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Blood

Blood is a bright red viscous fluid which flows through all the vessels except the lymph vessels. It constitutes 8% of the total body weight.
Blood is composed of two portions: 
  • Formed elements(cell and cell-like structures)
  • Plasma (liquid containing dissolved substances)BloodBlood

Plasma

  • Plasma is the liquid component of the blood. Mammalian blood consists of a liquid (plasma) and a number of cellular and cell fragment components.
  • Plasma is about 60% of the volume of blood, cells and fragments are 40%. Plasma has 90% water and 10% dissolved materials including proteins, glucose, ions, hormones, and gases.
  • It acts as a buffer, maintaining pH near 7.4. Plasma contains nutrients, wastes, salts, proteins, etc. Proteins in the blood aid in transport of large molecules such as cholesterol.

1. Red Blood CellsNCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

  • Red blood cells, also known as erythrocytes, are flattened, doubly concave cells about 7 μm in diameter that carry oxygen associated in the cell’s hemoglobin.
  • Mature erythrocytes lack a nucleus. They are small, 4 to 6 million cells per cubic millimeter of blood, and have 200 million hemoglobin molecules per cell.
  • Humans have a total of 25 trillion red blood cells (about 1/3 of all the cells in the body).
  • Red blood cells are continuously manufactured in red marrow of long bones, ribs, skull, and vertebrae.
  • The lifespan of an erythrocyte is only 120 days, after which they are destroyed in the liver and spleen.
  • Iron from hemoglobin is recovered and reused by red marrow. The liver degrades the heme units and secretes them as pigment in the bile, responsible for the color of feces.
  • Each second two million red blood cells are produced to replace the dead red blood cells.

2. White Blood Cells
White blood cells, also known as leukocytes, are larger than erythrocytes, have a nucleus and lack hemoglobin. They function in the cellular immune response. White blood cells (leukocytes) are less than 1% of the blood’s volume. They are made from stem cells in the bone marrow.NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

There are five types of leukocytes, which are important components of the immune system:

(i) Neutrophils enter the tissue fluid by squeezing through capillary walls and phagocytizing foreign substances.

(ii) Macrophages release white blood cell growth factors, causing a population increase for white blood cells.

(iii) Lymphocytes fight infection.

(iv) T-cells attack cells containing viruses.

(v) B-cells produce antibodies. Antigen-antibody complexes are phagocytized by a macrophage. White blood cells can squeeze through pores in the capillaries and fight infectious diseases in intestinal areas.

3. PlateletsNCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

  • Platelets result from cell fragmentation and are involved with clotting.
  • Platelets are cell fragments that bud off megakaryocytes in bone marrow. They carry chemicals essential to blood clotting.
  • Platelets survive for 10 days before being removed by the liver and spleen.
  • There are 150,000 to 300,000 platelets in each milliliter of blood.
  • Platelets stick and adhere to tears in blood vessels, they also release clotting factors. A hemophiliac’s blood cannot clot. Providing correct proteins (clotting factors) has been a common method of treating hemophiliacs. It has also led to HIV transmission due to the use of transfusions and use of contaminated blood products.

The Reproductive System

1. Asexual Reproduction

  • Asexual reproduction allows an organism to rapidly produce many offspring without the time and resources committed to courtship, finding a mate, and mating.
  • Fission, budding, fragmentation, and the formation of rhizomes and stolons are some of the mechanisms that allow organisms to reproduce asexually.NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSENCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE
  • Starfish can regenerate an entire body from a fragment of the original body. 
  • The lack of genetic variability in asexually reproducing populations can be detrimental when environmental conditions change quickly.

2. Sexual Reproduction

  • In sexual reproduction, new individuals are produced by the fusion of haploid gametes to form a diploid zygote
  • Sperm are male gametes, ova (ovum singular) are female gametes.
  • Meiosis produces cells that are genetically distinct from each other.
  • Fertilization is the fusion of two such distinctive cells.
  • Rotifers will reproduce asexually when conditions are favorable by having females produce eggs by mitosis. When conditions deteriorate, rotifers will reproduce sexually and encase their zygotes inside a resistant shell. Once conditions improve, these eggs hatch into diploid individuals. Rotifers thus use sexual reproduction as way to survive a deteriorating environment.
  • Sexual reproduction offers the benefit of generating genetic variation among offspring, which enhances the chances of the population’s survival.
  • Costs of this process include the need for two individuals to mate, courtship rituals, as well as a number of basic mechanisms described later. 

