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Transcript
Unit 8: Part 2: Fertilization/Development and Human Reproduction Key Questions 1. Why is sexual reproduction advantageous over asexual reproduction? 2. What structures make up the male and female reproductive systems? 3. How do offspring of sexually-reproducing organisms receive their genetic information? Key Questions 4. Why do the offspring look different from the parents? 5. What controls human reproduction and development? 6. How does a zygote develop and what factors can affect its development? Question??? • Why is sexual reproduction advantageous over asexual reproduction? Reproductive Systems • Goal of male and female reproductive systems is to create gametes, deliver them, and in females, to allow for embryonic and fetal development. Compare the Gametes EGGS SPERM Non-Motile Motile Large Small Nucleus Neck Tail Yolk/Cytopla sm Head/ Nucleus Human Egg Cell Bat sperm (mitochondria) Human Sperm Human Reproduction Comparison of male and female reproductive anatomy Female Reproductive System • 2 Functions of the female reproductive system: 1. 2. To produce eggs. To provide an environment for internal fertilization and development of embryo. Female Reproductive System • FYI: – Facts: • Females have about 2 million eggs at birth. • 400,000 eggs survive to puberty. • Only 450 – 500 eggs mature and leave the ovaries. Female Reproductive System Structure Ovaries Function 1. Produce eggs 1. Secrete sex hormones (estrogen and progesterone) Follicles 1. Tiny egg sacs where eggs mature within the ovaries. Female Reproductive System Structure Fallopian Tubes (Oviduct) Uterus Function 1. Tube that egg travels through from ovary to uterus. 2. Where fertilization occurs!!! (within 48 hrs of egg release) 1. Thick muscular organ 2. Where fertilized egg develops until birth Female Reproductive System Structure Function Cervix 1. Muscular tube between uterus and vagina Vagina 1. Also called birth canal 2. Connects uterus to outside the body. Male Reproductive System • Main function of the male reproductive system: 1. Produce and deliver sperm. Male Reproductive System Structure Testes Function 1. Has small coiled tubes-seminiferous tubules – where sperm cells are produced. 2. Produce testosterone-necessary for sperm production. Scrotum 1. Contains the testes 2. Temperature is 1-2 degrees cooler than body – provides “optimal” environment for sperm production. Male Reproductive System Structure Function Epididymis 1. Where sperm mature (takes about 18 hours) after leaving seminiferous tubules and are stored. Vas Deferens 1. Tubes that leave each of the testes and join the urethra. Male Reproductive System Structure Function Urethra 1. Tube leading to outside of male body. 2. Both semen and urine pass through this tube. 3. Semen traveling through penis = land adaptation for internal fertilization. Male Reproductive System System Function Prostate gland Seminal Vesicles Cowper’s Gland 1. Secrete fluids into the urethra when sperm pass through - transport medium for sperm. Semen 1. Mixture of sperm + seminal fluids = semen 1. 3.5 mL of semen released-contains 400 million sperm. Reproductive System • Spermatogenesis Video – (on server-40 sec.) • What is the role of the menstrual cycle??? Human Menstrual Cycle • Feedback mechanism regulated by interaction of various glands and hormones • Cycle begins at puberty (around age 1014) • Cycle stops during pregnancy and at menopause (age 45-55) Human Menstrual Cycle • Egg is prepared matures and released from ovary; uterus prepares to receive it (if fertilized) • There are 4 stages of the menstrual cycle Human Menstrual Cycle Stage 1 Follicle Stage FSH – Follicle stimulating hormone 1. FSH is secreted by pituitary gland to stimulate 1 follicle to mature an egg. 1. Estrogen is secreted by the follicle. Estrogen 2. Causes vascularization (uterine lining thickens with a rich supply of blood vessels) Human Menstrual Cycle Stage 2 Ovulation LH – 1. High level of estrogen (from Luteinizing follicle makes pituitary Hormone gland decrease FSH level 2. As level of FSH decreases, pituitary gland secretes LH (luteinizing hormone). 3. Ovulation – high level of LH causes the release of an egg from follicle in ovary Human Menstrual Cycle Stage 3 Corpus Luteum Stage Progesterone 1. Corpus luteum (empty follicle that fills in with fluid/cells) secretes progesterone 2. Progesterone maintains the vascularization of the uterus. Human Menstrual Cycle Stage 4 Menstruation 1. Occurs when fertilization does NOT take place. 2. Shedding of the uterine lining caused by decrease in progesterone levels 3. Low progesterone levels cause pituitary to start with FSH production – starts all over again Menstrual Cycle • http://www.abpischools.org.uk/page/modul es/hormones/horm4.cfm?age=Age%20ran ge%2014-16&subject=Biology Golden Ticket • Name the female reproductive system structures the sperm need to travel through to get to an egg (hint: there are 4). The joining of the gametes… Reproduction • Fertilization: Fusion of of gametes to produce a zygote. • Zygote: A fertilized egg Fertilization fertilization + 1n 1n 2n Zygote • Fertilization RESTORES the chromosome number (2n) Zygote Fertilization • Eggs are NON-MOTILE (don’t move on their own), so sperm must find the egg. –A fluid environment is necessary so sperm can swim to the egg. Internal Fertilization • Gametes fuse inside the female’s body. • Occurs in terrestrial (land) environment. FYI – External Fertilization • Gametes join outside of the female’s body in an water environment so sperm can swim to eggs • Large number of gametes (eggs) released to be sure some will survive (No parental care