Question

Most animals have glands derived from ___ tissue. A. epithelial B. connective C. muscle D. nervous

Short answer

The answer is A. epithelial.

Step-by-step solution

Understand the Function of Glands

Glands are specialized organs that produce and release substances such as hormones, sweat, or saliva. They play a crucial role in maintaining various body functions.

Identify Types of Tissues

There are four main types of tissues in the body: epithelial, connective, muscle, and nervous. Each type has a specific role and structure.

Evaluate the Role of Epithelial Tissue

Epithelial tissue forms the covering or lining of surfaces and cavities throughout the body. It is known for its role in secretion, absorption, and protection, making it ideal for forming glands.

Compare with Other Tissue Types

- Connective tissue supports and binds other tissues. It is not involved in forming glands. - Muscle tissue is responsible for movement and is not involved in secretory functions. - Nervous tissue transmits nerve impulses but does not form glands.

Draw a Conclusion

Given the functions and characteristics of epithelial tissue in secretion and lining surfaces, glands are derived from epithelial tissue.

Key concepts

Epithelial Tissue

Epithelial tissue is one of the four primary types of tissues in the body. It plays a vital role in lining, covering, and protecting surfaces both inside and outside the body.
This tissue forms the outermost layer of the skin and lines the cavities of organs and blood vessels. The primary functions of epithelial tissue include:

• Protection: Acts as a barrier to protect underlying tissues from injury, pathogens, and dehydration.
• Secretion: Many epithelial cells are specialized to release substances, such as enzymes, hormones, and sweat.
• Absorption: In the digestive tract, epithelial tissue helps in absorbing nutrients from food.

Due to its protective and secretory roles, epithelial tissue is integral in forming glands, which are specialized structures in the body.

Gland Functions

Glands are essential to maintaining homeostasis by producing and releasing substances necessary for various body functions. They can be classified based on their mode of secretion and structure.

• Exocrine glands: These secrete substances through ducts that open onto a surface, such as sweat glands and salivary glands.
• Endocrine glands: Release hormones directly into the bloodstream. Examples include the thyroid and adrenal glands.

The substances secreted by glands perform a wide range of functions:

• Regulating metabolism and energy use (e.g. thyroid hormones)
• Maintaining fluid balance (e.g. aldosterone)
• Facilitating digestion (e.g. digestive enzymes from the pancreas)

Understanding gland functions highlights the importance of the secretory capability of epithelial tissue.

Types of Tissues

Animal bodies are constructed from four primary tissue types, each with a unique structure and function.

• Epithelial tissue: As previously mentioned, it covers surfaces and forms glands.
• Connective tissue: Offers structural support and connects different parts of the body. Examples include bone, blood, and cartilage.
• Muscle tissue: Responsible for producing movement, whether voluntary or involuntary, through contraction. It includes skeletal, cardiac, and smooth muscle tissues.
• Nervous tissue: Composed of neurons, which transmit impulses, and glial cells, which support neuron function.

Each tissue type is adapted to perform specific roles in the body, underscoring the complexity and functionality of animal physiology.

Animal Physiology

Animal physiology focuses on understanding how different systems and organs within the body function and interact.
This field delves into how the body's tissues and organs work together to maintain life processes.

• Circulatory System: Transports nutrients, gases, and wastes.
• Digestive System: Processes food for energy and nutrient absorption.
• Nervous System: Controls body functions by transmitting signals between different parts of the body.

By studying animal physiology, we gain insights into the intricate balance and homeostasis the body maintains to support life. Each component, from tissues to organs and systems, plays a crucial role in the overall health and functionality of an organism.