3. Human Reproduction and Development 

  • Human reproduction employs internal fertilization and depends on the integrated action of hormones, the nervous system, and the reproductive system
  • Gonads are sex organs that produce gametes. Male gonads are the testes, which produce sperm and male sex hormones. Female gonads are the ovaries, which produce eggs (ova) and female sex hormones.

(a) The Male Reproductive System 

  • Testes are suspended outside the abdominal cavity by the scrotum, a pouch of skin that keeps the testes close or far from the body at an optimal temperature for sperm development.
  • Seminiferous tubules are inside each testis and are where sperm are produced by meiosis. About 250 meters (850 feet) of tubules are packed into each testis.Male Reproductive System
    Male Reproductive System
  • Spermatocytes inside the tubules divide by meiosis to produce spermatids that in turn develop into mature sperm.
  • Sperm production begins at puberty and continues throughout life, with several hundred million sperm being produced each day. Once sperm form they move into the epididymis, where they mature and are stored.
  • Male Sex Hormones: The anterior pituitary produces follicle-stimulating hormone (FSH) and luteinizing hormone (LH). Action of LH is controlled by the gonadotropin-releasing hormone (GnRH). LH stimulates cells in the seminiferous tubules to secrete testosterone, which has a role in sperm production and developing male secondary sex characteristics. FSH acts on cells to help in sperm maturation. Negative feedback by testosterone controls the actions of GnRH.
  • Sexual Structures: Sperm pass through the vas deferens and connect to a short ejaculatory duct that connects to the urethra. The urethra passes through the penis and opens to the outside. Secretions from the seminal vesicles add fructose and prostaglandins to sperm as they pass. 
  • The prostate gland secretes a milky alkaline fluid. The bulbourethral gland secretes a mucus-like fluid that provides lubrication for intercourse. Sperm and secretions make up semen.

(b) The Female Reproductive SystemNCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

  • The female gonads are ovaries, which are located within the lower abdominal cavity.
  • The ovary contains many follicles composed of a developing egg surrounded by an outer layer of follicle cells.
  • At birth, each female carries a lifetime supply of developing oocytes, each of which is in Prophase I.
  • A developing egg (secondary oocyte) is released each month from puberty until menopause, a total of 400-500 eggs.

 Ovarian Cycles 

  • After puberty the ovary cycles between a follicular phase (maturing follicles) and a luteal phase (presence of the corpus luteum).
  • These cyclic phases are interrupted only by pregnancy and continue until menopause when reproductive capability ends.
  • The ovarian cycle lasts usually 28 days.
  • During the first phase, the oocyte matures within a follicle. At the midpoint of the cycle, the oocyte is released from the ovary in a process known as ovulation. Following ovulation, the follicle forms a corpus luteum which synthesizes and prepares hormones to prepare the uterus for pregnancy.
  • The secondary oocyte passes into the oviduct (fallopian tube or uterine tube). The oviduct is connected to the uterus.
  • The uterus has an inner layer, the endometrium, in which a fertilized egg implants. At the lower end of the uterus, the cervix connects the uterus to the vagina. The vagina receives the penis during intercourse and serves as the birth canal. Ovarian Cycle
    Ovarian Cycle

 External Genitals

  • The female external genitals are collectively known as the vulva.
  • The labia minora is a thin membrane of folded skin just outside the vaginal opening.
  • The labia majora cover and protect the genital area.
  • A clitoris, important in arousal, is a short shaft with a sensitive tip covered by a fold of skin. Female External Genital
    Female External Genital

(c) Hormones and Female Cycles

  • The ovarian cycle is hormonally regulated in two phases. The follicle secretes estrogen before ovulation, the corpus luteum secretes both estrogen and progesterone after ovulation.
  • Hormones from the hypothalamus and anterior pituitary control the ovarian cycle. The ovarian cycle covers events in the ovary, the menstrual cycle occurs in the uterus.
  • Menstrual cycles vary from between 15 and 31 days. The first day of the cycle is the first day of blood flow (day 0) known as menstruation.NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE
  • During menstruation, the uterine lining is broken down and shed as menstrual flow.
  • FSH and LH are secreted on day 0, beginning both the menstrual cycle and the ovarian cycle.
  • Both FSH and LH stimulate the maturation of a single follicle in one of the ovaries and the secretion of estrogen. Rising levels of estrogen in the blood trigger secretion of LH, which stimulates follicle maturation and ovulation (day 14, or midcycle). LH stimulates the remaining follicle cells to form the corpus luteum, which produces both estrogen and progesterone.
  • Estrogen and progesterone stimulate the development of the endometrium and preparation of the uterine inner lining for implantation of a zygote. If pregnancy does not occur, the drop in FSH and LH cause the corpus luteum to disintegrate. The drop in hormones also causes the sloughing off of the inner lining of the uterus by a series of muscle contractions of the uterus.

(d) Sexual Responses

  • Humans do not have a mating season, females are sexually receptive to the male at all times of the year.
  • There are four stages in mating:
    (i) Arousal
    (ii) Plateau
    (iii) Orgasm
    (iv) Resolution
  • During male arousal, blood flows into the three shafts of spongy erectile tissue inside the penis, causing it to become elongated and erect. The female arousal has the swelling of the areas around the vagina, erection of the clitoris and nipples, and secretion of lubricating fluids in the vagina.
  • After insertion of the penis into the vagina, pelvic thrusts by both partners stimulate sensory receptors in the penis, vaginal walls, and clitoris. The sperm leave the epididymis and secretions of glands from the semen. Orgasm involves contractions of muscles of the penis (male) or vagina (female) and waves of pleasurable sensations.
  • Resolution reverses the previous phases: Muscles relax, Breathing slows, The penis returns to its normal size.

4. Sexually Transmitted Diseases

NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

STDs can affect sex partners, fetus, and newborn infants. STDs are grouped into three categories:

(a) Category One: STDs that produce inflammation of the urethra, epididymis, cervix, or oviducts. Gonorrhea and chlamydia are the most common STDs in this category. Both diseases can be treated and cured with antibiotics, once diagnosed.

(b) Category Two: STDs that produce sores on the external genitals. Genital herpes is the most common disease in this class. Symptoms of herpes can be treated by antiviral drugs, but the infection cannot be cured. Syphilis is a bacterially caused infection, and can, if left untreated, cause serious symptoms and death. However, the disease is curable with antibiotics.

(c) Category Three: This class of STDs includes viral diseases that affect organ systems other than those of the reproductive system. AIDS and hepatitis B are in this category. Both can be spread by sexual contact or blood. Infectious individuals may appear symptom-free for years after infection.NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

5. Reproduction: Various Contraceptive Methods

  • New techniques have been developed to enhance or reduce the chances of conception. Social conventions and governing laws have developed far slower than this new technology, leading to controversy about moral, ethical, and legal grounds for the uses of such technologies.
  • The separation of intercourse from pregnancy uses methods blocking one of the three stages of reproduction:
    (i) Release and transport of gametes
    (ii) Fertilization
    (iii) Implantation

Effectiveness

  • Various contraceptive methods have been developed, none of which is 100% successful at preventing pregnancy or the transmission of STDs. Abstinence is the only completely effective method.

