INDEX
INDEX

-Importance of transport systems
-Importance of transport systems
-open circulatory system
-closed circulatory system
-circulation in plants
-open circulatory system
-closed circulatory system
-circulation in plants * Types of transport systems

* Types of transport systems

* What is a transport system? * What is a transport system?

What is a transport system?
What is a transport system?

* Not all individual cells require all of the many different types of materials carried by a transport system. For example, the blood circulation system in humans carries various substances including some hormones that have target organs. Although they are carried around the whole body via the blood system, those specific molecules are only received by and useful to specific types of cells located in the target organ of that particular hormone
* Not all individual cells require all of the many different types of materials carried by a transport system. For example, the blood circulation system in humans carries various substances including some hormones that have target organs. Although they are carried around the whole body via the blood system, those specific molecules are only received by and useful to specific types of cells located in the target organ of that particular hormone
Multiple exchange surfaces?
Although gas exchange surfaces are important due to the need for respiration, they are not the only types of exchange surfaces. Another example in humans is the wall of the small intestine where digested (food) material is transported into the blood stream for distribution to cells throughout the body.
Multiple exchange surfaces?
Although gas exchange surfaces are important due to the need for respiration, they are not the only types of exchange surfaces. Another example in humans is the wall of the small intestine where digested (food) material is transported into the blood stream for distribution to cells throughout the body.
Simple definition of a transport system in biology:
A transport system is a means by which materials are moved (‘transported’) from an exchange surface or surfaces to cells located throughout the organism

Simple definition of a transport system in biology:
A transport system is a means by which materials are moved (‘transported’) from an exchange surface or surfaces to cells located throughout the organism

Organisms need to be able to move materials (such as respiratory gases, nutrients, waste products and heat) both into and out of, and within, themselves.
Organisms need to be able to move materials (such as respiratory gases, nutrients, waste products and heat) both into and out of, and within, themselves.

Open circulatory system
Open circulatory system
Types of transport systems
Types of transport systems

What is the open circulatory system?
Open circulatory systems are the more basic type of circulatory system and are referred to as open because the blood is not contained within an enclosed circuit of vessels. Instead, the blood flows from the heart through open-ended vessels and when the blood reaches the end of the vessels it flows directly over the tissues. While the tissues are bathed in blood gas exchange occurs. The blood then freely flows back into vessels that direct the blood back to the heart. Overall, you could describe an open circulatory system as being more free flowing and passive. There are many organisms that have open circulatory systems, including grasshoppers, snails and clams.
What is the open circulatory system?
Open circulatory systems are the more basic type of circulatory system and are referred to as open because the blood is not contained within an enclosed circuit of vessels. Instead, the blood flows from the heart through open-ended vessels and when the blood reaches the end of the vessels it flows directly over the tissues. While the tissues are bathed in blood gas exchange occurs. The blood then freely flows back into vessels that direct the blood back to the heart. Overall, you could describe an open circulatory system as being more free flowing and passive. There are many organisms that have open circulatory systems, including grasshoppers, snails and clams.

What is a closed circulatory system? a closed circulatory system is more structured and controlled and the blood of a closed system always flows inside vessels. . These vessels make up the plumbing circuit of the body and can be found throughout the entire body. This plumbing circuit can be broken down into three different types of vessels or tubes that transport blood throughout the body: arteries, capillaries, and veins. The first type of vessel is the arteries, which are responsible for moving blood away from your heart and to your tissues. When the blood gets to the tissues it is contained within capillaries, which are very small vessels with thin walls. These thin walls make it possible for gas and waste exchange to occur between your blood and your tissues. The blood then leaves the capillaries and goes into the veins which bring the blood back to your heart. humans have a closed circulatory system, but we share this type of system with such animals as birds, cats, frogs and earthworms.
What is a closed circulatory system? a closed circulatory system is more structured and controlled and the blood of a closed system always flows inside vessels. . These vessels make up the plumbing circuit of the body and can be found throughout the entire body. This plumbing circuit can be broken down into three different types of vessels or tubes that transport blood throughout the body: arteries, capillaries, and veins. The first type of vessel is the arteries, which are responsible for moving blood away from your heart and to your tissues. When the blood gets to the tissues it is contained within capillaries, which are very small vessels with thin walls. These thin walls make it possible for gas and waste exchange to occur between your blood and your tissues. The blood then leaves the capillaries and goes into the veins which bring the blood back to your heart. humans have a closed circulatory system, but we share this type of system with such animals as birds, cats, frogs and earthworms.

