self-pollination

(noun)

pollination of a flower by its own pollen in a flower that has both stamens and a pistil

Related Terms

Examples of self-pollination in the following topics:

  • Pollination and Fertilization

    • Pollination takes two forms: self-pollination and cross-pollination.
    • These flowers make self-pollination nearly impossible.
    • Some flowers have developed physical features that prevent self-pollination.
    • All of these are barriers to self-pollination; therefore, the plants depend on pollinators to transfer pollen.
    • Determine the differences between self-pollination and cross-pollination, and describe how plants have developed ways to avoid self-pollination

  • Mendel’s Model System

    • For this reason, garden pea plants can either self-pollinate or cross-pollinate with other pea plants.
    • In the absence of outside manipulation, this species naturally self-fertilizes: ova (the eggs) within individual flowers are fertilized by pollen (containing the sperm cell) from the same flower.
    • What's more, the flower petals remain sealed tightly until after pollination, preventing pollination from other plants.
    • A gardener or researcher, such as Mendel, can cross-pollinate these same plants by manually applying sperm from one plant to the pistil (containing the ova) of another plant.
    • However, if this first generation of yellow pea plants were allowed to self-pollinate, the following or second generation had a ratio of 3:1 yellow to green peas.

  • Plant Reproductive Development and Structure

    • Plant sexual reproduction usually depends on pollinating agents, while asexual reproduction is independent of these agents.
    • With their bright colors, fragrances, and interesting shapes and sizes, flowers attract insects, birds, and animals to serve their pollination needs.
    • Other plants pollinate via wind or water; still others self-pollinate.
    • Plants that reproduce sexually often achieve fertilization with the help of pollinators such as (a) bees, (b) birds, and (c) butterflies.

  • Mendelian Crosses

    • In the pea, which is a naturally self-pollinating plant, this is done by manually transferring pollen from the anther of a mature pea plant of one variety to the stigma of a separate mature pea plant of the second variety.
    • To prevent the pea plant that was receiving pollen from self-fertilizing and confounding his results, Mendel painstakingly removed all of the anthers from the plant's flowers before they had a chance to mature.
    • Once Mendel examined the characteristics in the F1 generation of plants, he allowed them to self-fertilize naturally.

  • Phenotypes and Genotypes

    • Mendel crossed or mated two true-breeding (self-pollinating) garden peas, Pisum saivum, by manually transferring pollen from the anther of a mature pea plant of one variety to the stigma of a separate mature pea plant of the second variety.
    • Once Mendel examined the characteristics in the F1 generation of plants, he allowed them to self-fertilize naturally.
    • Regardless of how many generations Mendel examined, all self-crossed offspring of parents with white flowers had white flowers, and all self-crossed offspring of parents with violet flowers had violet flowers.

  • Sympatric Speciation

    • The prefix "auto-" means "self," so the term means multiple chromosomes from one's own species.
    • However, they could either self-pollinate or reproduce with other autopolyploid plants with gametes having the same diploid number.

  • Sexual Reproduction in Gymnosperms

    • Gymnosperms produce both male and female gametophytes on separate cones and rely on wind for pollination.
    • Because the pollen is shed and blown by the wind, this arrangement makes it difficult for a gymnosperm to self-pollinate.
    • Finally, wind plays an important role in pollination in gymnosperms because pollen is blown by the wind to land on the female cones.
    • Although many angiosperms are also wind-pollinated, animal pollination is more common.

  • Pollination by Insects

    • Wasps are also important insect pollinators, pollinating many species of figs.
    • Moths, on the other hand, pollinate flowers during the late afternoon and night.
    • One well-studied example of a moth-pollinated plant is the yucca plant, which is pollinated by the yucca moth.
    • The shape of the flower and moth have adapted in a way to allow successful pollination.
    • Insects, such as bees, are important agents of pollination.

  • Pollination by Bats, Birds, Wind, and Water

    • Non-insect methods of pollination include pollination by bats, birds, wind, and water.
    • These methods include pollination by bats, birds, wind, and water.
    • Unlike the typical insect-pollinated flowers, flowers adapted to pollination by wind do not produce nectar or scent.
    • Flowers often attract pollinators with food rewards, in the form of nectar.
    • Certain orchids use food deception or sexual deception to attract pollinators.

  • Herbivory and Pollination

    • This is believed to have been as much a driving force as pollination.
    • Grasses are a successful group of flowering plants that are wind pollinated.
    • Large trees such as oaks, maples, and birches are also wind pollinated.
    • Consequently, plants have developed many adaptations to attract pollinators.
    • Many bird or insect-pollinated flowers secrete nectar, a sugary liquid.