The document summarizes the key types of tissues in plants and animals. It discusses that tissues are groups of cells that perform specialized functions. In plants, the main tissues are meristematic tissues for growth and permanent tissues like parenchyma, collenchyma, and sclerenchyma for structure. In animals, the main tissues are epithelial, muscular, connective, and nervous tissues. Epithelial tissues form protective layers, muscular tissues enable movement, connective tissues connect parts of the body, and nervous tissues transmit signals.
This document provides information about plant and animal tissues. It discusses the main types of tissues in plants, including meristematic tissues which divide and help with growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma. It also outlines the four main types of animal tissues - epithelial, muscular, connective and nervous tissues - and provides examples of each type.
Plant and animal tissues are made of groups of cells that work together to perform specific functions. Plant tissues are divided into meristematic tissues, which facilitate growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma. Animal tissues include four main types - epithelial tissues which provide protection, muscular tissues which allow movement, connective tissues which join body parts together, and nervous tissue composed of neurons that transmit messages. The document provides detailed descriptions of different types of tissues in plants and animals, explaining their structures and functions.
There are two main types of tissues - plant tissues and animal tissues. Plant tissues are divided into meristematic tissues, which actively divide, and permanent tissues, which have specialized functions. Meristematic tissues include apical, intercalary, and lateral meristem, while permanent tissues include simple tissues like parenchyma, collenchyma, and sclerenchyma, and complex conducting tissues like xylem and phloem. Animal tissues include four main categories - epithelial, connective, muscular, and nervous tissues. Epithelial tissues form protective layers, connective tissues connect organs, muscular tissues allow movement, and nervous tissues transmit signals in the brain, spinal cord and nerves.
This document discusses the different types of tissues found in the human body and how they compare to plant tissues. It explains that there are four main types of animal tissue - epithelial, muscular, connective, and nervous tissue - and that these perform different functions than plant tissues which are made up of meristematic and permanent tissues. The document aims to explain the differences between plant and animal tissues.
Plant tissues are categorized as meristematic and permanent tissues. Meristematic tissues are growth tissues found in growing regions that continuously divide, while permanent tissues take on specific roles and do not divide further. The main plant tissues include parenchyma, collenchyma, sclerenchyma, epidermis, cork, xylem and phloem. Animal tissues include four main types - epithelial tissue, muscular tissue, connective tissue and nervous tissue. Epithelial tissues line organs and cavities. Muscular tissues include striated, smooth and cardiac muscle. Connective tissues connect and support other tissues. Nervous tissues transmit signals in the body.
IT IS A PRESENTATION CONSISTING 24 SLIDES. IT IS PREPARED BASED ON ANIMAL TISSUES FROM THE CHAPTER TISSUE OF CLASS IX. IT DETAILY COVERS THE DIVISIONS OF ANIMAL TISSUE AND ITS SUBDIVISIONS. HOPE IT HELPS...
The document summarizes the four basic types of animal tissues: connective tissue, muscular tissue, nervous tissue, and epithelial tissue. It provides details about each type, including that connective tissue serves a connecting function and examples are blood and bone. Muscular tissue is separated into three categories - skeletal, cardiac, and smooth muscle. Nervous tissue forms the communication network of the body consisting of the brain linked to sites via the spinal cord and nerves. Epithelial tissue forms protective coverings on external and internal surfaces and can be simple or compound layers of cells.
The document discusses the organization of animal tissues and organ systems. It describes the four main tissue types - epithelial, connective, muscular and nervous tissue. It explains how organs are composed of tissues and how organ systems work together to maintain homeostasis. Key organ systems discussed are the integumentary, skeletal, muscular, cardiovascular, respiratory, digestive, urinary and reproductive systems.
This document provides information about plant and animal tissues. It discusses the main types of tissues in plants, including meristematic tissues which divide and help with growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma. It also outlines the four main types of animal tissues - epithelial, muscular, connective and nervous tissues - and provides examples of each type.
Plant and animal tissues are made of groups of cells that work together to perform specific functions. Plant tissues are divided into meristematic tissues, which facilitate growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma. Animal tissues include four main types - epithelial tissues which provide protection, muscular tissues which allow movement, connective tissues which join body parts together, and nervous tissue composed of neurons that transmit messages. The document provides detailed descriptions of different types of tissues in plants and animals, explaining their structures and functions.
There are two main types of tissues - plant tissues and animal tissues. Plant tissues are divided into meristematic tissues, which actively divide, and permanent tissues, which have specialized functions. Meristematic tissues include apical, intercalary, and lateral meristem, while permanent tissues include simple tissues like parenchyma, collenchyma, and sclerenchyma, and complex conducting tissues like xylem and phloem. Animal tissues include four main categories - epithelial, connective, muscular, and nervous tissues. Epithelial tissues form protective layers, connective tissues connect organs, muscular tissues allow movement, and nervous tissues transmit signals in the brain, spinal cord and nerves.