Methods

  • Physical prevention (most effective) include vasectomy and tubal ligation.
  • Vasectomy: The vas deferens connecting the testes with the urethra is cut and sealed to prevent the transport of sperm.Vasectomy
    Vasectomy
  • Tubal ligation: The oviduct is cut and ends tied off to prevent eggs from reaching the uterus.Tubal Ligation
    Tubal Ligation
  • Oral contraceptives: (birth control pills) It usually contain a combination of hormones that prevent release of FSH and LH, inhibiting development of the follicle so that no oocytes are released. Time-release capsules (Norplant) can be implanted under the skin and offer long-term suppression of ovulation. RU-486, the so-called morning after pill, interferes with implantation of the blastula into the uterine wall. Its use as a contraceptive is very controversial.
  • Barrier methods: It employ physical (condom, diaphragm) or chemical (spermacides) means to separate the sperm from the egg. Male condoms are fitted over the erect penis, female condoms are placed inside the vagina. Only latex condoms prevent the spread of STDs. Diaphragms cap the cervix and block passage of the sperm into the uterus. Spermicidal jellies or foams kill sperm on contact and must be placed in the vagina prior to intercourse.

6. Infertility

About 1 in 6 couples is infertile due to physical or physiological conditions preventing gamete production, implantation, or fertilization.

 Cause of Infertility

  • Blocked oviducts (often from untreated STDs) are the leading cause of infertility in females. Low sperm count, low motility, or blocked ducts are common causes of male infertility.
  • Hormone therapy can cause increased egg production. Surgery can open blocked ducts. About 40 of the cases are due to male problems, 40 due to female problems, and the remaining 20% are caused by some unknown agent(s). In vitro fertilization (test-tube babies) is a widely used technique to aid infertile couples.

7. Fertilization and Cleavage 


 Fertilization Has Three Functions
(i) Transmission of genes from both parents to offspring.
(ii) Restoration of the diploid number of chromosomes reduced during meiosis.
(iii) Initiation of development in offspring.

Steps in Fertilization

  • Contact between sperm and egg
  • Entry of sperm into the egg
  • Fusion of egg and sperm nuclei
  • Activation of development

Cleavage

  • Cleavage is the first step in development of all multicelled organisms. Cleavage converts a single-celled zygote into a multicelled embryo by mitosis. Usually, the zygotic cytoplasm is divided among the newly formed cells. Frog embryos divide to produce 37,000 cells in a little over 40 hours. The blastula is produced by mitosis of the zygote, and is a ball of cells surrounding a fluidfilled cavity (the blastocoel).
  • The decreasing size of cells increases their surface to volume ratio, allowing for more efficient oxygen exchange between cells and their environment. RNA and information carrying molecules are distributed to various parts of the blastula, and this molecular differentiation sets the stage for the layering of the body in the next phases of development.NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

 Gastrulation

Gastrulation involves a series of cell migrations to positions where they will form the three primary cell layers:

  • Ectoderm (forms the outer layer): Ectoderm forms tissues associated with outer layers: skin, hair, sweat glands, epithelium. The brain and nervous system also develop from the ectoderm.
  • Mesoderm (forms the middle layer): The mesoderm forms structures associated with movement and support: body muscles, cartilage, bone, blood, and all other connective tissues. Reproductive system organs and kidneys from mesoderm.
  • Endoderm (forms the inner layer): The endoderm forms tissues and organs associated with the digestive and respiratory systems. Many endocrine structures, such as the thyroid and parathyroid glands, are formed by the endoderm. The liver, pancreas, and gall bladder arise from endoderm. 

➢ Invagination

  • Immediately after gastrulation, the body axis of the embryo begins to appear. Chordates have the cells that will form the nervous system fold into a neural tube (which will eventually form the spinal cord). 
  • The mesoderm forms the notochord (which will eventually form the vertebrae). The mesoderm at this time forms somites, which form segmented body parts, such as the muscles of the body wall.

 Pattern Formation and Induction

  • Blastulation and gastrulation establish the main body axis. Organ formation occurs in the next stage of the development of the embryo. During organ formation, cell division is accomplished by migration and aggregation. Pattern formation is the result of cells “sensing” their position in the embryo relative to other cells and to form structures appropriate to that position.
  • Gradients of informational molecules within the embryo have been suggested to provide the positional information to cells. Homeobox genes are pattern genes, they coordinate with gradients of information molecules to establish the body plan and development of organs. Induction is the process in which one cell or tissue type affects the developmental fate of another cell or tissue.
  • As a cell begins to form certain structures, certain genes are turned on, others are turned off. Induction affects patterns of gene expression through physical contact or chemical signals. The formation of the vertebrate eye is a well-known example.

