Jump to content

Botany/Plant reproduction

From Wikibooks, open books for an open world

<< Contents Page | Chapter 4 | Chapter 5 | Chapter 6 >>


Chapter 5. Plant Reproduction


Noni (Morinda citrifolia) flowers and fruit. Note stages of progressive maturation shown from a cluster of flowers to an accessory fruit.

Vegetative Reproduction

[edit | edit source]

Vegetative reproduction is a type of asexual reproduction—other terms that apply are vegetative propagation, clonal growth, or vegetative multiplication. Vegetative growth is enlargement of the individual plant; vegetative reproduction is any process that results in new plant "individuals" without production of seeds (see The Seed below) or spores. It is both a natural process in many, many species as well as one utilized or encouraged by horticulturists and farmers to obtain quantities of economically valuable plants. In this respect, it is a form of cloning that has been carried out by humankind for thousands of years and by "plants" for hundreds of millions of years.

Sexual Reproduction

[edit | edit source]

The Flower

[edit | edit source]

The flower is the reproductive organ of plants classified as angiosperms—that is, the flowering plants comprising the Division Magnoliophyta. All plants have the means and corresponding structures for reproducing sexually, and these other cases will be explored in later chapters. However, because flowering plants are the most conspicuous plants in almost all terrestrial environments, we justifiably devote this chapter to the flowering plants alone. You will learn how other plant groups (and non-plant groups, such as fungi) reproduce sexually in Section II of The Guide.

The basic function of a flower is to produce seeds through sexual reproduction. Seeds are the next generation, and serve as the primary method in most plants by which individuals of the species are dispersed across the landscape. Actual dispersal is, in most species, a function of the fruit: structural parts that typically surround the seed. But the seed contains the germ of life of the next generation.

  • Read Plant sexuality (Follow links you find interesting, concentrating on acquiring a grasp of the terminology)
  • Read The Flower (Follow links you find interesting, but at minimum read each of the following articles)
Be sure to read about and understand the meaning of each of the following terms: androecium, anthesis, calyx, carpel, corolla, gynoecium, inferior ovary, nectary, perigynous, petal, pistil, pollen, sepal, stamen, superior ovary, syncarpous.
Be sure to read about and understand the meaning of each of the following terms: bract, inflorescence, panicle, raceme, spadix, spikelet.

Questions

[edit | edit source]
  1. Do you think the flower structure is in any way responsible for the considerable success of flowering plants in populating the earth?

The Seed and Germination

[edit | edit source]

the primary purpose of the seed is one of preserving the continuity of life—starting a new generation in a new physical location. For large plants (shrubs and trees), this can be especially important because successful germination and growth close to the parent may be difficult or impossible; the established plant monopolizes light and water resources in its immediate vicinity. Seeds can also serve the function of overwintering or surviving harsh conditions. The entire generation—every individual—may die in the Fall or the dry season. In many annual species, only the seed exists during unfavorable dry or cold conditions.


Clipboard

To do:
an explanation of clonal reproduction of plants... through genets, rhizomes or whatever.


The Fruit

[edit | edit source]

The fruit is the actual agent of dispersal in most flowering plants.


Laboratory Exercises (flowers) for Chapter 5 >>
Laboratory Exercises (seeds) for Chapter 5 >>
Discussion of questions for Chapter 5 >>

Botany Study Guide ~ Wiki Contents Table
Section I

Chapter 1 - Introduction ~ Chapter 2 - Plant cells
Chapter 3 - Plant Tissues ~ Chapter 4 - Plant Organs
Chapter 5 - Plant Reproduction ~ Chapter 6 - Plant Morphology