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Chapter 47: Animal Reproduction and Development
47.1 Asexual and Sexual Reproduction
Asexual reproduction occurs without the fusion of gametes, results in offspring with genetic material from only one parent, and en yields offspring that are genetically identical to the parent.
Sexual reproduction, in contrast,typically involves the fusion of haploid gametes and results in offspring that are genetically different from each other and from their parents.
There are three main organisms of asexual reproduction.
In budding, an offspring begins to form within or on a parent, such as on the hydra.
In fission, an individual simply splits into two or more descendants, as shown in anemones.
In parthenogenesis (literally,“virgin-origin”), females develop eggs and produce offspring without any genetic contribution from a male.
Parthenogenesis occurs in a diversity of lineages, including certain invertebrates, fishes, lizards, snakes, and birds.
In budding and fission, females clone themselves一that is, produce large numbers of identical copies of themselves asexually.
Once the males have matured, sexual reproduction ensues: by meiosis, males produce haploid sperm and females produce haploid eggs, and these gametes fuse to create diploid offspring.
Fertilization is the fusion of sperm and egg to form a zygote.
Oogenesis is the formation of ova (singular: ovum).
An ovum is also known as a mature egg.
In the vast majority of animals, gametogenesis occurs in a sex organ or gonad.
Male gonads are called testes; female gonads are called ovaries.
In the male gonad, diploid cells called spermatogonia (singular: spermatogonium) divide by mitosis.
The specialized diploid cells produced by spermatogonia are called primary spermatocytes.
They undergo meiosis I and produce two haploid secondary spermatocytes, which then undergo meiosis II.
Each haploid spermatid develops into a spermatozoan (plural: spermatozoa), also commonly known as sperm-a cell that is specialized for carrying a haploid genome from the male through the female reproductive act and fertilizing an egg.
In the female gonad, diploid cells called oogonia (singular: oogonium) divide by mitosis.
When the specialized cells produced by an oogonium, the primary oocytes, undergo meiosis, only one of the haploid cells produced can mature into an egg.
This secondary oocyte is arrested in meiosis II until it is fertilized by a sperm.
47.2 Reproductive Structures and Their Functions
In humans, the external anatomy of the male reproductive system, or genitalia, consists of the scrotum and the penis.
The saclike scrotum holds the testes; the penis functions as the organ of copulation, or sexual intercourse, necessary for internal fertilization.
A vas deferens is a tube with smooth muscle in its walls that transports sperm from the epididymis to the short ejaculatory duct within the prostate gland, where the sperm are mixed with accessory fluids.
The resulting semen then enters the urethra, a longer tube at passes through the penis and services both the reproductive and urinary systems.
The semen is expelled from the body during ejaculation.
Birds are oviparous (“egg-bearing”)animals that lay an amniotic egg protected by a hard shell; most mammals are viviparous (“live bearing”),and embryonic development takes place entirely within the mother’s body.
The egg is “ laid” from the cloaca-a chamber that the reproductive, digestive, and excretory systems flow into and that opens to the environment.
Female genitalia includes the labia minora (singular: labium minus) and the labia majora, the clitoris, the opening of the urethra, and the opening of the vagina.
The clitoris is an organ that functions in sexual arousal; it develops from the same population of embryonic cells that gives rise to the penis in males.
47.3 Fertilization and Egg Development
After males package their sperm into a structure called a spermatophore, which is then picked up and placed into the female’s reproductive tract by the male or the female.
Follow-up research has confirmed that second-male advantage is widespread, although not universal, in insects and some other animal groups.
Compounds from the cortical granules cross-link molecules in the vitelline envelope to form a tough fertilization envelope.
This impenetrable barrier keeps additional sperm from reaching the sea urchin egg.
In ovoviviparous species, offspring also develop inside the mother’s body but are nourished by nutrient-rich yolk stored in the egg.
47.4 Embryonic Development
The stage of rapid cell division that follows fertilization is called cleavage.
The cells that are created during cleavage are called blastomeres.
When cleavage is complete, the embryo in many animals consists of a mass of blastomeres called a blastula.
Cleavage in mammals results in a type of blastula called a blastocyst (“sprout-bag”), which has two populations of cells.
The exterior of the blastocyst is a thin sheet of cells called the trophoblast (“feeding-sprout”).
Inside the trophoblast is a fluid filled cavity (blastocoel) and a cluster of cells called the inner cell mass (ICM).
There is a distinction between the trophoblast and the ICM-the embryo develops from the ICM, and the trophoblast forms part of an organ called the placenta.
Cells from the mother’s uterus also form part of the placenta.
47.5 The Role of Sex Hormones in Mammalian Reproduction
In humans this transition called puberty-is directed by increased levels of testosterone in boys and estradiol in girls.
Day 1 in the menstrual cycle is marked by the beginning of menstruation-the expulsion of the uterine lining.
The females of these mammals have an estrous cycle and are sexually receptive only during estrus-when they are said to be “in heat."
47.6 Pregnancy and Birth in Mammals
Pregnancy and lactation-providing milk that nourishes offspring after birth-represent some of the most extreme forms of parental care known in animals.
As a result, they are far less developed at birth than are the young of eutherian mammals, which undergo a lengthier gestation-the developmental period that takes place inside the mother's uterus.
Arteries transport blood from the circulatory system of the fetus, through the umbilical cord, to an extensive capillary bed in the placenta.