Closed circulatory system
Closed circulatory system
Types of transport systems
Types of transport systems

Transportation in plants
Transport systems are found in the vascular plants. Vascular networks provide intercellular communication in terrestrial plants. The systems consist of tube-like connective tissues organized into xylem and phloem. Xylem transports water and minerals in the plants, while phloem transports food materials and hormones.

Transportation in plants
Transport systems are found in the vascular plants. Vascular networks provide intercellular communication in terrestrial plants. The systems consist of tube-like connective tissues organized into xylem and phloem. Xylem transports water and minerals in the plants, while phloem transports food materials and hormones.

In plants
In plants

Types of transport systems
Types of transport systems

Importance of transport systems
Importance of transport systems
Open circulatory system
Open circulatory system

Every cell of the body is, at maximum, only two or three cells’ distance from a capillary. There is the ability for such animals to have incredible control over oxygen delivery to tissues. A unique characteristic to closed circulatory systems is that capability for a closed circulation to include the process of ultrafiltration in blood circulation. Since the lymphatic system is included as part of the circulatory system because of its circulation of excess fluid and large molecules, it decreases the pressure in tissues that extra fluid increases. One of the most important advantages of the setup of the closed circulatory system is that the systemic and pulmonary branches of the system can maintain their respective pressures. Every cell of the body is, at maximum, only two or three cells’ distance from a capillary. There is the ability for such animals to have incredible control over oxygen delivery to tissues. A unique characteristic to closed circulatory systems is that capability for a closed circulation to include the process of ultrafiltration in blood circulation. Since the lymphatic system is included as part of the circulatory system because of its circulation of excess fluid and large molecules, it decreases the pressure in tissues that extra fluid increases. One of the most important advantages of the setup of the closed circulatory system is that the systemic and pulmonary branches of the system can maintain their respective pressures.
Many insects have a tracheal system that brings oxygen into their bodies through a series of tubes. This means they have less energetic demand on their body since their oxygen system and circulatory system are separated. Think of how many times you breathe in a minute. The act of breathing brings oxygen into your body and gets rid of carbon dioxide. Now think about the number of cells in your body that have to carry those gases to your organs and muscles?. that's a lot of work! they can't create a blood pressure. In mammals, our blood pressure is due to the pumping of our heart (remember, our blood is separated from our interstitial fluid!) Organisms which use an open circulatory system don't have a 'true' heart! Instead, they utilize blood vessels which act as pumps to move hemolymph around their body.
Many insects have a tracheal system that brings oxygen into their bodies through a series of tubes. This means they have less energetic demand on their body since their oxygen system and circulatory system are separated. Think of how many times you breathe in a minute. The act of breathing brings oxygen into your body and gets rid of carbon dioxide. Now think about the number of cells in your body that have to carry those gases to your organs and muscles?. that's a lot of work! they can't create a blood pressure. In mammals, our blood pressure is due to the pumping of our heart (remember, our blood is separated from our interstitial fluid!) Organisms which use an open circulatory system don't have a 'true' heart! Instead, they utilize blood vessels which act as pumps to move hemolymph around their body. closed circulatory system closed circulatory system

Made by: niharika
Made by: niharika
Importance of transport systems in different organisms
Importance of transport systems in different organisms
BIOLOGY PROJECT:

BIOLOGY PROJECT: