Plants, like animals, can reproduce sexually (as well as asexually). In animals, the organism’s body is always diploid (except in male bees, wasps, and ants) and produces haploid gametes through meiosis. Plants, unlike animals, have two different generations during their life cycle. A diploid generation produces haploid spores through meiosis, and a haploid generation produces gametes through mitosis.
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Jetzt kostenlos anmeldenPlants, like animals, can reproduce sexually (as well as asexually). In animals, the organism’s body is always diploid (except in male bees, wasps, and ants) and produces haploid gametes through meiosis. Plants, unlike animals, have two different generations during their life cycle. A diploid generation produces haploid spores through meiosis, and a haploid generation produces gametes through mitosis.
Flowers are the structures that produce and bear this haploid generation in flowering plants (angiosperms). We will describe the general structure of angiosperms, how the two generations alternate in their life cycle, how this is related to their sexual reproduction, and the differences with gymnosperm reproduction.
Angiosperms, also known as flowering plants, are a group of plants that produce flowers and bear fruits containing seeds.
Angiosperms are vascular plants, a group of plants that present tissue differentiation including vascular tissue for nutrient transport. The other groups of vascular plants are gymnosperms (pines, cycads, cypresses) and seedless vascular plants (ferns, clubmosses, and horsetails). All vascular plants share a basic body plan and structure of organ systems and tissues.
An angiosperm plant has two organ systems.
The plant organs are made of several tissues, which are divided into three main types:
Besides these differentiated or specialized tissues, there are regions of undifferentiated cells in the plant that continuously divide. These are regions of plant growth called meristems.
You can learn more about vascular plants and their organization and structure in our articles Vascular Plants and Seedles Vascular Plants.
All plants and some algae have a similar life cycle known as alternation of generations, meaning that they have a haploid stage and a diploid stage. The diploid stage, also known as the sporophyte (diploid non-sexual phase or generation) alternates with the gametophyte stage (haploid sexual generation). The main steps of a plant life cycle, starting with the zygote formation, can be summarized as follows:
These stages and the names of tissues or structures are common for all plants and algae life cycles (except for the flower part that is specific to angiosperms). Each group of plants has variations or modifications to this basic cycle, and some specific structures differ (like cones for gymnosperms and flowers for angiosperms).
The meaning of structures’ names can help you remember their function. For example, the gametophyte produces gametes, the sporophyte produces spores.
The diagram below (Fig. 2) shows the general life cycle of a plant, you can identify in this cycle the main stages described above. Remember that there are male and female gametes (sperm and eggs respectively) and that they come from separated male and female gametophytes. Thus, gametophyte development has variations for each sex.
The general names for structures and tissues change slightly for each gametophyte. Note that for male structures the prefix micro- is added, while for females it is mega- (for example sporocyte becomes microsporocyte and megasporocyte respectively). This reflects the fact that male spores and gametes are usually smaller (micro) than female ones (mega).
The angiosperm life cycle includes two main parts: since the sporophyte is the non-sexual generation, it corresponds to the growth phase of a plant (some plants can reproduce asexually though). The gametophyte phase corresponds to the sexual reproduction of a plant which we describe below.
The reproduction cycle in plants corresponds to the sexual generation, the haploid gametophyte. In angiosperms, sexual reproduction occurs in the flower since this structure produces the gametophytes. Below we describe the process for the development of male and female gametophytes separately. The general process is the same, but with some variation for each sex.
The female gametophyte is produced inside the ovary (the swollen base of a carpel). An ovary can have one or more ovules. An ovule is composed of a tissue called the megasporangium (plural microsporangia) enclosed by the integuments (two layers of protective tissue that have a small opening called micropyle). One cell in the megasporangium differentiates into a megasporocyte (megaspore’s mother cell). Each megasporocyte enlarges and undergoes meiosis, producing 4 haploid daughter cells that are the megaspores (the first female haploid cells in the plant life cycle). Three of these megaspores usually degenerate and only one survives.