Chapter 47: Animal Reproduction and Development
47.1 Asexual and Sexual Reproduction
Asexual reproduction occurs without the fusion of gametes, results in offspring with genetic material from only one parent, and en yields offspring that are genetically identical to the parent.
Sexual reproduction, in contrast,typically involves the fusion of haploid gametes and results in offspring that are genetically different from each other and from their parents.
There are three main organisms of asexual reproduction.
In budding, an offspring begins to form within or on a parent, such as on the hydra.
In fission, an individual simply splits into two or more descendants, as shown in anemones.
In parthenogenesis (literally,“virgin-origin”), females develop eggs and produce offspring without any genetic contribution from a male.
Parthenogenesis occurs in a diversity of lineages, including certain invertebrates, fishes, lizards, snakes, and birds.
In budding and fission, females clone themselves一that is, produce large numbers of identical copies of themselves asexually.
Once the males have matured, sexual reproduction ensues: by meiosis, males produce haploid sperm and females produce haploid eggs, and these gametes fuse to create diploid offspring.
Fertilization is the fusion of sperm and egg to form a zygote.
Oogenesis is the formation of ova (singular: ovum).
An ovum is also known as a mature egg.
In the vast majority of animals, gametogenesis occurs in a sex organ or gonad.
Male gonads are called testes; female gonads are called ovaries.
In the male gonad, diploid cells called spermatogonia (singular: spermatogonium) divide by mitosis.
The specialized diploid cells produced by spermatogonia are called primary spermatocytes.
They undergo meiosis I and produce two haploid secondary spermatocytes, which then undergo meiosis II.
Each haploid spermatid develops into a spermatozoan (plural: spermatozoa), also commonly known as sperm-a cell that is specialized for carrying a haploid genome from the male through the female reproductive act and fertilizing an egg.
In the female gonad, diploid cells called oogonia (singular: oogonium) divide by mitosis.
When the specialized cells produced by an oogonium, the primary oocytes, undergo meiosis, only one of the haploid cells produced can mature into an egg.
This secondary oocyte is arrested in meiosis II until it is fertilized by a sperm.
47.2 Reproductive Structures and Their Functions
In humans, the external anatomy of the male reproductive system, or genitalia, consists of the scrotum and the penis.
The saclike scrotum holds the testes; the penis functions as the organ of copulation, or sexual intercourse, necessary for internal fertilization.
A vas deferens is a tube with smooth muscle in its walls that transports sperm from the epididymis to the short ejaculatory duct within the prostate gland, where the sperm are mixed with accessory fluids.
The resulting semen then enters the urethra, a longer tube at passes through the penis and services both the reproductive and urinary systems.
The semen is expelled from the body during ejaculation.
Birds are oviparous (“egg-bearing”)animals that lay an amniotic egg protected by a hard shell; most mammals are viviparous (“live bearing”),and embryonic development takes place entirely within the mother’s body.
The egg is “ laid” from the cloaca-a chamber that the reproductive, digestive, and excretory systems flow into and that opens to the environment.
Female genitalia includes the labia minora (singular: labium minus) and the labia majora, the clitoris, the opening of the urethra, and the opening of the vagina.
The clitoris is an organ that functions in sexual arousal; it develops from the same population of embryonic cells that gives rise to the penis in males.
47.3 Fertilization and Egg Development
After males package their sperm into a structure called a spermatophore, which is then picked up and placed into the female’s reproductive tract by the male or the female.
Follow-up research has confirmed that second-male advantage is widespread, although not universal, in insects and some other animal groups.
Compounds from the cortical granules cross-link molecules in the vitelline envelope to form a tough fertilization envelope.
This impenetrable barrier keeps additional sperm from reaching the sea urchin egg.
In ovoviviparous species, offspring also develop inside the mother’s body but are nourished by nutrient-rich yolk stored in the egg.
47.4 Embryonic Development
The stage of rapid cell division that follows fertilization is called cleavage.
The cells that are created during cleavage are called blastomeres.
When cleavage is complete, the embryo in many animals consists of a mass of blastomeres called a blastula.
Cleavage in mammals results in a type of blastula called a blastocyst (“sprout-bag”), which has two populations of cells.
The exterior of the blastocyst is a thin sheet of cells called the trophoblast (“feeding-sprout”).
Inside the trophoblast is a fluid filled cavity (blastocoel) and a cluster of cells called the inner cell mass (ICM).
There is a distinction between the trophoblast and the ICM-the embryo develops from the ICM, and the trophoblast forms part of an organ called the placenta.
Cells from the mother’s uterus also form part of the placenta.
47.5 The Role of Sex Hormones in Mammalian Reproduction
In humans this transition called puberty-is directed by increased levels of testosterone in boys and estradiol in girls.
Day 1 in the menstrual cycle is marked by the beginning of menstruation-the expulsion of the uterine lining.
The females of these mammals have an estrous cycle and are sexually receptive only during estrus-when they are said to be “in heat."
47.6 Pregnancy and Birth in Mammals
Pregnancy and lactation-providing milk that nourishes offspring after birth-represent some of the most extreme forms of parental care known in animals.
As a result, they are far less developed at birth than are the young of eutherian mammals, which undergo a lengthier gestation-the developmental period that takes place inside the mother's uterus.
Arteries transport blood from the circulatory system of the fetus, through the umbilical cord, to an extensive capillary bed in the placenta.
NoteStudied by 2 peopleNoteStudied by 14 peopleNoteStudied by 5 peopleNoteStudied by 7415 peopleNoteStudied by 8 peopleNoteStudied by 521 people