Circulatory systems in animals (closed and open). Which animals have an open circulatory system A closed circulatory system has
It is from the biology course that we remember the closed and open circulatory system. But it is precisely to her that living beings owe the coordinated movement of blood through the body, which thereby ensures a full-fledged life activity. The delivery of heat and useful substances to all organs of the human body, without which existence is impossible, is also a merit of normally circulating blood. Without it, there would be no metabolic processes affecting the metabolic rate.
open circulatory system
This type of circulation is characteristic of protozoan invertebrates, echinoderms, arthropods, and brachiopods, as well as hemichordates.
In them, the delivery of oxygen and vital elements is carried out using diffuse currents. Some living beings have ways for the passage of blood. This is exactly how the rather primitive-looking vessels arise, interrupted by slit-like spaces, which are called sinuses or lacunae.
A distinctive feature of an open circulatory system is the too low speed of movement in relation to a large volume of blood. It slowly, under low pressure, moves between the tissues, and then, through the open ends of the venous vessels, it again gathers to the heart. Slow hemolymph circulation leads to passive breathing and poor oxygen supply to the body.
In arthropods, an open circulatory system is designed to transport nutrients to the organs, as well as remove waste products. The movement of blood is provided by contractions of the heart, which is located in the posterior portion of the aorta (spinal vessel). It, in turn, branches into arteries, the blood from which flows into the internal organs washed and open cavities. This system of blood flow is believed to be imperfect, unlike that of mammals and birds.
Closed circulatory system
This type of blood flow may consist of one or two circles - large and small. Circulating through them, the blood can periodically change its composition and become either venous or arterial.
In this system, metabolism passes only through the vascular walls, and the blood enclosed in them does not come into contact with body tissues. This type is typical for humans, other vertebrates, some other groups of animals and annelids. In the former, blood flow occurs due to a well-developed muscular heart. Its contractions are carried out automatically, but regulation by the central nervous system is also possible.
Benefits of a Closed Blood System
This type is characterized by rather high pressure. Unlike an open circulatory system, the speed of blood movement through the vessels is much faster here. At the same time, the time of one revolution for all organisms is different - for someone it takes twenty minutes, and for someone the blood makes a revolution in sixteen seconds.
There are several factors that promote blood circulation throughout the body. These include the pressure in the vessels and the difference between them, movements made during breathing, contractions of the muscles of the skeleton.
Pulse
It is one of the main characteristics of the heart. With this phenomenon, the periodic expansion of the arteries coincides with the contraction of the heart muscle. The pulse rate depends on a large number of reasons: emotional and physical stress, body temperature, excess kilograms. According to generally accepted standards, the frequency of the pulsation of an adult should not exceed eighty beats per minute.
In the event that any deviations were revealed during the measurement, this is an occasion to think about the presence of heart disease and pay a visit to a specialist. And the opinion of incompetent relatives and neighbors in this case must be ignored.
The circulatory system (open and closed) is the mechanism by which the coordinated movement of blood (hemolymph) through the body is possible, which ensures its full functioning. Its very movement in the system arises in connection with the pulsation or contractions of the thickened walls of the aorta and arteries, or the organs of movement and muscles of the body. It is with the help of blood circulation that substances and heat are transported for metabolic processes that also affect the metabolic rate. Closed and open circulatory system: how do they differ and for whom are they characteristic? The answers to these questions will be presented in the article.
An open circulatory system is found in almost all invertebrates, as well as in lower chordates (in the lancelet). Blood flow in these organisms is determined by the contraction of the heart or "hearts" and, to some extent, by the contraction of the musculature of the body. A characteristic feature is a large volume of blood at a low speed of its movement.