This document discusses the different types of tissues found in the human body and how they compare to plant tissues. It explains that there are four main types of animal tissue - epithelial, muscular, connective, and nervous tissue - and that these perform different functions than plant tissues which are made up of meristematic and permanent tissues. The document aims to explain the differences between plant and animal tissues.
Plant tissues are categorized as meristematic and permanent tissues. Meristematic tissues are growth tissues found in growing regions that continuously divide, while permanent tissues take on specific roles and do not divide further. The main plant tissues include parenchyma, collenchyma, sclerenchyma, epidermis, cork, xylem and phloem. Animal tissues include four main types - epithelial tissue, muscular tissue, connective tissue and nervous tissue. Epithelial tissues line organs and cavities. Muscular tissues include striated, smooth and cardiac muscle. Connective tissues connect and support other tissues. Nervous tissues transmit signals in the body.
IT IS A PRESENTATION CONSISTING 24 SLIDES. IT IS PREPARED BASED ON ANIMAL TISSUES FROM THE CHAPTER TISSUE OF CLASS IX. IT DETAILY COVERS THE DIVISIONS OF ANIMAL TISSUE AND ITS SUBDIVISIONS. HOPE IT HELPS...
The document summarizes the four basic types of animal tissues: connective tissue, muscular tissue, nervous tissue, and epithelial tissue. It provides details about each type, including that connective tissue serves a connecting function and examples are blood and bone. Muscular tissue is separated into three categories - skeletal, cardiac, and smooth muscle. Nervous tissue forms the communication network of the body consisting of the brain linked to sites via the spinal cord and nerves. Epithelial tissue forms protective coverings on external and internal surfaces and can be simple or compound layers of cells.
The document discusses the organization of animal tissues and organ systems. It describes the four main tissue types - epithelial, connective, muscular and nervous tissue. It explains how organs are composed of tissues and how organ systems work together to maintain homeostasis. Key organ systems discussed are the integumentary, skeletal, muscular, cardiovascular, respiratory, digestive, urinary and reproductive systems.
This document discusses the four main types of tissues in animals: epithelial, connective, muscular, and nervous tissue. It provides details on the structure and function of each type of tissue. Epithelial tissues cover surfaces and organs and protect the body. Connective tissues connect and support other tissues. Muscular tissues allow for movement and include cardiac, smooth, and skeletal muscle. Nervous tissue forms the brain, spinal cord, and nerves to regulate body functions and transmit nerve impulses.
This document summarizes the four primary types of tissues in the human body: epithelium, connective tissue, nervous tissue, and muscle tissue. It describes the general characteristics and functions of each tissue type. It also provides detailed descriptions of the different cells and layers that make up epithelial tissues and connective tissues, including bone, cartilage, dense connective tissue, loose connective tissue, and blood. The three types of muscle tissue - skeletal, cardiac, and smooth muscle - are also defined.
Animals are made of cells organized into four main tissues - epithelial, connective, nervous, and muscular tissue. Epithelial tissue lines body surfaces and aids in protection, absorption, and excretion. Connective tissue provides structure and connects other tissues. Nervous tissue is specialized for information transmission via neurons and glia. Muscular tissue enables movement and includes voluntary skeletal muscle and involuntary smooth and cardiac muscle. Together these tissues work in organs and systems to maintain homeostasis in multicellular animals.
There are four main types of tissues in the animal body - epithelial tissue, which covers and protects the body and lines internal organs; nervous tissue, which controls body functions and responses to internal and external changes; muscular tissue, consisting of contractile cells that enable body movement; and connective tissue, which connects or supports other tissues, including bone, cartilage, fibrous tissues, blood and more. Connective tissues are the most diverse and abundant in the body.
There are four primary tissue types in the body: epithelium, connective tissue, nervous tissue, and muscle tissue. Epithelium forms protective barriers and lines surfaces throughout the body. Connective tissue supports and connects organs, stores fat, and is made up of ground substance, fibers, and cells. Nervous tissue is composed of the brain, spinal cord, and nerves to conduct signals throughout the body. Muscle tissue includes three types - smooth, skeletal, and cardiac - which work to move organs, bones, and blood.
This document discusses plant and animal tissues. It defines what a tissue is and explains that tissues are made of groups of cells that work together to perform a specific function. The document outlines the main types of tissues in plants and animals. In plants, the main tissues are meristematic tissue, permanent tissue and vascular tissue. In animals, the main tissues are epithelial, connective, muscle and nervous tissue. It provides details on the structure and function of different tissue types and highlights some key differences between plant and animal tissues.
The document summarizes the four major types of tissues in the body: epithelial, connective, muscular, and nervous tissue. It provides detailed information on the structure and function of each type of tissue. Epithelial tissue forms protective layers and linings. Connective tissue includes bone, cartilage, blood, and adipose tissue that support and bind other tissues. Muscular tissue, including cardiac, smooth and skeletal muscle, allows movement. Nervous tissue is specialized for conducting electrical signals and is found in the brain, spinal cord and nerves.
The document discusses the different types of tissues in animals. It begins by explaining that a zygote differentiates into various tissues after fertilization. There are four main types of tissues - epithelial, connective, muscle and nervous tissue. Epithelial tissue covers the body and lines organs, connective tissue binds and supports other tissues, muscle tissue enables movement, and nervous tissue senses the environment and transmits signals. Each tissue is then further defined by its constituent cell types and functions.
This document summarizes different types of tissues in the body. It discusses four major tissue groups: epithelial, connective, muscular and nervous tissue. Epithelial tissue forms protective layers and linings. Connective tissue includes adipose, cartilage and bone tissue that connect and support other tissues. There are three types of muscle tissue - smooth, skeletal and cardiac - that allow movement. The document provides detailed descriptions of each tissue type including their structure, function and cellular composition.
This document provides information on the four main types of animal tissues: epithelial, connective, muscular, and nervous tissues. It describes the origin, function, and examples of each tissue type. Epithelial tissues cover organs and form barriers, and come in several forms like squamous, cuboidal, and columnar. Connective tissues include areolar, dense, adipose, skeletal, and fluid tissues that provide structure, binding, storage and transport. Muscular tissues allow locomotion and movement. Nervous tissues control and coordinate functions through impulse conduction. The document contains detailed information on the classification, structure and functions of these fundamental tissue types.
Connective tissue classes: Bone tissue and Blood tissue. Muscular tissue and ...Dr. Shameeran Bamarni
This document provides information about different types of connective tissues and their structures and functions. It discusses four main types of connective tissues:
1. Bone tissue, which provides structure, protects organs, and stores minerals. It consists of cells within a mineralized extracellular matrix.
2. Blood tissue, which is a fluid connective tissue that transports nutrients and oxygen. It contains plasma, red blood cells, white blood cells, and platelets.
3. Muscular tissue, which includes three types - skeletal, smooth, and cardiac muscle. Each type has a different location and function related to movement.
4. Nervous tissue, which transmits electrical signals through neurons. It consists of the central
This document discusses the four main types of animal tissues: epithelial, connective, muscle, and nervous tissue. It provides details on the structure and function of each tissue type. Epithelial tissue forms the outer layers of skin and internal linings. It has three main cell shapes - squamous, cuboidal, and columnar - and can be arranged in single or multiple layers. Connective tissue binds and supports other tissues. It includes loose connective tissue, dense regular tissue, adipose tissue, cartilage, bone, and blood. Muscle tissue allows for animal movement and includes three types - skeletal, smooth, and cardiac muscle. Nervous tissue is specialized for sending and receiving signals through neurons located throughout the body and concentrated
The document summarizes the four main types of tissues in the human body - epithelial, muscular, connective, and nervous tissue. It describes the characteristics and functions of each type of tissue, as well as the subclasses within each type. For example, it notes that epithelial tissue forms protective layers and linings, muscular tissue includes skeletal, cardiac and smooth muscle, connective tissue includes bone, cartilage and blood, and nervous tissue transmits electrical signals.
Structural Organisation In Animals- connective Tissuedhahbi
Connective tissues are composed of cells and an extracellular matrix of fibers and ground substance. They serve to support and connect other tissues in the body. There are several types of connective tissues including loose connective tissue which has loosely arranged cells and fibers in a semi-fluid matrix; dense connective tissue where fibers and cells are tightly packed; and specialized connective tissues like cartilage, bone, and blood. Cartilage is flexible but can withstand compression, bone is rigid and provides structure, and blood transports substances throughout the body.
The human body contains around 100 trillion cells organized into 200 types. Tissues are groupings of cells that perform specialized functions. There are four fundamental tissue types - epithelial, muscular, connective, and nervous tissue. Histology is the study of tissues, including their structure, composition and function. Tissues develop from undifferentiated cells through histogenesis and can degenerate through histolysis. The animal body contains around 20 types of tissues in total.
This document discusses the four main types of tissues in the body: epithelial, connective, muscular, and nervous tissue. It provides detailed information about epithelial and connective tissues. Epithelial tissue covers surfaces, lines organs, and forms glands. There are several types classified by cell shape and layer number. Connective tissue includes bone, cartilage, blood, and loose or dense fibrous tissue. It supports and binds organs. Connective tissue has fibers in a ground substance and varies from solid to soft to liquid.
There are 4 main types of tissues in the body: epithelial, connective, nervous, and muscular. Epithelial tissue forms the outer layers of the skin and lines body cavities and organs. It has several important functions like protection, secretion, and absorption. Epithelial tissue is classified based on cell shape and layer arrangement into simple, stratified, and glandular epithelium, each with distinct characteristics and locations in the body.
1. The document discusses the structural organisation in animals, focusing on tissues and their classification. It describes four main tissue types - epithelial, connective, muscular and neural tissues.
2. Epithelial tissues are classified as simple or compound based on their cell layers. Connective tissues include areolar, adipose, cartilage, bone and blood. Muscular tissues include skeletal, smooth and cardiac muscle.
3. The document also provides examples of tissues like squamous epithelium found in blood vessels and areolar connective tissue found beneath the skin. It summarizes the key features and functions of different tissues in the body.
This document discusses epithelial tissues. It defines epithelial tissue as sheets of cells that cover surfaces and line cavities throughout the body. There are four main types of tissues: epithelial, connective, muscle and nervous tissue. The document focuses on epithelial tissue, describing its functions of protection, absorption, secretion and selective permeability. It classifies epithelial tissue based on cell layers (simple vs stratified) and cell shape (squamous, cuboidal, columnar). Specific examples of simple and stratified epithelial tissues are provided. In summary, the document provides a detailed overview of the classification, structure and functions of epithelial tissues in the body.
1) Tissues are groups of cells that work together to perform specific functions. In plants, tissues provide structure, conduct water and nutrients, and carry out photosynthesis. In animals, tissues include muscle to allow movement, epithelial to protect and line organs, and connective to join tissues together.
2) Plant tissues are divided into meristematic tissues for growth and permanent tissues for structure. Animal tissues include four main types - epithelial, muscular, connective, and nervous. Epithelial tissues line and cover organs, muscle tissue allows movement, connective tissue joins tissues, and nervous tissue carries messages.
3) Both plant and animal tissues are made of specialized cells arranged to carry out their functions. Plant tissues
The document discusses plant and animal tissues. It describes that tissues are groups of cells that perform specific functions. Plant tissues are divided into meristematic tissues, which are dividing cells responsible for growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma that provide structure. Animal tissues include four main types - epithelial tissue which forms protective layers, muscular tissue that allows movement, connective tissue that joins tissues together, and nervous tissue which transmits signals. The key tissues within each type are also outlined.
This document discusses the four main types of tissues in animals: epithelial, connective, muscular, and nervous tissue. It provides details on the structure and function of each type of tissue. Epithelial tissues cover surfaces and organs and protect the body. Connective tissues connect and support other tissues. Muscular tissues allow for movement and include cardiac, smooth, and skeletal muscle. Nervous tissue forms the brain, spinal cord, and nerves to regulate body functions and transmit nerve impulses.
This document summarizes the four primary types of tissues in the human body: epithelium, connective tissue, nervous tissue, and muscle tissue. It describes the general characteristics and functions of each tissue type. It also provides detailed descriptions of the different cells and layers that make up epithelial tissues and connective tissues, including bone, cartilage, dense connective tissue, loose connective tissue, and blood. The three types of muscle tissue - skeletal, cardiac, and smooth muscle - are also defined.
Animals are made of cells organized into four main tissues - epithelial, connective, nervous, and muscular tissue. Epithelial tissue lines body surfaces and aids in protection, absorption, and excretion. Connective tissue provides structure and connects other tissues. Nervous tissue is specialized for information transmission via neurons and glia. Muscular tissue enables movement and includes voluntary skeletal muscle and involuntary smooth and cardiac muscle. Together these tissues work in organs and systems to maintain homeostasis in multicellular animals.
There are four main types of tissues in the animal body - epithelial tissue, which covers and protects the body and lines internal organs; nervous tissue, which controls body functions and responses to internal and external changes; muscular tissue, consisting of contractile cells that enable body movement; and connective tissue, which connects or supports other tissues, including bone, cartilage, fibrous tissues, blood and more. Connective tissues are the most diverse and abundant in the body.
There are four primary tissue types in the body: epithelium, connective tissue, nervous tissue, and muscle tissue. Epithelium forms protective barriers and lines surfaces throughout the body. Connective tissue supports and connects organs, stores fat, and is made up of ground substance, fibers, and cells. Nervous tissue is composed of the brain, spinal cord, and nerves to conduct signals throughout the body. Muscle tissue includes three types - smooth, skeletal, and cardiac - which work to move organs, bones, and blood.
This document discusses plant and animal tissues. It defines what a tissue is and explains that tissues are made of groups of cells that work together to perform a specific function. The document outlines the main types of tissues in plants and animals. In plants, the main tissues are meristematic tissue, permanent tissue and vascular tissue. In animals, the main tissues are epithelial, connective, muscle and nervous tissue. It provides details on the structure and function of different tissue types and highlights some key differences between plant and animal tissues.
The document summarizes the four major types of tissues in the body: epithelial, connective, muscular, and nervous tissue. It provides detailed information on the structure and function of each type of tissue. Epithelial tissue forms protective layers and linings. Connective tissue includes bone, cartilage, blood, and adipose tissue that support and bind other tissues. Muscular tissue, including cardiac, smooth and skeletal muscle, allows movement. Nervous tissue is specialized for conducting electrical signals and is found in the brain, spinal cord and nerves.
The document discusses the different types of tissues in animals. It begins by explaining that a zygote differentiates into various tissues after fertilization. There are four main types of tissues - epithelial, connective, muscle and nervous tissue. Epithelial tissue covers the body and lines organs, connective tissue binds and supports other tissues, muscle tissue enables movement, and nervous tissue senses the environment and transmits signals. Each tissue is then further defined by its constituent cell types and functions.
This document summarizes different types of tissues in the body. It discusses four major tissue groups: epithelial, connective, muscular and nervous tissue. Epithelial tissue forms protective layers and linings. Connective tissue includes adipose, cartilage and bone tissue that connect and support other tissues. There are three types of muscle tissue - smooth, skeletal and cardiac - that allow movement. The document provides detailed descriptions of each tissue type including their structure, function and cellular composition.
This document provides information on the four main types of animal tissues: epithelial, connective, muscular, and nervous tissues. It describes the origin, function, and examples of each tissue type. Epithelial tissues cover organs and form barriers, and come in several forms like squamous, cuboidal, and columnar. Connective tissues include areolar, dense, adipose, skeletal, and fluid tissues that provide structure, binding, storage and transport. Muscular tissues allow locomotion and movement. Nervous tissues control and coordinate functions through impulse conduction. The document contains detailed information on the classification, structure and functions of these fundamental tissue types.
Connective tissue classes: Bone tissue and Blood tissue. Muscular tissue and ...Dr. Shameeran Bamarni
This document provides information about different types of connective tissues and their structures and functions. It discusses four main types of connective tissues:
1. Bone tissue, which provides structure, protects organs, and stores minerals. It consists of cells within a mineralized extracellular matrix.
2. Blood tissue, which is a fluid connective tissue that transports nutrients and oxygen. It contains plasma, red blood cells, white blood cells, and platelets.
3. Muscular tissue, which includes three types - skeletal, smooth, and cardiac muscle. Each type has a different location and function related to movement.
4. Nervous tissue, which transmits electrical signals through neurons. It consists of the central
This document discusses the four main types of animal tissues: epithelial, connective, muscle, and nervous tissue. It provides details on the structure and function of each tissue type. Epithelial tissue forms the outer layers of skin and internal linings. It has three main cell shapes - squamous, cuboidal, and columnar - and can be arranged in single or multiple layers. Connective tissue binds and supports other tissues. It includes loose connective tissue, dense regular tissue, adipose tissue, cartilage, bone, and blood. Muscle tissue allows for animal movement and includes three types - skeletal, smooth, and cardiac muscle. Nervous tissue is specialized for sending and receiving signals through neurons located throughout the body and concentrated
The document summarizes the four main types of tissues in the human body - epithelial, muscular, connective, and nervous tissue. It describes the characteristics and functions of each type of tissue, as well as the subclasses within each type. For example, it notes that epithelial tissue forms protective layers and linings, muscular tissue includes skeletal, cardiac and smooth muscle, connective tissue includes bone, cartilage and blood, and nervous tissue transmits electrical signals.
Structural Organisation In Animals- connective Tissuedhahbi
Connective tissues are composed of cells and an extracellular matrix of fibers and ground substance. They serve to support and connect other tissues in the body. There are several types of connective tissues including loose connective tissue which has loosely arranged cells and fibers in a semi-fluid matrix; dense connective tissue where fibers and cells are tightly packed; and specialized connective tissues like cartilage, bone, and blood. Cartilage is flexible but can withstand compression, bone is rigid and provides structure, and blood transports substances throughout the body.
The human body contains around 100 trillion cells organized into 200 types. Tissues are groupings of cells that perform specialized functions. There are four fundamental tissue types - epithelial, muscular, connective, and nervous tissue. Histology is the study of tissues, including their structure, composition and function. Tissues develop from undifferentiated cells through histogenesis and can degenerate through histolysis. The animal body contains around 20 types of tissues in total.
This document discusses the four main types of tissues in the body: epithelial, connective, muscular, and nervous tissue. It provides detailed information about epithelial and connective tissues. Epithelial tissue covers surfaces, lines organs, and forms glands. There are several types classified by cell shape and layer number. Connective tissue includes bone, cartilage, blood, and loose or dense fibrous tissue. It supports and binds organs. Connective tissue has fibers in a ground substance and varies from solid to soft to liquid.
There are 4 main types of tissues in the body: epithelial, connective, nervous, and muscular. Epithelial tissue forms the outer layers of the skin and lines body cavities and organs. It has several important functions like protection, secretion, and absorption. Epithelial tissue is classified based on cell shape and layer arrangement into simple, stratified, and glandular epithelium, each with distinct characteristics and locations in the body.
1. The document discusses the structural organisation in animals, focusing on tissues and their classification. It describes four main tissue types - epithelial, connective, muscular and neural tissues.
2. Epithelial tissues are classified as simple or compound based on their cell layers. Connective tissues include areolar, adipose, cartilage, bone and blood. Muscular tissues include skeletal, smooth and cardiac muscle.
3. The document also provides examples of tissues like squamous epithelium found in blood vessels and areolar connective tissue found beneath the skin. It summarizes the key features and functions of different tissues in the body.
This document discusses epithelial tissues. It defines epithelial tissue as sheets of cells that cover surfaces and line cavities throughout the body. There are four main types of tissues: epithelial, connective, muscle and nervous tissue. The document focuses on epithelial tissue, describing its functions of protection, absorption, secretion and selective permeability. It classifies epithelial tissue based on cell layers (simple vs stratified) and cell shape (squamous, cuboidal, columnar). Specific examples of simple and stratified epithelial tissues are provided. In summary, the document provides a detailed overview of the classification, structure and functions of epithelial tissues in the body.
