Mammalian ovary is a reproductive organ in females inside which sex cells like eggs or ova are produced. The ovaries come in pairs and prudence hormones in addition to sex cells. The male reproductive organ has two primary structures. A pair of testes and some accessory reproductive structures. Adult mammalian testes perform two essential functions.
There are sperms present in the body of a male organism while the female organisms consist of ovaries that are developed. Both of these gametes help in the production of the zygote which then turns into the baby of that particular organism. But learning the stages that are involved in the gamete development is very important in order to understand the functioning that is involved. The Identification of Stages of Gamete Development – Biology Practicals helps students to learn about the same and understand how it works before actually learning more about the zygote. The overall growth and development of the testes and ovaries are governed by the urogenital system. The urinary system and the genital system are two completely different systems that are independent of each other.
Difference Between a Gamete and a Gametophyte:
The difference between a gamete and a gametophyte can be provided as follows:
Gamete |
Gametophyte |
A gamete is a mature haploid male or female germ cell that can unite with the other of the opposite sex in order to form a zygite |
The gametophyte is the gamete producing and usually haploid phase producing the zygote which the sporophyte arises from |
It is the reproductive cell seen in both animals and plants |
It is the haploid phase observed in the life cycle of a plant |
It is a single-celled structure |
It is a multicellular structure |
Its production takes place inside the sex organs |
It is developed from a haploid spore |
Fuses with the gamete of the opposite sex in order to form the zygote |
The sexual phase of the plant life cycle is responsible for the production of the gametes |
Types are male and female gametes |
Types are male and female gametophyte |
Practical Identification of Stages of Gamete Development
Study of T.S. of Mammalian Ovary
Every mammalian ovary is a reproductive organ in females inside which sex cells like eggs or ova are produced. The ovaries come in pairs and prudence hormones in addition to sex cells. These hormones trigger the process of reproduction in females. While ovaries are the primary reproductive organs in females, the male counterparts have a primary reproductive organ known as testes. Each ovary consists of an outer cortex that contains follicles, interstitial cells, and oocytes. There is also an inner medulla which contains fibrous tissues, blood vessels and nerves. The T.S.of the mammalian ovary or transverse section of the ovary is studied and identified through experimental slides.
T.S. of Mammalian Ovary Under Microscope
Aim: To study and identify the T.S. Of mammalian ovaries under permanent slides.
Apparatus: Permanent slides of T.S. or transverse section of the ovary, microscope
Observation: Any mammalian ovary has a solid structure to it and is bounded by epithelium along with a thick layer of fibrous tissue, also known as tunica albuginea. The ovary has an outer cortex and an inner medulla. The T.S.of the mammalian ovary reveals the rounded oval bodies, also known as ovarian follicles.
The follicles develop from stage 1 to Graffian follicles to corpus luteum. The development of the follicles is the necessary study of the transverse section of an ovary.
Study of T.S. of Mammalian Testis
The male reproductive organ has two primary structures. A pair of testes and some accessory reproductive structures. Adult mammalian testes perform two essential functions. The first is spermatogenesis, and the second is male sex hormone production. The main male hormone produced in the testis is testosterone. There are a few common diseases linked with the testes such as testicular cancer, testicular trauma, infertility issues, swelling, hypogonadism and more. All these diseases are linked with bruising, clotting and severe pain.
T.S. of Testis Under Microscope
Aim: To study and identify the T.S. Of mammalian ovaries under a microscope through permanent slides.
Apparatus: Permanent slides of T.S. or transverse section of the testis, microscope
Observation: Same as that of the T.S. of the mammalian ovary, the T.S. of mammalian testis also has a thick fibrous tissue covering it known as tunica albuginea. Tubules are present inside the interstitial tissues. The formation of gametes in the T.S. of mammalian testis starts from Spermatogonia to Spermatozoa. This last stage is sperm formation. The majority of the sperms have Sertoli cells embedded in them.
A Few Precautions Must be Taken While Performing the Experiments:
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Make sure to wear laboratory gloves.
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Use forceps and other instruments while handling the organs.
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Make sure the focus of the microscopic lens is adjusted well enough.
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Once the experiment is over, store the slides carefully and clean the microscopic lens.
All of the experiments mentioned above are performed by using the transverse section of the testis and transverse section of an ovary of mice and grasshoppers. The anatomy of the two organs remains the same for all mammals.
Solved Examples
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Difference Between Testis and Ovary.
The Difference Between Testis and Ovary is Mentioned as Follows:
Topic |
Testes |
Ovary |
Gender |
It is the male gonad |
It is the female gonad. |
Produces |
It produces Spermatozoa |
It produces Ova |
Hormone production |
Testosterone |
Estrogen and Progesterone |
Location |
Outside the body |
Inside the body |
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Functions of Testis and Ovary
Both the testes and the ovaries produce sperms and ova in the males and females respectively. Along with these feet also produce hormones required for reproduction.
Fun Facts About The T.S. of Mammalian Ovary
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Ovaries are gray-pinkish in color. A woman’s ovaries are capable of holding millions of eggs at a time.
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The size of the ovaries changes along with the maturity of a female body.
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During the reproductive phase, the ovaries become more significant in size.
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Once a woman reaches menopause, the uterus holds only 400-500 eggs which are not suitable for fertilization anymore.
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The eggs are fertilized inside the ovary during the reproductive phase.