Branchial respiration is a type of respiration that occurs in aquatic animals through their gills. It involves the exchange of gases, such as oxygen and carbon dioxide, between the animal and the surrounding water. Gills are specialized structures that facilitate this gas exchange process in aquatic organisms.
Through stomata and lenticells
stomata.
exchange of gases respiration and photosynthesis takes place through stem of the plant, the stem is green enough to carry the property of leaves, as in normal plants.. while exchange of gases in huge tree trunks takes place through lenticels, which are present in barks of the trunks... exchange of gases-respiration and photosynthesis- takes place through stem of the plant, the stem is green enough to carry the property of leaves, as in normal plants.. while exchange of gases in huge tree trunks takes place through lenticels, which are present in barks of the trunks...
The main dissolved gases in water are oxygen, nitrogen, and carbon dioxide. These gases can enter water through the atmosphere, aquatic plants, and from the decomposition of organic matter. The concentration of dissolved gases in water can affect the health of aquatic organisms and overall water quality.
Aquatic arthropods mostly exchange gases through (c) gills; some (like the horseshoe crabs) have book gills. The "book lungs" term usually applies to most arachnids like scorpions and spiders, which are terrestrial; most other terrestrial arthropods exchange gases through special holes in their segments called spiracles, attached to the tracheal tubules/tracheola which connect directly to the tissues.
Branchial respiration is a type of respiration that occurs in aquatic animals through their gills. It involves the exchange of gases, such as oxygen and carbon dioxide, between the animal and the surrounding water. Gills are specialized structures that facilitate this gas exchange process in aquatic organisms.
A gill is a filamentous organ specialized for the exchange of gases underwater. Some aquatic animals have gills that are adapted in such a way so as to allow them to breathe out of the water.
Through stomata and lenticells
The primary function of external gills in aquatic animals is to exchanges gases. However, gas exchange is more difficult with external gills.
Annelids, such as earthworms, have a closed circulatory system with specialized structures called parapodia to facilitate gas exchange. They respire through their moist skin by diffusion of gases, such as oxygen and carbon dioxide, with the surrounding environment. This allows for the exchange of gases to occur efficiently.
During respiration the exchange of gases takes place through the walls of the alveoli. From there, the oxygen is taken by the blood to the body tissues.
the lungs
Like all fish- through their gills.
exchange of gases respiration and photosynthesis takes place through stem of the plant, the stem is green enough to carry the property of leaves, as in normal plants.. while exchange of gases in huge tree trunks takes place through lenticels, which are present in barks of the trunks... exchange of gases-respiration and photosynthesis- takes place through stem of the plant, the stem is green enough to carry the property of leaves, as in normal plants.. while exchange of gases in huge tree trunks takes place through lenticels, which are present in barks of the trunks...
alveoli
through respiration