1) Tissues are groups of cells that work together to perform specific functions. In plants, tissues provide structure, conduct water and nutrients, and carry out photosynthesis. In animals, tissues include muscle to allow movement, epithelial to protect and line organs, and connective to join tissues together.
2) Plant tissues are divided into meristematic tissues for growth and permanent tissues for structure. Animal tissues include four main types - epithelial, muscular, connective, and nervous. Epithelial tissues line and cover organs, muscle tissue allows movement, connective tissue joins tissues, and nervous tissue carries messages.
3) Both plant and animal tissues are made of specialized cells arranged to carry out their functions. Plant tissues
The document discusses plant and animal tissues. It describes that tissues are groups of cells that perform specific functions. Plant tissues are divided into meristematic tissues, which are dividing cells responsible for growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma that provide structure. Animal tissues include four main types - epithelial tissue which forms protective layers, muscular tissue that allows movement, connective tissue that joins tissues together, and nervous tissue which transmits signals. The key tissues within each type are also outlined.
This document provides information about plant and animal tissues. It discusses the main types of tissues in plants and animals, and the differences between plant and animal tissues. Specifically, it outlines that plant tissues include meristematic tissues which aid growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma. It also notes the main animal tissues are epithelial, muscular, connective and nervous tissues. Details are given on the function and characteristics of different tissue types in both plants and animals.
1) Tissues are groups of cells that work together to perform specific functions. In plants, tissues provide structure, conduct water and nutrients, and carry out photosynthesis. In animals, tissues include muscle to allow movement, epithelial to protect and line organs, and connective to join tissues together.
2) Plant tissues are divided into meristematic tissues for growth and permanent tissues for structure. Animal tissues include four main types - epithelial, muscle, connective, and nervous. Epithelial tissues line and cover organs, while muscles allow movement. Connective tissues join tissues together and include bone, blood and cartilage. Nervous tissue carries messages through neurons and nerves.
3) Both plants and animals have tissues specialized
This document provides information about plant and animal tissues. It discusses the main types of tissues in plants and animals, and the differences between plant and animal tissues.
In plants, there are two main types of tissues - meristematic tissues which divide and help with growth, and permanent tissues which do not divide. The main types of permanent tissues are parenchyma, collenchyma, sclerenchyma, xylem and phloem.
In animals, the four main tissue types are epithelial, muscular, connective and nervous tissues. Epithelial tissues form protective layers. Muscular tissues allow movement. Connective tissues connect parts of the body. Nervous tissues transmit messages.
The
This document provides information about plant and animal tissues. It discusses the main types of tissues in plants, including meristematic tissues which help with growth, and permanent tissues like parenchyma, collenchyma and sclerenchyma. It also outlines the four main types of animal tissues - epithelial, muscular, connective and nervous tissues - and provides examples of each type.
For class 9th students important notes for in these notes you will read about tissues types of tissues meristematic And non meristematic bones blood And adipose tissues iam providing you these notes for free study And learn it properly you will never forget these basic things it is all about human plant And animal body
GenBio1W2L1 Cell Types and Cell Modification.pptxJeffrey Alemania
This document provides an overview of cell types and cell modification. It discusses the distinguishing features of prokaryotic and eukaryotic cells. It describes different types of plant and animal cells, including their classification and functions. Specific cell types covered include meristematic and permanent plant tissues, as well as epithelial, muscular, connective and nervous animal tissues. The document also examines some cell modifications that allow cells to perform specialized functions, such as microvilli and root hairs in plants.
This presentation is an-all education and entertainment- cut short notes for the TISSUES chapter of class 9. A well-edited and all-graphical presentation will give you an amazing experience.
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1. Tissues are groups of cells that work together to perform specific functions. The document discusses the main types of tissues in plants and animals.
2. In plants, the main tissues are meristematic tissue, which enables growth, and permanent tissues like parenchyma, collenchyma, and sclerenchyma that provide structure. The complex permanent tissues xylem and phloem transport water and nutrients.
3. In animals, the four primary tissue types are epithelial, connective, muscular, and nervous. Epithelial tissues form protective layers. Connective tissues include bone, cartilage and blood. Muscular tissue includes skeletal, smooth and cardiac muscle. Nervous tissue is made of
Tissues made by ayush dabra class ix roll no. 9311adabra66
- Tissues are groups of similar cells that work together to perform a specific function.
- In plants, tissues include meristematic tissues for growth and permanent tissues like parenchyma, collenchyma, and sclerenchyma for structure. Xylem and phloem are complex vascular tissues.
- Animal tissues include four main types - epithelial tissues for protection and transport; muscular tissues for movement; connective tissues for connection and support; and nervous tissues for communication.
A tissue is a group of connected cells that have a similar function within an organism. There are four basic types of tissue in the body of all animals, including the human body. These make up all the organs, structures and other contents of the body.
