle controls the opening to the stomach. The muscle relaxes to let food pass into the stomach. Then the muscle contracts again to prevent food from passing back into the esophagus.

Some people think that gravity moves food through the esophagus. If that were true, food would move through the esophagus only when you are sitting or standing upright. In fact, because of peristalsis, food can move through the esophagus no matter what position you are in — even upside down! Just don’t try to swallow food when you upside down! You could choke if you try to swallow when you are not upright.

The stomach is a sac-like organ at the end of the esophagus. It has thick muscular walls. The muscles contract and relax. This moves the food around and helps break it into smaller pieces. Mixing the food around with the enzyme pepsin and other chemicals helps digest proteins.

Water, salt, and simple sugars can be absorbed into the blood from the stomach. Most other substances are broken down further in the small intestine before they are absorbed. The stomach stores food until the small intestine is ready to receive it. A circular muscle controls the opening between the stomach and small intestine. When the small intestine is empty, the muscle relaxes. This lets food pass from the stomach into the small intestine.

Small Intestine

The small intestine is narrow tube that starts at the stomach and ends at the large intestine (see Figure above). In adults, the small intestine is about 23 feet long. It is made up of three parts, the duodenum, the jejunum and the ileum.

  1. The duodenum is the first part of the small intestine. This is where most chemical digestion takes place. Many enzymes and other chemicals are secreted here.
  2. The jejunum is the second part of the small intestine. This is where most nutrients are absorbed into the blood. The jejunum is lined with tiny “fingers” called villi. A magnified picture of villi is shown in Figure below. Villi contain very tiny blood vessels. Nutrients are absorbed into the blood through these tiny vessels. There are millions of villi, so altogether there is a very large area for absorption to take place. In fact, villi make the inner surface area of the small intestine 1,000 times larger than it would be without them. The entire inner surface area of the small intestine is about as big as a basketball court!
  3. The ileum is the third part of the small intestine. Like the jejunum, the ileum is covered with villi. A few remaining nutrients are absorbed in the ileum. From the ileum, any remaining food waste passes into the large intestine.



This is what the villi lining the small intestine look like when magnified. Each one is actually only about 1 millimeter long. Villi are just barely visible with the unaided eye.


The small intestine is much longer than the large intestine. So why is it called “small”? If you compare the small and large intestines in Figure above, you will see why. The small intestine is smaller in width than the large intestine.

Large Intestine

The large intestine is a wide tube that connects the small intestine with the anus. In adults, it is about 5 feet long. Waste enters the large intestine from the small intestine in a liquid state. As the waste moves through the large intestine, excess water is absorbed from it. After the excess water is absorbed, the remaining solid waste is called feces.

Circular muscles control the anus. They relax to let the feces pass out of the body through the anus. After feces pass out of the body, they are called stool. Releasing the stool from the body is referred to as a bowel movement.

Liver

The liver has a wide range of functions, a few of which are:

  • Removing toxins from the blood.
  • Keeping glucose levels stable.
  • Creating proteins.
  • Producing biochemicals for digestion.


The liver is necessary for survival. You cannot live without a liver. The liver is one of the most important organs in the body when it comes to getting rid of toxins, especially from the gut. The liver filters blood from the intestine. This filtering process can remove microorganisms such as bacteria, fungi, viruses and parasites from the blood. Almost 2 quarts of blood pass through the liver every minute. Since the liver also ensures that glucose levels remain stable, people with liver problems are at risk for diabetes.


Lesson Summary

  • The digestive system breaks down food, absorbs nutrients, and gets rid of food wastes.
  • The main organs of the digestive system are the mouth, esophagus, stomach, small intestine, and large intestine.

Review Questions

1. What are three functions of the digestive system?

2. Describe the roles of the mouth in digestion.

3. In which organs of the digestive system does absorption of nutrients take place? |


CK-12 Foundation, Biology. http://creativecommons.org/licenses/by-nc-sa/3.0/

5. Excretory System

The Excretory System

Lesson Objectives

  • Identify the functions of the excretory system.
  • List the organs of the excretory system.
  • Describe the parts of urinary system.