after birth) External Fertilization Embryonic Development: • Define Development: –Orderly series of changes that occur in an organism. –In humans, development occurs inside the female’s body Development Zygotes undergo a series of early mitotic cell divisions called CLEAVAGE. Once cleavage begins, the zygote is considered a developing embryo. Development 2 cells 4 cells 8 cells Development • Early stages of cleavage results in a solid ball of cells called a MORULA. • Draw: A solid ball of cells Development • They are re-arranged into a HOLLOW BALL of cells 1 cell thick called a BLASTULA. • Draw: The middle has been ‘blasted out’ Stem Cells • Up until this point in the embryo’s development, the cells are referred to as stem cells. • The cells have not become specialized yet – they are all the same. Stem Cells Video (13:40) • (on server – stem cell research) – http://www.pbs.org/wgbh/nova/body/stemcells-research.html Development • When the blastula reaches hundreds of cells, 1 side indents to form a 2-layered embryo called a GASTRULA. Development The process of indentation is called GASTRULATION. • Outer layer is called ectoderm • Inner layer is endoderm Draw: ectoderm endoderm Video Clips • Fertilization (on server-1 min.) • Differentiation (on server-2 min.) Development • After the endoderm and ectoderm form, a middle layer forms between them called the MESODERM. ectoderm Draw: mesoderm endoderm Development FYI• Endoderm, mesoderm, and ectoderm are embryonic layers, or GERM LAYERS. Development • Differentiation: Occurs during gastrulation. – Cells become special kinds of cells to do certain jobs (specialization) (no longer stem cells) – genes turn on/off – The 3 germ layers give rise to various tissues, organs, and systems. Differentiated Cells Development FYI: • Ectoderm – hair, skin, nails, nervous system • Mesoderm – bones, muscles, circulatory system, excretory system, reproductive system • Endoderm – Digestive system, respiratory system, liver, pancreas Development • For proper development, the embryo needs nourishment, oxygen, proper temperature, protection, and waste removal. FYI • Many organisms have external development. – Occurs outside the female’s body. • Nourishment comes from yolk in egg. • Little or no protection. • Example: frogs, fish Jawfish Male jawfish care for eggs in his mouth until they hatch Chick - 9 days • 1. The clear fluid surrounding the chick is the amnion. • 2. The yellow area covered with a blood system is the yolk. • 3. The blood system in the piece of egg shell is the allantois. • 4. The milky, clear material to the right of the shell is albumen. Human Embryonic Development • Human females have specialized structures to allow for internal development. Internal Development – After fertilization, the dividing by mitosis embryo travels from fallopian tube to uterus – Implantation - embryo embeds itself in think uterine lining (marks beginning of pregnancy – occurs 5-10 days after fertilization) • Differentiation begins to occur – cluster of cells from inner cell mass becomes embryo rest becomes surrounding tissues • Pregnancy tests test for HCG Internal Development • Special structure forms called a PLACENTA – formed to nourish embryo and remove wastes. • Allows for exchange of nutrients, wastes, gases between mom and embryo by process of DIFFUSION. Internal Development • There is NO DIRECT CONNECTION between mom and embryo’s blood streams. • UMBILICAL CORD – structure that attaches embryo to placenta. – Blood vessels (2 arteries and 1 vein) in cord transports blood back and forth from embryo and placenta Placenta Umbilical Cord Blood Banking • http://www.cordblood.com/benefits-cordblood/umbilical-cord-stem-cells Problems… • Placenta previa Internal Development • Amniotic Fluid – – Liquid within a membrane that protects embryo/fetus (water, salts, cells, urine from baby). – Gives it a stable environment and absorbs shock Early Development • The early stages of development are very important – external factors can disrupt development at this time – Environmental factors such as inadequate diet, use of alcohol/drugs/tobacco, other toxins, infections can harm embryonic development Fetal Development • After 8 weeks of development = fetus • During months 4-6, fetus becomes more complex and specialized • Last 3 months – systems mature and fetus grows in size and mass • Gestation – length of time from fertilization to birth (40 weeks in humans – about 9 months) Fetal Development Internal Development • Child Birth – About 9 months after fertilization – Complex factors trigger process • Hormones released by pituitary gland (oxytocin) triggers uterus to contract – Causes cervix to open – Amniotic sac may break – Labor – • Baby is delivered head first • Umbilical cord is clamped and cut • Mother delivers placenta Problem… • Cesarean section • Umbilical cord around baby’s neck (25%) After Birth • After birth, mother produces a hormone (prolactin) which stimulates production of milk in mother’s breast tissues • The nutrients found in breast milk have everything the baby needs for growth and development in early life Internal Development FYI- b. Non-Placental Mammals – Internal fertilization and development in uterus (no placenta). – Young are born prematurely – then crawl into pouch-attach to mammary glands. Internal Development • Development is completed in pouch • “Survival of the fittest.” • Examples – Marsupials (pouched mammals) kangaroo, opossum Non-placental mammals: marsupials Wombat Other - Twins • Identical • Fraternal Other-Twins • Siamese/Conjoined Twins Other • Reproductive Technologies Applicable NYS Learning Standards • 2.1e, 3.1g, 4.1c, 4.1d, 4.1e, 4.1f, 4.1g, 4.1h