A closed circulatory system can consist of one (fish and cyclostomes) and two - small and large (reptiles, amphibians, birds, mammals). Flowing through a small and large circle, the blood periodically changes its composition, and is either venous or arterial. And in cold-blooded animals, venous and arterial even mix in the aorta or heart, while the blood flow velocity is low. The exchange of substances between body tissues and blood is carried out through the thin walls of capillaries. Filtration of decay products occurs mainly in the kidneys, or in other
An open circulatory system is very imperfect, but among the owners of a closed circulatory system, the most ideal option is in birds and mammals. In representatives of these classes, it consists of a four-chambered heart and two circles of blood circulation. Normally, it never mixes with venous. Quite high pressure is typical. Another advantage is the considerable speed of blood flow through the vessels (for comparison: the time of one blood circulation in insects is approximately 22 minutes, in a dog it is already 16 seconds, and in a rabbit it is 7.5 seconds). It is thanks to these features that the warm-bloodedness of higher animal species is possible, which allows you to have a constant body temperature, regardless of environmental conditions. Peculiar to birds and mammals and high efficiency of metabolism.
Blood circulation in the human body is provided by contractions of the heart, which works like a pump. Among other factors contributing to the movement of blood are respiratory movements, reductions in the pressure difference in the vessels. One of the characteristics of cardiac activity is the pulse rate. The pulse is the periodic expansion of the arteries, which coincides with the contractions of the heart muscle. Its frequency depends on many reasons, including body weight, body temperature and condition, physical and emotional stress, and so on. Normal in an adult is 60-80 beats per minute. The speed of blood flow in the vessels is different: from less than 1 mm/s in capillaries to 50 cm/s in large arteries. The time of the entire circulation of blood in the body is about 20-25 seconds. Blood moves in the direction of decreasing pressure, which is greatest in the aorta and large arteries and least, even negative, in the vena cava. The reverse movement of blood is also prevented by valves that close the atrioventricular orifices, the orifices of the pulmonary artery and aorta, and valves located on the walls of large veins. With sufficient contractile blood circulation is not disturbed.
As you can see, the open and closed circulatory system has very characteristic features, which every erudite, and not only, person must know.
circulatory system, a set of organs and structures of animals and humans involved in blood circulation. In the course of evolution, the circulatory system was formed (independently in different groups of animals) from slit-like cavities in the parenchyma, which filled the primary body cavity in lower multicellular organisms (for example, flatworms). Distinguish between open and closed circulatory system. The first is formed by various vessels, which are interrupted by cavities deprived of their own walls - lacunae or sinuses; at the same time, the blood, called in this case hemolymph, comes into direct contact with all tissues of the body (including those of brachiopods, echinoderms, arthropods, hemichordates, and tunicates). In a closed circulatory system, blood circulates in vessels that have their own walls.
In primitive worms, the movement of blood is provided by contractions of the muscles of the body wall (the so-called skin-muscle sac); in other groups, in various vessels equipped with muscular walls, pulsating areas ("hearts") are differentiated. On the basis of one of these areas, the most highly organized animals form a special pulsating organ - the heart. In different groups of invertebrates, it develops on the dorsal side of the body, in vertebrates - on the ventral side. The blood vessels that carry blood away from the heart are called arteries, and those that carry blood to the heart are called veins. In a closed circulatory system, large arteries are successively divided into smaller and smaller ones, up to thin arterioles, which break up into capillaries that form an extensive network in various tissues. From it, blood enters thin venules; connecting with each other, they gradually form larger veins. Blood is called arterial if it is enriched with O 2 in the respiratory organs, depleted in oxygen after passing through the capillary networks of other organs - venous.
Nemerteans have the simplest type of closed circulatory system (2 or 3 longitudinal blood vessels are connected to each other by bridges). In many of them, the blood circulation is not ordered: the blood moves through the vessels back and forth with contractions of the muscles of the body. In the so-called hoplonemertins, the walls of the vessels acquired contractility; blood flows forward through the median dorsal vessel, and back through the two lateral vessels. In the closed circulatory system of annelids, the dorsal and abdominal longitudinal vessels are connected by vascular arches that run in septa between body segments. Arteries depart from them to the lateral appendages of the body (parapodia) and gills; the movement of blood is provided by the pulsation of the walls of some vessels; blood flows forward through the dorsal vessel, back through the abdominal vessel.