Vocabulary

&\mathbf{excretion} & &\mathbf{excretory \ system} & &\mathbf{kidney} \\ &\mathbf{kidney \ dialysis} & &\mathbf{kidney \ failure} & &\mathbf{nephron} \\ &\mathbf{urinary \ bladder} & &\mathbf{urinary \ system} & &\mathbf{urinary \ tract \ infection \ (UTI)} \\ &\mathbf{urination} & &\mathbf{urine}

The Excretory System

One of the most important ways your body maintains homeostasis is by keeping the right amount of water and salts inside your body. If you have too much water in your body, your cells can swell and burst. If you have too little water in your body, your cells can shrivel up like an old apple. Either extreme can cause illness and death of cells, tissues, and organs. The organs of your excretory system help to keep the correct balance of water and salts within your body.

Your body also needs to remove the wastes that build up from cell activity and from digestion. These wastes include carbon dioxide, urea, and certain plant materials. If these wastes are not removed, your cells can stop working and you can get very sick. The excretory system can also help to release wastes from the body. Excretion is the process of removing wastes from the body.

The organs of the excretory system are also parts of other organ systems. For example, your lungs are part of the respiratory system. Your lungs remove carbon dioxide from your body, so they are also part of the excretory system. More organs of the excretory system are listed in Table below.

Organs of the Excretory System
Organ(s) Function Other Organ System of which it is Part
Lungs Remove carbon dioxide Respiratory system
Skin Sweat glands remove water, salts, and other wastes Integumentary system
Large intestine Removes solid waste and some water in the form of feces Digestive system
Kidneys Remove urea, salts, and excess water from the blood Urinary system

Table 19.4: Organs of the Excretory System

Functions of the Excretory System

The excretory system controls the levels of water and salts in your body by removing wastes. This means the excretory system has an important role in maintaining homeostasis. Your body takes nutrients from food and uses them for energy, growth, and repair. After your body has taken what it needs from the food, waste products are left behind in the blood and in the large intestine. These waste products need to be removed from the body. The kidneys work with the lungs, skin, and intestines to keep the correct balance of nutrients, salts and water in your body.

The Urinary System

Sometimes, the urinary system is called the excretory system. But the urinary system is only one part of the excretory system. Recall that the excretory system is made up of the skin, lungs, and large intestine as well as the kidneys. The urinary system is the organ system that makes, stores, and gets rid of urine. It includes:

  • Two kidneys.
  • Two ureters.
  • One bladder.
  • One urethra.


The urinary system is shown in Figure below.


The kidneys filter the blood that passes through them and the urinary bladder stores the urine until it is released from the body.


Organs of the Urinary System

  1. As you can see from Figure above, the kidneys are two bean-shaped organs. Kidneys filter and clean the blood and form urine. They are about the size of your fists and are found near the middle of the back, just below your rib cage.
  2. Ureters are tube-shaped and bring urine from the kidneys to the urinary bladder.
  3. The urinary bladder is a hollow and muscular organ. It is shaped a little like a balloon. It is the organ that collects urine.
  4. Urine leaves the body through the urethra.


Lesson Summary

  • The excretory system controls the chemical make-up of liquids found in the body.
  • The organs of the excretory system remove wastes. They also maintain the proper levels of water, salts, and nutrients in the body.
  • The lungs, skin, kidneys, and large intestine are all organs in the excretory system.
  • The urinary system is made up of the kidneys, the ureters, the bladder, and the urethra

Review Questions

1. What is the main function of the excretory system?

2. List the organs that make up the excretory system.

3. What is the purpose of the urinary bladder?

4. What connects the kidneys to the urinary bladder?

5. What is the difference between the urinary system and the excretory system?


CK-12 Foundation, Biology. http://creativecommons.org/licenses/by-nc-sa/3.0/