Reproduction and Development

Gametogenesis

Gametogenesis uses meiosis and produces haploid cells called gametes

Human Reproductive Systems

The primary reproductive organs are called gonads

Males » testes

Females » ovaries

These also secrete hormones important for the development of secondary sexual traits

Males

Testes

These start to form in the abdominal cavity

They eventually descend into the scrotum

The sperm require the cooler temperatures in order to develop properly

Composed of many lobes

Each lobe contains two or three seminiferous tubules where the sperm are produced

It’s all about the hormones

Spermatogenesis

Primary spermatocytes

are diploid cells,

undergo meiosis I, and

produce secondary spermatocytes

Secondary spermatocytes undergo meiosis II, each with the haploid number of chromosomes

Semen

Sperm move from the testes into the epididymis where they mature

They travel through the vas deferens, into the ejaculatory duct, through the urethra, and out the penis

The sperm are continually being mixed with secretions from the seminal vesicles, the prostate gland, and the bulbourethral glands along the way to form semen

These secretions provide nutrients, buffer, and lubricating fluids for the sperm


Females

Ovaries

Located in the abdominal cavity

Produce both estrogen and progesterone

Oocytes are present in the ovaries

The oviduct connects the ovary to the uterus

The uterus is mainly muscle

The uterine lining is called the endometrium

The lower portion of the uterus is the cervix

The connection to the outside is the vagina

Oogenesis

Human females are born with all their eggs already present in their ovaries

These primary oocytes are arrested in meiosis I

Oogenesis occurs once per cycle

FSH triggers one primary oocyte to complete meiosis I to produce a secondary oocyte

One secondary oocyte is produced per cycle

The other cells resulting from meiosis become polar bodies

The primary oocyte is located inside the follicle

As the follicle matures, it moves towards the wall of the ovary closest to the oviduct (fallopian tube)

The follicle ruptures, releasing the secondary oocyte (ovulation)

The ruptured follicle develops into the corpus luteum, which secretes hormones that prepare the reproductive tract for pregnancy and that maintain it during the early phases of pregnancy

If fertilization occurs, then the corpus luteum continues to produce hormones

If fertilization does not occur, then the corpus luteum degenerates

It’s really about the hormones

The female reproductive cycle is actually two cycles in one:

1. The ovarian cycle controls the growth and release of an egg

2. The menstrual cycle prepares the uterus for possible implantation of an embryo

Hormonal signals coordinate the two cycles, keeping them in synch

If an embryo implants in the uterine wall, it will obtain nutrients from the endometrium, and the thickened lining will not be discharged

Menstruation is uterine bleeding caused by the breakdown of the endometrium, the blood-rich inner lining of the uterus and is a sign that pregnancy has not occurred during the previous cycle


Fertilization

Sperm and egg have to meet

They do so in the oviduct

Development

Once fertilization has occurred, development takes over

The initial cell divisions are cleavage divisions - cell division without any major increase in cell volume

The developing organism is called

A zygote at conception

An embryo from the zygote’s first division through the eighth week of pregnancy

A fetus from the ninth week of pregnancy to the birth of the baby

About 6–7 days after fertilization, the embryo has reached the uterus as a fluid-filled hollow ball of about 100 cells called a blastocyst

Protruding into the central cavity on one side of the blastocyst is a small clump of cells called the inner cell mass, which will eventually form the fetus

The blastocyst will implant in the endometrium

About 9 days after conception, the cells of the early embryo begin an organized migration that produces the gastrula, with three main layers

1. The ectoderm eventually develops into the nervous system and outer layer of skin (epidermis)

2. The endoderm becomes the innermost lining of the digestive system and organs such as the liver, pancreas, and thyroid

3. The mesoderm gives rise to most other organs and tissues, such as the heart, kidneys, and muscles

During the pregnancy, the placenta develops to protect, serve, and nourish the embryo

The three trimesters of human pregnancies are marked by significant events

First trimester

About 5 weeks after fertilization, the embryo has developed a brain and spinal cord, four stumpy limb buds, a short tail, and primitive gill-like structures

Overall, a month-old human embryo looks pretty much like a month-old embryo of any other vertebrate species

About 9 weeks after fertilization, the embryo is called a fetus

It has a clear sac, the amnion, around it

It has all of its organs and major body parts, and the embryo’s limb buds have become tiny arms and legs with fingers and toes

The sex of the fetus can be determined by an ultrasound exam

Second trimester

The main developmental changes during the second and third trimesters involve an increase in size and general refinement of the human features

A 14-week-old fetus is about 6 cm (2.4 inches) long

At 20 weeks, the fetus is about 19 cm (7.6 inches) long, weighs about half a kilogram (1 lb), and has the face of an infant, complete with eyebrows and eyelashes

The fetal heartbeat is detectable with a stethoscope, and the mother can usually feel the fetus moving

Third trimester

The third trimester is a time of rapid growth as the fetus gains the strength

At birth, a typical baby is about 50 cm (20 inches) long and weighs 3–4 kg (6–8 lb)

Childbirth

Near the end of the third trimester, birth occurs

Occurs due to a series of rhythmic contractions of the uterus (labor)

Estrogen is a key hormone

It leads to an increase in the number of oxytocin receptors on the uterus

Oxytocin and prostaglandins stimulate the uterine contractions