Arthropods, brachiopods and mollusks develop a heart. In the course of evolution, the circulatory system in arthropods loses its closedness: the hemolymph from the arteries enters the system of lacunae and sinuses and returns to the heart through holes in its walls (ostia), equipped with valves that prevent its reverse movement. This is most pronounced in insects, which is associated with the increased development of their tracheal system, which transports O 2 and CO 2. In mollusks, all transitions from an open to an almost closed (cephalopod) circulatory system are observed, there is an increase in the function of the heart; it has atria, into which, in some groups, veins flow, collecting hemolymph from the peripheral sinuses. In cephalopods, a circulatory system is formed, including capillary networks, and the heart is supplemented by pulsating vessels at the bases of the gills (the so-called gill hearts).
The circulatory system reaches considerable perfection during the evolution of chordates. In non-cranial (lancelets), the role of the heart is performed by a pulsating longitudinal vessel passing under the pharynx - the abdominal aorta. Branchial arteries depart from it, located in the partitions between the gill slits. Enriched with O 2 blood enters the dorsal aorta and arteries extending from it to various organs. To the head end of the body, blood enters from the anterior branchial arteries through the carotid arteries. From the capillary networks, blood is collected into veins, the most important of which are the longitudinal paired anterior (from the head end of the body) and posterior (from the area behind the pharynx) cardinal veins that flow into the Cuvier ducts (through which blood enters the abdominal aorta). The hepatic vein also flows there, carrying blood from the capillary network of the portal system of the liver. In vertebrates, the heart is formed from the posterior part of the abdominal aorta, which in cyclostomes and fish includes the venous sinus, atrium, ventricle, and arterial cone. In cyclostomes, the circulatory system is not yet closed: the gills are surrounded by paragill sinuses. All other vertebrates have a closed circulatory system; it is complemented by an open lymphatic system. In most fish, arterial blood from the gills enters the carotid arteries and dorsal aorta, while the heart receives venous blood from the capillary networks of the head and body organs.
Ancient lobe-finned fish developed additional respiratory organs - lungs, which allow breathing atmospheric air with a deficiency of O 2 dissolved in water. An additional small (pulmonary) circulation appears: the lungs receive venous blood through the pulmonary arteries (originated from the posterior pair of branchial arteries) and return arterial blood saturated with O 2 through the pulmonary veins to the isolated left atrium. The left side of the heart becomes arterial, while the right side still receives venous blood from the rest of the body. A system of internal partitions and valves is formed in the heart, distributing blood in such a way that arterial blood from the left atrium (from the lungs) enters mainly into the carotid arteries and goes to the head (the brain is most sensitive to oxygen deficiency), and venous blood - from the right atrium to gills and lungs.
Terrestrial vertebrates have undergone further rearrangements of the circulatory system. The heart of amphibians is divided into the venous sinus, which flows into the right atrium, left atrium, common ventricle and conus arteriosus. The loss of the gills led to the reduction of the abdominal aorta; gill arteries became part of the carotid arteries, aortic arches and pulmonary arteries, starting from the arterial cone. The aortic arches form the dorsal aorta. In the venous system, the posterior cardinal veins are reduced, functionally replaced by the unpaired posterior vena cava. The anterior cardinal veins are called the superior (internal) jugular veins, and the Cuvier ducts are called the anterior vena cava. In amphibians, an important additional respiratory organ is the skin, arterial blood from which enters through the vena cava into the venous sinus and then into the right atrium, and arterial blood from the lungs through the pulmonary veins into the left atrium. Arterial blood from both respiratory organs mixes with venous blood in the common ventricle of the heart.
In reptiles, with the improvement of the lung ventilation mechanism, the need for skin respiration disappeared. In most of them, the venous sinus and arterial cone were reduced; the heart consists of two atria and a ventricle, in which there is an internal, usually incomplete (with the exception of crocodiles) septum, which allows you to partially separate the flows of arterial and venous blood coming from the left and right atria, and redistribute them in accordance with physiological needs. Reptiles retain 2 aortic arches, from which the right one receives arterial blood, and the left one - mixed; venous blood enters the pulmonary artery.
