Sexual Reproduction in Plants: Structure of Pollen Grain and Ovule

Physics Chemistry  Biology  Mathematics
Science > Biology > Reproduction in Flowering PlantsYou are Here
  • Plants can reproduce asexually or sexually. During sexual reproduction, they produce seeds. Plants in their life time reproduce seeds that germinate, grow and develop into new plants. These new plants flower, scatter their seeds and die.

Sexual Reproduction in lower plants:

Bryophytes e.g. Moss:

Sexual reproduction Moss 01

  • Moss plants grow in damp places because they depend on moisture to sexually reproduce.  They need water for the sperm to swim towards the eggs for fertilization.
  • Mosses reproduce by spores, which are analogous to the seeds of flowering plants. The spores are single celled.  Spores are housed in the brown capsule that sits on the seta.
  • The spores ripen and are dispersed from the capsule, and some land in areas where there is enough moisture for them to grow.
  • Some mosses have cups on their tops that produce sperm, these are male plants.
  • The female plants has eggs between  overlapping leaves.
  • As the sperm become mature they swim through water to the eggs and fertilize them.
  • The fertilized egg then produces the stalked brown capsule.

Algae e.g. Spirogyra:

Sexual reproduction Spirogyra

  • In spirogyra, sexual reproduction takes place by conjugation.
  • Two filaments lie side by and produce short tubes that grow and connect the opposite cells. During this time the protoplasts of conjugating cells (gametangia) recede, round up and function as gametes.
  • At the point of contact, the tips of these processes dissolve (bycytase) to form conjugation tube between opposite cells. This structure looks like ladder. Hence, the conjugation is called scalariform or H-shape conjugation.
  • The contents then move from male cell (male gametangia) to female cell (female gametangia) and their nuclei combine, forming a zygote. This process is known as conjugation.
  • The zygote secretes a thick wall to become zygospore. Therefore, in the late stage of conjugation, male gametangia remain empty and the female gametangia contain zygospores.

Sexual Reproduction:

  • When two parents (opposite sex) participate in the reproductive process and also involve fusion of male and female gametes, it is called sexual reproduction.
  • Sexual reproduction involves formation of the male and female gametes, either by the same individual or by different individuals of the opposite sex. These gametes fuse to form the zygote which develops to form the new organism.
  • It is an elaborate, complex and slow process as compared to asexual reproduction.
  • Because of the fusion of male and female gametes, sexual reproduction results in offspring that are not identical to the parents or amongst themselves.

preparation for Sexual Reproduction:

  • All organisms have to reach a certain stage of growth and maturity in their life, before they can reproduce sexually. That period of growth is called the juvenile phase. It is known as vegetative phase in plants..
  • This phase is of variable durations in different organisms.
  • The end of juvenile/vegetative phase which marks the beginning of the reproductive phase can be seen easily in the higher plants when they come to flower.
  • In animals, the juvenile phase is followed by morphological and physiological changes prior to active reproductive behaviour.
  • The reproductive phase is also of variable duration in different organisms.
  • In non-primate mammals like cows, sheep, rats, deers, dogs, tiger, etc., such cyclical changes during reproduction are called oestrus cycle. Whereas in primates (monkeys, apes, and humans) it is called menstrual cycle.

Sexual Reproduction in plants:

  • The flower is the reproductive unit in the angiosperms. It is meant for sexual reproduction.
  • A typical flower has four different kinds of whorls arranged successively on the stalk or pedicel, called thalamus or receptacle. These whorls are calyx, corolla, androecium and gynoecium. Calyx and corolla are accessory organs, Androecium and gynoecium are reproductive organs.
  • When a flower has both androecium and gynoecium, it is bisexual. A flower having either only stamens or only carpels is unisexual.

Sexual Reproductin in Plants Flower

Parts of Flower involved in sexual reproduction:


  • The androecium is composed of stamens. Each stamen which represents the male reproductive organ consists of a stalk or a filament and an anther.
  • Each anther is usually bilobed and each lobe has two chambers, the pollen-sacs. The microspores (pollen grains) are produced in pollen-sacs.
  • A sterile stamen is called staminode.

Sexual Reproductin in Plants Androecium


  • The gynoecium is the female reproductive part of the flower and is made up of one or more carpels.
  • A carpel consists of three parts namely stigma, style and ovary.
  • The ovary is the enlarged basal part, on which lies the elongated tube, the style. The style connects the ovary to the stigma.
  • The stigma is usually at the tip of the style and is the receptive surface for pollen grains
  • Each ovary bears one or more ovules attached to a flattened, cushion-like placenta.
  • ovules develop into seeds and the ovary matures into a fruit.

Sexual Reproductin in Plants Gynoecium

Structure of Anther (Microsporangium):

  • In a transverse section, a typical microsporangium appears near circular in outline. It is generally surrounded by four wall layers the epidermis, endothecium, middle layers and the tapetum.

Sexual Reproductin in Plants Microsporangium

  • The epidermis consists of flattened cells and is protective in the function. It is outermost common wall layer of the anther.
  • Endothecium is internal to the epidermis. Cells of endothecium help for dehiscence of anther at maturity.
  • Middle layers are internal to endothelium. They are of three layers of parenchyma cells. The cells of these layers degenerate on maturity and the two pollen sacs of each lobe merge to form a single chamber.
  • Tapetum surrounds sporanenous cells and provide nutrition to developing pollen grains.
  • As each cell of the sporogenous tissue is capable of giving rise to a microspore tetrad. Each one is a potential pollen or microspore mother cell (PMC).
  • The process of formation of microspores from a pollen mother cell through meiosis is called microsporogenesis. The microspores, as they are formed, are arranged in a cluster of four cells–the microspore tetrad.
  • As the anthers mature and dehydrate, the microspores dissociate from each other and develop into pollen grains.
  • Inside each microsporangium, several thousands of microspores or pollen grains are formed that are released with the dehiscence of the anther

Sexual Reproductin in Plants Microsporangium Descication

Structure of pollen grains:

  • The pollen grains represent the male gametophytes.
  • It has a prominent two-layered wall. The hard outer layer called the exine is made up of sporopollenin which is one of the most resistant organic material known. It can withstand high temperatures and strong acids and alkali. No enzyme that degrades sporopollenin is so far known.