Tissues are groups of cells that work together to perform specialized functions. There are two main types of tissues: plant tissues and animal tissues. Plant tissues include meristematic tissues, which can divide, and permanent tissues like parenchyma, collenchyma, and sclerenchyma. Animal tissues include four main types - epithelial tissue which covers the body, muscular tissue which enables movement, connective tissue which connects and binds organs, and nervous tissue which transmits stimuli. Connective tissue includes bone, cartilage, blood, lymph, tendons, and ligaments. The main tissues help structures like organs to function in the body.
This document discusses the four main types of tissues in the body: epithelial, connective, muscular, and nervous tissue. It provides detailed information about epithelial and connective tissues. Epithelial tissue covers surfaces, lines organs, and forms glands. There are several types classified by cell shape and layer number. Connective tissue includes bone, cartilage, blood, and loose/dense fibrous tissue. It supports and binds organs. Connective tissue contains cells within an extracellular matrix.
This document summarizes different types of tissues found in eukaryotes. It discusses the structure and components of tissues, including cells and the extracellular matrix. It classifies tissues into four main categories - epithelial tissue, connective tissue, muscular tissue, and nervous tissue. Each category contains multiple tissue types. The document also discusses plant tissues, describing dermal tissue, ground tissue, and vascular tissue. Vascular tissue specifically contains xylem and phloem tissues which transport water and nutrients respectively.
This document discusses the four main types of tissues in the human body: epithelial, connective, muscle, and nervous tissue. It provides details on the function and examples of each type of tissue. Epithelial tissues line body surfaces and internal organs. Connective tissues support and connect other tissues. Muscle tissues allow contraction and movement. Nervous tissues generate and transmit electrical signals in the brain, spinal cord, and nerves.
it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
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4. Tissues:-
• Tissue is a group of cells having similar structure and function.
In plants and animals groups of cells called tissues carry out
specific functions.
E.g. :- In human beings the cells of the muscular tissue contract
and relax and help in movements.
• In plants the cells of the vascular tissue conduct water and
food from one part of the plant to the other.
5.
6. 2) Differences between plant and animal tissues :-
a) Plant tissues :-
i) Plants do not move from place to place. Most of the cells and tissues in
plants provide mechanical support and strength. So most of the tissues consists
of dead cells because they provide mechanical support and strength to the plant.
ii) The growth of plants takes place only in some regions. So plants have tissues
called meristematic tissues which divide and help in growth and permanent
tissues which do not divide.
7. b) Animal tissues :-
i) Animals move from place to place and need more energy
than plants. So most cells and tissues in animals are living cells.
ii) The growth of animals is more uniform so animals do not have
separate dividing and non dividing cells. Animals have organs
having specialised functions. So the organs have specialised
tissues.
8. Plants Tissues:-
Plant tissues are of two main types. They are Meristematic
tissues and Permanent tissues.
i) Meristematic tissues :- are of three types. They are Apical
meristematic tissues, Intercalliary meristematic tissues and
Lateral meristematic tissues.
ii) Permanent tissues :- are of two types . They are Simple
permanent tissues and Complex permanent tissues. Simple
permanent tissues are of three types. They are Parenchyma,
Collenchyma and Sclerenchyma. Complex permanent tissues
are of two types. They are Xylem and phloem.
9.
10. a) Meristematic tissue :-
Meristematic tissues are found in the growing regions of the plant like the tips of
root, stem and branches. They divide continuously and help in the growth of the
plant. They are of three types.
i) Apical meristematic tissues :- are present in the
tips of stems and roots. They help in the growth of stems and roots.
ii) Lateral meristematic tissues :- are present in in the
sides of stems and roots. They help to increase the girth of the stems and roots.
iii) Intercalary meristematic tissues :- are present
at the base of leaves and internodes and help in the growth of those parts.
11.
12. b) Permanent tissues :-Permanent tissues are formed from meristematic tissues. They do not divide
and have permanent shape and size. They differentiate into different types of
permanent tissues. Permanent tissues are of two main types. They are Simple
permanent tissues and Complex permanent tissues.
i) Simple permanent tissues :- are made up of one type of
cells. They are of three types called Parenchyma, Collenchyma and
Sclerenchyma.
Parenchyma :- consists of loosely packed thin walled cells having
more intercellular spaces. Some parenchyma cells in leaves contain chloroplast
and prepares food by photosynthesis. Some parenchyma cells have large air
cavities which help the plant to float on water. Some parenchyma cells of roots
and stem store water and minerals.
13. Collenchyma :- consists of elongated cells having
less intercellular spaces and thicker at the corners.
They give flexibility and allows easy bending of
different parts like stem, leaf etc. They also give
mechanical support to the plant.
Sclerenchyma :- consists of long, narrow, dead thick
walled cells. The cell walls contain lignin a chemical
substance which act like cement and hardens them. It
gives strength and hardness to the plant parts.
17. ii) Complex permanent tissues :- are
made up of more than one type of cells. There are
two types of complex tissues. They are Xylem and
Phloem. They are called vascular or conducting tissues.
