Hemolymph
Hemolymph or haemolymph is a body fluid that circulates inside arthropod bodies transporting nutrients and oxygen to tissues, comparable with the blood in vertebrates. It is composed of a plasma in which circulating immune cells called hemocytes are dispersed in addition to many plasma proteins and dissolved chemicals. It is the key component of the open circulatory system characteristic of arthropods such as insects, arachnids, myriopods and crustaceans. Some non-arthropod invertebrates such as molluscs and annelids also possess a similar hemolymphatic circulatory system.
In insects, the largest arthropod clade, the hemolymph mainly carries nutrients but not oxygen, which is supplied to the tissues separately by direct deep ventilation through an extensive tracheal system. In other arthropods, oxygen is dissolved into the hemolymph from gills, book lungs or across the cuticle and then distributed to the body tissues via the hemocoel.
Method of transport
Hemolymph fills the whole interior of the animal's body and surrounds all cells.In the grasshopper, the closed portion of the system consists of tubular hearts and an aorta running along the dorsal side of the insect. The hearts pump hemolymph into the chambers — called sinuses — of the hemocoel where exchanges of materials take place. Coordinated movements of the body muscles gradually bring the hemolymph back to the dorsal sinus surrounding the hearts. Between contractions, tiny valves — called ostia — in the walls of the hearts open and allow hemolymph to enter.
Hemolymph contains hemocyanin, a copper-based protein that turns blue when oxygenated, causing the hemolymph to turn from grey to blue-green in color. This contrasts with the iron-based hemoglobin found in the red blood cells of vertebrate blood which turns a brighter red when oxygenated.
The hemolymph of lower arthropods, including most insects, contains nutrients such as proteins and sugars but is not used for oxygen transport. These animals respirate through other means, such as tracheas. Ancestral and functional hemocyanin has, however, been found in the hemolymph of some insects. Insect hemolymph generally does not carry hemoglobin, but hemoglobin may be present in the tracheal system and may play some role in respiration there.
Muscular movements by the animal during locomotion can facilitate hemolymph movement, but diverting flow from one area to another is limited.
Constituents
Hemolymph can contain nucleating agents that confer extracellular freezing protection. Such nucleating agents have been found in the hemolymph of insects of several orders, i.e., Coleoptera, Diptera, and Hymenoptera.Inorganic
Hemolymph is composed of water, inorganic salts, and organic compounds. The primary oxygen transporter molecule is hemocyanin.Amino acids
hemolymph contains high levels of free amino acids. Most amino acids are present but their relative concentrations vary from species to species. Concentrations of amino acids also vary according to the arthropod stage of development. An example of this is the silkworm and its need for glycine in the production of silk.Proteins
Proteins present in the hemolymph vary in quantity during the course of development. These proteins are classified by their functions: chroma proteins, protease inhibitors, storage, lipid transport, enzymes, the vitellogenins, and those involved in the immune responses of arthropods. Some hemolymphic proteins incorporate carbohydrates and lipids into the structure.Other organic constituents
metabolism end products are present in the hemolymph in low concentrations. These include ammonia, allantoin, uric acid, and urea. Arthropod hormones are present, most notably the juvenile hormone. Trehalose can be present and sometimes in great amounts along with glucose. These sugar levels are maintained by the control of hormones. Other carbohydrates can be present. These include inositol, sugar alcohol, hexosamines, mannitol, glycerol and those components that are precursors to chitin.Free lipids are present and are used as fuel for flight.