Invertebrates achieve osmoregulation by conforming to the surrounding water. They use membranes to achieve this type of regulation and water passes back and forth through the membranes.
Compared to the seawater around them, most marine invertebrates have a higher concentration of ions inside their bodies to maintain osmotic balance. This helps them regulate the movement of water to prevent dehydration. Marine invertebrates have evolved various strategies, such as osmoregulation and excretion, to cope with the different osmotic challenges posed by their environment.
Osmoregulation is a necessary funtion in order for an organism to regulate the quantity of fluid within its tissues/cells. Without Osmoregulation an organism's fluids may become too concentrated, or too diluted, to carry out normal life functions.
Kidneys.
Nephridia are excretory organs found in some invertebrates that eliminate metabolic waste and excess fluids from the body through openings called nephridiopores. These structures help maintain proper osmoregulation and remove nitrogenous waste products from the body.
Nephridia are excretory organs found in various invertebrates, particularly in annelids (such as earthworms) and some mollusks. These structures are responsible for filtering waste from the coelomic fluid and play a key role in osmoregulation. In annelids, nephridia are typically located in pairs along each segment of the body.
That is more the job of the kidneys.
It is - OSMOREGULATION
Yes it is since when one excretes, the kidney releases excess water from the excretory system hence osmoregulation takes place.
They are insects, therefore they are invertebrates.
Coelomic fluid acts as a hydrostatic skeleton in some invertebrates, providing support for the body wall and aiding in movement. It also plays a role in nutrient transport, waste removal, and gas exchange within the coelom.
No, they are no invertebrates.
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.