 Various Stages of Fertilization

  • Fertilization, the fusion of the sperm and egg, usually occurs in the upper third of the oviduct.
  • Thirty minutes after ejaculation, sperm are present in the oviduct, having traveled from the vagina through the uterus and into the oviduct. Sperm traverse this distance by the beating of their flagellum. 
  • Of the several hundred million sperm released in the ejaculation, only a few thousand reach the egg. Only one sperm will fertilize the egg. One sperm fuses with receptors on the surface of the secondary oocyte, triggering a series of chemical changes in the outer oocyte membrane that prevent any other sperm from entering the oocyte. 
  • The entry of the sperm initiates Meiosis II in the oocyte. Fusion of the egg and sperm nuclei forms the diploid zygote.NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE

(a) Travels of a Young Zygote 

  • Cleavage of the zygote begins while it is still in the oviduct, producing a solid ball of cells (morula). The morula enters the uterus, continuing to divide, and becomes a blastocyst

(b) Implantation

  • The uterine lining becomes enlarged and prepared for implantation of the embryo in the trophoblast layer. 
  • Twelve days after fertilization, the trophoblast has formed a two-layered chorion. Human chorionic gonadotropin (hCG) is secreted by the chorion and prolongs the life of the corpus luteum until the placenta begins to secrete estrogen and progesterone.
  • Home pregnancy tests work by detecting elevated hCG levels in the woman’s urine.

(c) Placenta

  • Maternal and embryonic structures interlock to form the placenta, the nourishing boundary between the mother’s and embryo’s systems.Placenta
    Placenta
  • The umbilical cord extends from the placenta to the embryo, and transports food to and wastes from the embryo.
The document NCERT Summary: Summary of Biology- 5 | Science & Technology for UPSC CSE is a part of the UPSC Course Science & Technology for UPSC CSE.
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FAQs on NCERT Summary: Summary of Biology- 5 - Science & Technology for UPSC CSE

1. What is plasma and what is its role in the blood?
Ans. Plasma is the yellowish liquid component of blood that makes up about 55% of the total blood volume. It consists of water, proteins, hormones, electrolytes, and waste products. Plasma helps in transporting nutrients, hormones, and waste products throughout the body. It also plays a vital role in maintaining the pH and osmotic balance of the blood.
2. How is blood plasma different from whole blood?
Ans. Blood plasma is the liquid part of blood that remains after the cells, such as red blood cells, white blood cells, and platelets, are removed. Whole blood, on the other hand, contains all the cellular components along with plasma. Plasma is obtained by centrifuging whole blood, separating it from the cells. Thus, the main difference between plasma and whole blood is the absence of cells in plasma.
3. What are the proteins present in blood plasma and their functions?
Ans. Blood plasma contains various proteins, including albumin, globulins, and fibrinogen. Albumin helps maintain the osmotic pressure of blood, transports hormones and fatty acids, and regulates the pH of the blood. Globulins play a crucial role in the immune system by producing antibodies and transporting lipids. Fibrinogen is essential for blood clotting and helps in the formation of blood clots.
4. How is plasma separated from blood for medical purposes?
Ans. Plasma separation is commonly done through a process called plasmapheresis. In plasmapheresis, blood is withdrawn from the body and passed through a machine that separates plasma from the other components, such as red and white blood cells. The separated plasma is collected, and the remaining blood components are returned to the body. This procedure is often used for therapeutic purposes, such as treating autoimmune diseases or collecting plasma for donation.
5. Can plasma be used as a treatment for certain medical conditions?
Ans. Yes, plasma can be used as a treatment for various medical conditions. Plasma from individuals who have recovered from certain infections, like COVID-19, may contain antibodies against the infection. This convalescent plasma can be transfused into patients with the same infection to provide temporary passive immunity. Additionally, plasma can be used in the treatment of clotting disorders, immune deficiencies, and certain autoimmune diseases.
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