Transcript Chapter 25
Chapter 25: Animal Reproduction And Development There are two types of reproduction in animals – sexual and asexual. • Asexual reproduction is more efficient than sexual reproduction. • There is no waste of gametes that fail to unite to form an offspring. • Many animals reproduce asexually, at least some of the time. • Sexual reproduction has the advantage of genetic recombination, which can lead to more adaptation of the species. • Fertilization may be internal, as with humans, or external, as with many fish species. Asexual Reproduction • In asexual reproduction, there is no fusion of sperm and egg • A common form of asexual reproduction is budding, where a miniature version of the animal grows directly on the body of the adult, drawing nourishment from the parent. When it is large enough, it breaks off, becoming independent. • The females of some species can reproduce by a process in which haploid egg cells develop into adults without being fertilized. Males are not necessary to the survival of the species. Sexual Reproduction • Spermatogenesis, or the production of sperm, does not begin until males reach puberty. At that time, cells in the testes begin producing testosterone, the hormone that initiates spermatogenesis and stimulates the development of secondary sexual characteristics. • Oogenesis, the formation of egg cells, actually begins in the developing ovaries of the female fetus. By the time a girl is born, she has all the oocytes she will ever produce. By puberty, only about 400,000 oocytes remain of the original 2 million, and they mature into eggs. Steps in Human Reproduction • Copulation • Fertilization • Implantation • Gestation • Birth • An end to life as you knew it! Fertilization has three functions: 1. transmission of genes from both parents to offspring 2. restoration of the diploid number of chromosomes reduced during meiosis 3. 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 is the first step in development of ALL multi-celled organisms. Cleavage converts a single-celled zygote into a multi-celled 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 fluid-filled 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. 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 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. Gastrulation involves a series of cell migrations to positions where they will form the three primary cell layers. •The ectoderm forms the outer layer. •The endoderm forms the inner layer. •The mesoderm forms the middle layer. Ectoderm The ectoderm forms tissues associated with outer layers: skin, hair, sweat glands, epithelium. The brain and nervous system also develop from the ectoderm. Mesoderm The mesoderm forms structures associated with movement and support: body muscles, cartilage, bone, blood, and all other connective tissues. Reproductive system organs and kidneys form from mesoderm. Endoderm 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. So what happens when there is no fertilization of the egg? 1. follicle stage (10-14 days average duration) - production of ova/eggs occurs in tiny cavities in the ovary called follicles; enlarging follicle produces estrogen causing the uterus to get ready for embryo implantation (uterus thickens its lining) 2. ovulation (1 day) - follicle enlarges and ruptures ovary wall; egg is released to the oviduct (usually only 1 is released at a time) 3. corpus luteum stage (10 -14 days average duration) yellow tissue fills the follicle after ovulation called the corpus luteum; "yellow body" secretes progesterone which maintains the thickness of the uterus in case a pregnancy occurs 4. menstruation (3-5 days average duration) - periodic shedding of the thickened lining of the uterus Women’s Reproductive Health Concerns • • • • • • Endometriosis Breast Cancer Ovarian Cancer Cervical Cancer Premenstrual Syndrome Premenstrual Dysphoric Disorder • Dysmennorhea • Polycystic Ovarian Syndrome • Fibrocystic Disease • Abnormal Bleeding • Unplanned Pregnancy • Miscarriage • Multiple Births • Sexually Transmitted Diseases Sex, pregnancy, and childbirth can all be wonderful, beautiful experiences. The trick is approaching all of them with your eyes wide open, and having as much knowledge as possible. Chapter 25 Credits/Resources The Reproductive System http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookREPRO D.html#Fertilization%20and%20Cleavage The Visible Embryo http://www.visembryo.com/baby/index.html Regents Prep: The Human Reproductive Cycle http://regentsprep.org/Regents/biology/units/reproduction/human.cfm Washington State Midwives Reproductive Health Care Resources and Websites http://www.midwivesofwa.org//reprodhc.htm Webshots www.webshots.com