In birds and mammals, the complete separation of the ventricle of the heart resulted in the formation of four chambers: the left and right atria and the ventricles. The only surviving aortic arch (right in birds, left in mammals and humans) starts from the left ventricle, passes into the carotid and subclavian arteries and into the dorsal aorta. The common pulmonary artery originates from the right ventricle. The portal system of the kidneys, which was present in most primitive vertebrates (except cyclostomes), is reduced. All these changes in the circulatory system contributed to a significant increase in the overall level of metabolism in birds and mammals.
Lit .: Tatarinov L.P. Evolution of the apparatus for dividing blood currents in the heart of vertebrates // Zoological Journal. 1960. T. 39. Issue. 8; Beklemishev VN Fundamentals of comparative anatomy of invertebrates. 3rd ed. M., 1964. T. 2; Romer A., Parsons T. Vertebrate Anatomy. M., 1992. T. 2.
is an area of essential knowledge related to health.
Humans are 60% liquid. It is found in all organs, even in those that at first glance seem dry - nail plates and. Neither, nor, nor even are possible without the participation of lymph and tissue fluid.
circulatory system
Blood circulation is an important factor in the life of the human body and a number of animals. Blood can perform its various functions only when it is in constant motion.
Blood circulation occurs along two main paths, called circles, connected in a sequential chain: a small and a large circle of blood circulation.
In a small circle, blood circulates through the lungs: from the right ventricle it enters the lungs, where it is saturated with oxygen and returns to the left atrium.
Then the blood enters the left ventricle and is sent through the systemic circulation to all organs of the body. From there, the blood carries carbon dioxide and decay products through the veins to the right atrium.
Closed circulatory system
A closed circulatory system is a circulatory system in which there are veins, arteries and capillaries (in which the exchange of substances between blood and tissues takes place), and blood flows exclusively through the vessels.
A closed system differs from an open circulatory system by the presence of a well-developed four-chambered, three-chambered, or two-chambered heart.
The movement of blood in a closed circulatory system is provided by the constant contraction of the heart. Blood vessels in a closed circulatory system are located throughout the body. In an open one, there is only one open blood path.
Human circulatory system
Colorless cells that look like amoebas are called leukocytes. They are protectors, as they fight against harmful microorganisms. The smallest platelets are called platelets.
Their main task is to prevent blood loss in case of damage to blood vessels, so that any cut does not become a mortal threat to humans. Erythrocytes, leukocytes and platelets are called blood cells.
Blood cells float in plasma - a light yellow liquid, which is 90% composed of. Plasma also contains proteins, various salts, enzymes, hormones, and glucose.
The blood in our body moves through a system of large and small vessels. The total length of blood vessels in the human body is approximately 100,000 km.
main organ of the circulatory system
The main organ of the human circulatory system is the heart. It consists of two atria and two ventricles. Arteries leave the heart, through which it pushes blood. Blood returns to the heart through the veins.
With the slightest injury, blood begins to flow from the damaged vessels. Blood clotting is provided by platelets. They accumulate at the site of injury and secrete a substance that promotes blood clotting and the formation of a blood clot (clot).
- For a more accurate diagnosis of diseases, blood tests are done. One of them is clinical. It shows the quantity and quality of blood cells.
- Since blood enriched with oxygen moves through the arteries, the arterial membrane, unlike the venous one, is more powerful and has a muscular layer. This allows it to withstand high pressure.
- One drop of blood contains more than 250 million erythrocytes, 375 thousand leukocytes and 16 million platelets.
- The contractions of the heart ensure the movement of blood through the vessels to all organs and tissues. At rest, the heart beats 60-80 times per minute, which means that about 3 billion contractions occur in a lifetime.
Now you know everything about the human circulatory system that an educated person should know. Of course, if your specialization is medicine, then you can tell much more about this topic.
