what is the ability of tissues in multicellular organisms
Answers
Answered by
3
I think Unitlity should come instead of ability
Answered by
3
Multicellular Organisms
Have you ever thought about what it means to be a multicellular organism? Probably not, but maybe that's because it seems like an obvious question. I mean, if an organism has more than one cell, it's multicellular. Case closed, right? Well, let's look at an example and see how easy it really is. If we have a colony of bacteria growing in a petri dish, do we define the colony as one multicellular organism, or billions of organisms living all piled on top of each other?
Let's start by defining an organism. An organism is defined as 'an individual living thing that is capable of responding to stimuli, growing, reproducing, and maintaining homeostasis.' Because each cell in the bacterial colony can perform all of these essential functions by itself, we define each cell as its own organism.
A key characteristic of multicellular organisms is specialization
By contrast, a multicellular organism is made up of many cells that are dependent on each other to perform these essential functions as a group. The cells have divided up the labor and each cell has become specialized to perform a specific task. This specialization is a key characteristic of multicellular organisms.
But why specialize? If a cell cannot perform all essential functions on its own, doesn't that limit what it can do? The answer to this question really depends on the level of organization that you're looking at, and there are several levels of organization within an organism. Starting at the cellular level, each cell has its own set of functions and requirements that it must carry out.
Organization of Organisms
Most cells form groups called tissues which are 'groups of cells that share a common structure and function within an organism.' Tissues are the next level of organization in an organism, and are often very specialized to perform only one or maybe a few very specific tasks. For instance, muscle tissue is specialized to contract, and that's about all that it does.
The next level of organization above tissues is organs. An organ is 'a structure composed of several different tissues that work together to perform a certain task.' The tissues within an organ work together to perform more complicated tasks than any one tissue is capable of. An example of an organ would be the heart. The heart is mostly muscle tissue, but it is also composed of connective tissue which provides structure for the heart, an epithelial layer that serves as a barrier to keep the blood contained in the chambers, and nervous tissue which regulates the heart rate. Together, these tissues perform the more complicated task of pumping blood.
But we're not done yet, there's another level of organization above organs and that is the organ system, which is 'a group of organs and tissues that work together to perform a major function of the organism.' Let's go back to our heart example. The heart is one organ within the circulatory system which is itself composed of the heart, blood vessels, and blood. The heart pumps blood, but the whole circulatory system working together circulates blood throughout the body.
And finally, the last level of organization, is the organism itself, which as a whole, is capable of all essential functions. So back to the question of whether or not specialized cells are more limited than single-celled organisms; at the cellular level, the specialized cell is limited to performing its specific task and is more limited than a single-celled organism. However, at the organismal level, specialization and division of labor opens up almost limitless possibilities for variation of structures, and it frees multicellular organisms from the limits of single-celled organisms in terms of size and complexity. In this set of lessons, we're going to talk about the anatomy and functions of animals, with a particular emphasis on humans.
Have you ever thought about what it means to be a multicellular organism? Probably not, but maybe that's because it seems like an obvious question. I mean, if an organism has more than one cell, it's multicellular. Case closed, right? Well, let's look at an example and see how easy it really is. If we have a colony of bacteria growing in a petri dish, do we define the colony as one multicellular organism, or billions of organisms living all piled on top of each other?
Let's start by defining an organism. An organism is defined as 'an individual living thing that is capable of responding to stimuli, growing, reproducing, and maintaining homeostasis.' Because each cell in the bacterial colony can perform all of these essential functions by itself, we define each cell as its own organism.
A key characteristic of multicellular organisms is specialization
By contrast, a multicellular organism is made up of many cells that are dependent on each other to perform these essential functions as a group. The cells have divided up the labor and each cell has become specialized to perform a specific task. This specialization is a key characteristic of multicellular organisms.
But why specialize? If a cell cannot perform all essential functions on its own, doesn't that limit what it can do? The answer to this question really depends on the level of organization that you're looking at, and there are several levels of organization within an organism. Starting at the cellular level, each cell has its own set of functions and requirements that it must carry out.
Organization of Organisms
Most cells form groups called tissues which are 'groups of cells that share a common structure and function within an organism.' Tissues are the next level of organization in an organism, and are often very specialized to perform only one or maybe a few very specific tasks. For instance, muscle tissue is specialized to contract, and that's about all that it does.
The next level of organization above tissues is organs. An organ is 'a structure composed of several different tissues that work together to perform a certain task.' The tissues within an organ work together to perform more complicated tasks than any one tissue is capable of. An example of an organ would be the heart. The heart is mostly muscle tissue, but it is also composed of connective tissue which provides structure for the heart, an epithelial layer that serves as a barrier to keep the blood contained in the chambers, and nervous tissue which regulates the heart rate. Together, these tissues perform the more complicated task of pumping blood.
But we're not done yet, there's another level of organization above organs and that is the organ system, which is 'a group of organs and tissues that work together to perform a major function of the organism.' Let's go back to our heart example. The heart is one organ within the circulatory system which is itself composed of the heart, blood vessels, and blood. The heart pumps blood, but the whole circulatory system working together circulates blood throughout the body.
And finally, the last level of organization, is the organism itself, which as a whole, is capable of all essential functions. So back to the question of whether or not specialized cells are more limited than single-celled organisms; at the cellular level, the specialized cell is limited to performing its specific task and is more limited than a single-celled organism. However, at the organismal level, specialization and division of labor opens up almost limitless possibilities for variation of structures, and it frees multicellular organisms from the limits of single-celled organisms in terms of size and complexity. In this set of lessons, we're going to talk about the anatomy and functions of animals, with a particular emphasis on humans.
Similar questions
Biology,
7 months ago
Physics,
7 months ago
History,
7 months ago
CBSE BOARD X,
1 year ago
Social Sciences,
1 year ago
Physics,
1 year ago
English,
1 year ago