The lymphatic system, or the lymph system, they're the same thing.
Yes, there are intercellular spaces which are usually used for gas exchange between the cells.
The most abundant plant tissue with thin cell walls and intercellular spaces
Sclerenchyma cells have thick, rigid cell walls made of lignin, which provides structural support to the plant. These thick walls don't leave room for intercellular spaces, resulting in a dense and compact arrangement of cells. This lack of intercellular spaces contributes to the strength and rigidity provided by sclerenchyma tissues.
Intercellular spaces are there for gas exchange between cells. Because of these spaces, cells deeper in the tissue can get the gas. If not, only the cells on the surface will get what they need.
The spaces between cells are called intercellular spaces. These spaces allow for the exchange of gases, nutrients, and waste products between cells. They also provide flexibility and allow for movement within tissues.
Edema
to let gases go from 1 cell to another
Yes, onion cells do have intercellular space between them. These spaces allow for the movement of substances such as nutrients and gases within the onion tissue.
The air spaces within a leaf, known as intercellular spaces, allow for gas exchange to occur. This facilitates the entry of carbon dioxide needed for photosynthesis and the exit of oxygen produced during this process. Intercellular spaces also help in regulating water vapor and temperature within the leaf.
A network of vessels, nodes, and organs called the lymphatic system collects the fluid that is lost by the blood returns it back to the circulatory system. The main functions of the lymphatic system are as follows: the main function of the lymphatic system is to collect and transport tissue fluids from the intercellular spaces in all the tissues of the body, back to the veins in the blood system; it plays an important role in returning plasma proteins to the bloodstream.
The accumulation of protein in tissue spaces can lead to edema because proteins help to maintain the balance of fluid in the body. When there is an excess of protein in the tissue spaces, it can increase the osmotic pressure, pulling more fluid into the tissues and causing swelling. Additionally, increased protein levels can impair the function of the lymphatic system, which normally helps to drain excess fluid from the tissues.
Extracellular matrix (ECM) fills the space between cells. It is a complex network of proteins and carbohydrates that provides structural support to cells and regulates various cellular functions. The ECM also plays a crucial role in cell signaling and tissue development.