Xylem :- consists of tracheids, vessels, xylem
parechyma and xylem fibres. The tracheids and vessels
help to transport water and minerals from roots to all
part of the plant. Xylem parenchyma stores food and
fibres help in support.
Phloem :- consists of sieve tubes, companion cells,
phloem parenchyma and phloem fibres. The sieve tubes
and companion cells transports food from leaves to all
parts of the plant. Phloem parenchyma stores food and
fibres help in support.
18.
19. 4) Animal tissues :-
Animal tissues are of four main types . They are :- Epithelial tissue,
Muscular tissue, Connective tissue and Nervous tissue.
i) Epithelial tissues :- are of different types. They are :- Squamous,
Columnar, Cuboidal, Glandular etc.
ii) Muscular tissues :- are of three types. They are :- Striated, Unstriated
and Cardiac.
iii) Connective tissues :- are of different types. They are :- Blood, Bone,
Ligaments, Tendons, Cartilage, Areolar, Adipose etc.
iv) Nervous tissue :- consists of nerve cells called neurons.
20.
21. a) Epithelial tissue :-
• Epithelial tissue is the covering or protective tissue in animals. It forms the
outer covering like skin, outer covering of organs, inner lining of blood
vessels, lungs, esophagus, etc. It protects the body and controls the
movement of materials between the body and the surroundings and between
the parts of the body. The cells are closely arranged and have a fibrous
basement membrane.
• i) Squamous epithelial tissue :- consists of a layer of thin flat cells. It is
present in the linings of blood vessels, lungs, mouth, esophagus etc. The skin
has several layers of epithelial cells. This tissue is called Stratified squamous
tissue.
22. ii) Columnar epithelial tissue :- consists of tall pillar like
cells. It is present in the walls of the intestine. The columnar epithelial
tissue in the respiratory tract has hair like projections called cilia. This
tissue is called Ciliated columnar epithelial tissue.
iii) Cuboidal epithelial tissue :- Consists of cone shape cells
having a basement membrane. It forms the lining of kidney, tubules and
ducts of salivary glands and provide mechanical support.
iv) Glandular epithelial tissue :- Sometimes epithelial tissue
folds inwards and forms a multicellular gland which secretes
substances. This tissue is called Glandular epithelial tissue.
23.
24. b) Muscular tissue
:-
Connective tissue helps in the movements of the body. It consists
of elongated cells called muscle fibres. It contains a protein called
contractile protein which contracts and relaxes and helps in
movements. Muscles which can move under our will are called
voluntary muscles. Muscles which do not move under our will are
called involuntary muscles.
i) Striated muscles :- are voluntary muscles having light and
dark striations. The cells are long, cylindrical and are
multinucleated. They are also called skeletal muscles because
they are attached to bones. They help in voluntary movements of
the body.
25. ii) Unstriated muscles ( Smooth muscles) :- are involuntary
muscles having no striations. The cells are long and
spindle shaped and are uninucleated. They are present
in alimentary canal, blood vessels, bronchi of lungs, iris
of eye etc. They help in involuntary movements.
iii) Cardiac muscles :- are involuntary muscles having
faint striations. The cells are long, cylindrical, branched
and multinucleated. They are present in the heart and
helps in the contraction and relaxation of the heart.
26.
27. c) Connective
tissue :-
Connective tissue connects and joins the different parts of the
body together. The cells of the connective tissue are loosely
packed and the space between the cells are filled with a jelly
like matrix.
i) Blood :- Blood contains a fluid matrix called plasma
which contains red blood cells (RBC), white blood cells (WBC)
and platelets. The blood transports gases, digested food,
hormones, waste materials etc.
ii) Bone :- is a hard and strong tissue. It consists of cells
which are embedded in a hard matrix containing calcium and
phosphorus compounds. Bone forms the framework of the
body and supports the body and the main organs.
28. iii) Ligaments :- are flexible tissues which joins bones together
and helps in movements.
iv) Tendons :- are fibrous tissues which joins muscles to bones
and helps in movements.
v) Areolar tissues :- fills the space between skin and muscles,
inside the organs, around blood vessels etc. It helps to repair the
tissues.
vi) Adipose tissue :- is found below the skin and between
internal organs. It contains fats and helps to store fats.
32. d) Nervous tissue :-
Nervous tissue helps to carry messages from one part of the
body to the other and responds to stimuli. It is found in the brain,
spinal cord and nerves. It consists of nerve cells called neurons.
Neuron (Nerve cell) :- has a cell body containing a nucleus and
cytoplasm. It has hair like structures called dendrites and a long
part called axon having nerve endings. The axon has a protective
covering called myelin sheath. The neurons are joined together to
form nerve fibres. The junction between two neurons is called
synapse.
33.
34.
35. Guided by:-
Mr. Santosh Kumar
Presented by:-
Rupesh Kumar
Class:-
IX ‘A’
Roll No. :-
30
Subject:-
Biology
Chapter:-
Tissues {Ch. No. 06}
School:-
Kendriya Vidyalaya,
Bokaro Thermal