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How do sharks maintain their internal balance of salt and water through osmoregulation in their marine environment?
Sharks maintain their internal balance of salt and water through osmoregulation by regulating the concentration of salts in their bodies to match that of the seawater they live in. They have specialized organs, such as their kidneys and rectal glands, that help them excrete excess salts and retain water to stay hydrated in their marine environment.
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What is osmoregulation and how does it work?
Osmoregulation is the process by which organisms regulate the balance of water and solutes within their bodies to maintain internal equilibrium. This involves mechanisms such as filtration, reabsorption, and secretion in organs like the kidneys to control water and electrolyte levels. Through these processes, organisms are able to regulate their internal environment despite changes in external conditions.
What is osmoregulation and why is it important in living organisms?
Osmoregulation is the process by which organisms control the balance of water and solutes in their bodies to maintain stable internal conditions. It is important to prevent dehydration or overhydration, maintain cell function, and regulate blood pressure. Many organisms, from single-celled bacteria to complex animals, rely on osmoregulation to survive in a variety of environments.
If a cell requires water because the organism needs water this is an example of?
osmoregulation, the process by which organisms control the balance of water and solutes within their cells to maintain proper cell function. In this case, the cell needs water to maintain its internal balance and prevent dehydration.
What is the difference between osmoregulation and excretion?
Osmoregulation is the maintenance of the amounts of water and salts in body fluids. Excretion is a process of homeostasis. In this process,nthe metabolic wastes are eliminated from body to maintain the internal conditions at equilibrium.
Which term is used to describe an animal's ability to survive if the cells are exposed to a hypotonic or hypertonic environment?
Osmoregulation is the term used to describe an animal's ability to survive if the cells are exposed to a hypotonic or hypertonic environment. This process helps maintain the balance of water and ions within the animal's cells to ensure their survival.
What is osmoregulation and how does it work?
Osmoregulation is the process by which organisms regulate the balance of water and solutes within their bodies to maintain internal equilibrium. This involves mechanisms such as filtration, reabsorption, and secretion in organs like the kidneys to control water and electrolyte levels. Through these processes, organisms are able to regulate their internal environment despite changes in external conditions.
What is osmoregulation and why is it important in living organisms?
Osmoregulation is the process by which organisms control the balance of water and solutes in their bodies to maintain stable internal conditions. It is important to prevent dehydration or overhydration, maintain cell function, and regulate blood pressure. Many organisms, from single-celled bacteria to complex animals, rely on osmoregulation to survive in a variety of environments.
If a cell requires water because the organism needs water this is an example of?
osmoregulation, the process by which organisms control the balance of water and solutes within their cells to maintain proper cell function. In this case, the cell needs water to maintain its internal balance and prevent dehydration.
What is it called when a animal maintains its fluid balance by regulating the gain and loss of water?
When the body maintains a steady internal environment, that is called homeostasis.
What is asmoregulation?
Homeostasis is the ability to maintain internal stability and balance within an organism. It involves processes like regulating body temperature, pH levels, and fluid balance to ensure optimal function.
What are facts how homeostasis relates to a plant?
Homeostasis in plants involves the maintenance of internal balance of water, nutrients, and temperature. Plants regulate their internal environment through processes like transpiration, photosynthesis, and osmoregulation. This balance is crucial for proper growth, development, and overall health of the plant.
What is the difference between osmoregulation and excretion?
Osmoregulation is the maintenance of the amounts of water and salts in body fluids. Excretion is a process of homeostasis. In this process,nthe metabolic wastes are eliminated from body to maintain the internal conditions at equilibrium.
Which term is used to describe an animal's ability to survive if the cells are exposed to a hypotonic or hypertonic environment?
Osmoregulation is the term used to describe an animal's ability to survive if the cells are exposed to a hypotonic or hypertonic environment. This process helps maintain the balance of water and ions within the animal's cells to ensure their survival.
How does the Euglena regulate its internal environment?
The Euglena regulates its internal environment through a contractile vacuole which helps maintain the balance of water and ions within the cell. The contractile vacuole collects excess water and expels it from the cell, preventing it from swelling and potentially bursting.
Which organ in the plant body helps in the osmo regulation?
In plants, the organ primarily responsible for osmoregulation is the root. Roots absorb water and minerals from the soil, helping to maintain the plant's internal water balance. Additionally, specialized structures such as guard cells, which surround stomata in leaves, play a crucial role in regulating water loss and gas exchange, further aiding in osmoregulation. Through these mechanisms, plants can adapt to varying water availability in their environment.
What is regulation in unicellular protists?
Regulation in unicellular protists refers to the ability of these organisms to maintain internal stability despite changes in their external environment. This may involve processes like osmoregulation to control water balance, thermoregulation to maintain proper temperature, or pH regulation to manage acidity levels. Regulation mechanisms enable unicellular protists to survive and function effectively in different environmental conditions.
The area around a cell has a high concentration of sodium ions. as a result the cell membrane expands and bursts. which problem was the cell most likely having?
The cell is unable to maintain a stable internal environment