The surviving megaspore then goes through mitosis three times, but without cytokinesis (the splitting of the cytoplasm), resulting in one large cell with eight haploid nuclei. Membranes form around six of the nuclei, resulting in six small cells and the original large central cell, with the two remaining nuclei. These seven cells and eight nuclei form the embryo sac that is the female gametophyte. The eight nuclei have specific locations inside the embryo sac:
The male gametophyte is produced inside the anther. The anther contains four pollen sacs called microsporangia (singular microsporangium) that enclose many microsporocytes (microspore’s mother cells). Each microsporocyte undergoes meiosis and produces 4 haploid daughter cells that are the microspores (Fig. 4, right image, shows numerous microsporocytes and some are undergoing, or have undergone, meiosis resulting in two or four cells). These spores are the first male haploid cells in the plant life cycle and are immature pollen grains.
Each microspore then goes through mitosis once, resulting in a mature pollen grain with two cells. The mature pollen grain is the male gametophyte. The cells are the tube cell and the generative cell, they are not the gametes yet, the process finishes when the pollen reaches the female reproductive structure.
At this point, the anther matures and bursts to release the pollen grains. The pollen is transported from the anther to the pistil of another flower through pollination. once on the female reproductive structure, the pollen grain germinates and the generative cell divides once by mitosis producing two cells, the male gametes (two sperms).
Pollination is the transfer of pollen from the male reproductive structure to the female reproductive structure in seed plants.
In vascular plants (ferns and allies, gymnosperms, and angiosperms), the sporophyte is the dominant phase. Gymnosperms and angiosperms (both seed-producing plants) bear the gametophytes inside the organism all the time (the gametophyte is completely dependent on the sporophyte). This means that when you see a fern, pine, cypress, or any flowering plant you see the sporophyte generation. In fact, to see the gametophyte of gymnosperms and angiosperms you would have to look for them in the plant reproductive structures (cones in gymnosperms and flowers in angiosperms) under a microscope because they are so small.
There are some differences between the life cycles of gymnosperms and angiosperms, specifically with reproduction. Table 1 below summarizes these differences:
Feature | Gymnosperms | Angiosperms |
Structure that bears the reproductive parts | Female cones, male cones | Flowers that can be bisexual or unisexual |
Male reproductive structure | The microsporangia are located on the surface of a scale | The microsporangia are inside the anther |
Female reproductive structure | The megasporangium is inside an ovule located on the surface of a scale. The ovule has one layer of integument but is not enclosed in an ovary. The female gametophyte is composed of numerous cells and contains two or three archegonia (the structures that enclose an egg cell) | The megasporangium is inside an ovule enclosed in an ovary. the ovule has two layers of integument. The female gametophyte is the embryo sac composed of seven cells and eight nuclei (only one is an egg cell). |
Fertilization | Simple fertilization, one sperm fertilizes one egg | Double fertilization, one sperm fertilizes the egg cell, and another sperm fertilizes the two polar nuclei |
Seed | The seed develops on the surface of the scale. It contains the embryo and a nutritious tissue that is haploid (derived from the female gametophyte), protected by a seed coat | The seed develops inside the ovary, the ovary becomes the fruit. It contains the embryo and a nutritious tissue that is triploid (originated from the double fertilization), protected by the fruit. |
Table 1: The differences between the life cycles of gymnosperms and angiosperms.
Reproduction in angiosperms takes place in the flower, specifically inside the ovary.
We can describe five stages of growth in angiosperms as follows: embryo growth, seed germination, sporophyte growth, flowering, and fruit production. Note that flowers and fruits are also part of reproduction in angiosperms, but we refer here to the growth of the sporophytic tissue (diploid) that forms them.
Flowers play critical roles in an angiosperm life cycle because they are responsible for their sexual reproduction. Flowers produce and bear the sexual reproductive cells (gametes), attract pollinators, and are the place where sexual reproduction takes place.
The life cycle of an angiosperm in simple steps: fertilization: male gamete (n) and female gamete (n) fusion results in a zygote (2n); zygote growth: through mitosis, becoming the multicellular sporophyte (2n); spore formation: the sporangium (2n) in a flower contains a spore mother cell (2n) that produces spores (n) through meiosis; gametophyte formation: the spores (n) undergo mitosis, forming the multicellular gametophyte (n); gamete production: the gametophyte produces the gametes (n) through mitosis.
Which of the following statements are true for angiosperms’ life cycle?
The first products of meiosis are the gametes
Angiosperms lack the following in their life cycle:
an ovule surrounded by integument
The main functions of the root system in angiosperms are:
water transport
Some of the main functions of the shoot system in angiosperms are:
water transport
The functions of dermal tissue in angiosperms are:
protection from the environment
The functions of the vascular tissue in angiosperms are:
protection from the environment
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