0
What else can I help you with?
What are some examples of osmoregulators?
Examples of osmoregulators include marine invertebrates such as crabs and lobsters, as well as freshwater fish like trout and salmon. These organisms actively regulate their internal solute concentrations to maintain osmotic balance with their environment.
Why do marine organisms called osmoregulators?
Marine organisms called osmoregulators are able to maintain a stable internal environment despite the varying salinity of their surroundings. They actively regulate the concentration of solutes and water in their bodies to prevent dehydration or osmotic stress. This adaptation allows them to thrive in saltwater environments where the external osmotic pressure is higher than that of their bodily fluids. Examples of osmoregulators include many fish species and certain invertebrates that utilize specialized cells and organs to manage their internal balance.
What are the two strategies for dealing with the fluctuation in the salinity (give examples of organisms that do each)?
Organisms deal with fluctuations in salinity through two main strategies: osmoregulation and osmoconformation. Osmoregulators, like bony fish, actively maintain their internal salt concentration regardless of external salinity changes, using mechanisms like kidney function to excrete excess salts or retain water. In contrast, osmoconformers, such as jellyfish and sea stars, match their internal salt concentration to that of their surrounding environment, allowing them to survive in varying salinity conditions without expending energy on regulation.
What is the difference between 'collenchyma' and 'chlorenchyma'?
Difference between collenchyma and chlorenchyma
Difference in a charge between two electrodes in a cell causes a ----between electrodes?
Potential difference.
How can saltwater organisms survive in their saltwater environment?
By osmoregulation. Differs by species or type of organism, but they are either osmoconformers or osmoregulators.
Marine animals that have body fluids with a solute concentration equal to that of the surrounding seawater are said to be?
osmoconformers
What is difference between osmoconformer and osmoregulator?
Osmoregulator have to use energy to gain or loss water, because their body fluids are different from their environment.(osmoregulation is the process an organism uses to balance the fluids/water)Osmoconformer, on the other hand is, are organisms that have body fluids that are the same as its environment.(They don't gain or loss water during osmosis. Therefor they don't have to worry about using energy to combine ammonia with carbon dioxide ---because they excrete ammonia)
Where do osmoconformers live?
Osmoconformers are animals that allow their internal osmolarity to change with the surrounding environment. They are commonly found in marine environments, particularly in the ocean where salinity levels can vary significantly. Examples of osmoconformers include marine invertebrates like jellyfish and sea anemones.
How do osmoconformers solve the problem of water balance with their environment?
Osmoconformers have solved problem by becoming Isotonic to their environment .
What marine organisms whose internal salt concentration varies with that of their environment are examples of?
Marine organisms that maintain their internal salt concentration to match their environment are known as osmoconformers, such as jellyfish, sea anemones, and some bivalves. These organisms allow their internal salt concentration to vary with the surrounding seawater to avoid losing excessive water or becoming dehydrated.
What are some examples of osmoregulators?
Examples of osmoregulators include marine invertebrates such as crabs and lobsters, as well as freshwater fish like trout and salmon. These organisms actively regulate their internal solute concentrations to maintain osmotic balance with their environment.
What are marine animals that have body fluids with a solute concentration equal to that of the surrounding seawater?
Osmoconformers
Why do marine organisms called osmoregulators?
Marine organisms called osmoregulators are able to maintain a stable internal environment despite the varying salinity of their surroundings. They actively regulate the concentration of solutes and water in their bodies to prevent dehydration or osmotic stress. This adaptation allows them to thrive in saltwater environments where the external osmotic pressure is higher than that of their bodily fluids. Examples of osmoregulators include many fish species and certain invertebrates that utilize specialized cells and organs to manage their internal balance.
What are the two strategies for dealing with the fluctuation in the salinity (give examples of organisms that do each)?
Organisms deal with fluctuations in salinity through two main strategies: osmoregulation and osmoconformation. Osmoregulators, like bony fish, actively maintain their internal salt concentration regardless of external salinity changes, using mechanisms like kidney function to excrete excess salts or retain water. In contrast, osmoconformers, such as jellyfish and sea stars, match their internal salt concentration to that of their surrounding environment, allowing them to survive in varying salinity conditions without expending energy on regulation.
What is difference between as on and as at?
difference between as on and as at
What are the differences between California and Florida?
What is the difference between Florida and California What is the difference between Florida and California