Sexual Reproductin in Plants Pollen Grain

  • Pollen grain exine has prominent apertures called germ pores where sporopollenin is absent.
  • The inner wall of the pollen grain is called the intine. It is a thin and continuous layer made up of cellulose and pectin. The cytoplasm of the pollen grain is surrounded by a plasma membrane.
  • When the pollen grain is mature it contains two cells, the vegetative cell and generative cell.
  • The vegetative cell is bigger, has abundant food reserve and a large irregularly shaped nucleus. The
  • generative cell is small and floats in the cytoplasm of the vegetative cell. It is spindle-shaped with dense cytoplasm and a nucleus.


Development of Male gametophyte:

Before pollination in pollen sack:

  • The protoplast of pollen grain divides by mitosis to form to unequal cells. The smaller cell is called the generative cell. It has a large nucleus, thin cytoplasm and it lacks reserve food and vacuole. The large Cell is called vegetative cell or tube cell. It has large vacuole, cytoplasm, nucleus and reserve food.

Sexual Reproductin in Plants DEvelopment of Male Gametophyte

After pollination on the stigma:

  • When the two-celled pollen grain comes in contact with sugary stigmatic secretion it absorbs it.
  • Due to absorption of secretion, the pressure of cytoplasm on the intine increases and the intine of pollen grain comes out of germ pore to form a pollen tube. The pollen tube starts growing towards the ovule trough style due to chemical stimulus in the ovary.
  • The tube nucleus, cytoplasm and generative cell starts migrating into the pollen tube. The generative cell divides by mitosis to form two haploid non-motile male gametes.

Sexual Reproductin in Plants DEvelopment of Male Gametophyte 02

Structure of gynoecium:

  • The gynoecium represents the female reproductive part of the flower. The gynoecium may consist of a single pistil (monocarpellary) or may have more than one pistil (multicarpellary). Each pistil has three parts the stigma, style and ovary.
  • The stigma serves as a landing platform for pollen grains.
  • The style is the elongated slender part beneath the stigma.
  • The basal bulged part of the pistil is the ovary. Inside the ovary is the ovarian cavity (locule). The placenta is located inside the ovarian cavity. Arising from the placenta are the megasporangia, commonly called ovules.
  • The number of ovules in an ovary may be one (wheat, paddy, mango) to many (papaya, water melon, orchids).

Structure of Ovule:

Sexual Reproductin in Plants Ovule

  • The ovule is a small structure attached to the placenta by means of a stalk called funicle.
  • The body of the ovule fuses with funicle in the region called hilum. Thus, hilum represents the junction between ovule and funicle.
  • Each ovule has one or two protective envelopes called integuments. Integuments encircle the ovule except at the tip where a small opening called the micropyle is present.
  • Opposite the micropylar end, is the chalaza, representing the basal part of the ovule.
  • Enclosed within the integuments is a mass of cells called the nucellus. It consists of many diploid parenchyma cells.
  • Cells of the nucellus have abundant reserve food materials. Located in the nucellus is the embryo sac or female gametophyte.
  • An ovule generally has a single embryo sac formed from a megaspore through reduction division.
    Functions of parts of Ovule:
  • Funicle: To support, projection and conduction
  • Nucellus: Development of female gametophyte takes place in it.
  • Integuments: Protection to nucellus and embryo sac
  • Micropyle: It forms a passage for pollen tube to enter in the ovule.
  • Antipodals: They are accessory cells and degenerate after fertilization.
  • The process of formation of megaspores from the megaspore mother cell is called megasporogenesis.

Sexual Reproductin in Plants Megasporengenesis

  • Ovules generally differentiate a single megaspore mother cell (MMC) in the micropylar region.
  • The diploid MMC (2n) undergoes meiosis to form a tetrad of haploid megaspores (n)

Development of female gamete:

  • The chalazal megaspore remains functional, while other three degenerate gradually.
  •  The functional megaspore undergoes enlargement and develops into female gametophyte.
  • The nucleus of the functional haploid megaspore divides mitotically to form two nuclei which move to the opposite poles, forming the 2-nucleate embryo sac.
  • Two more sequential mitotic nuclear divisions result in the formation of the 4-nucleate and later the 8-nucleate stages of the embryo sac.

Sexual Reproductin in Plants Development of female gamete

  • There is cellular organization in which 3 celled egg apparatus is formed at mycropylar end and constitute the egg apparatus. The egg apparatus, in turn, consists of two synergids and one egg cell.
  • Three cells are at the chalazal end and are called the antipodals.
  • The large central cell, has two polar nuclei. Thus, a typical angiosperm contains embryo sac, at maturity, though 8-nucleate is 7-celled.

Sexual Reproductin in Plants Development of female gamete 02

Science > Biology > Reproduction in Flowering PlantsYou are Here
Physics Chemistry  Biology  Mathematics

Leave a Comment

Your email address will not be published. Required fields are marked *