1 / 12

Sexual/Asexual Reproduction

Sexual/Asexual Reproduction. Sexual Reproduction. Sexual Reproduction – type of reproduction in which the genetic materials from two different cells combine, producing an offspring Sperm – male sex cell Egg – female sex cell Fertilization – joining of the sperm and egg cell

kenaz
Download Presentation

Sexual/Asexual Reproduction

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Sexual/Asexual Reproduction

  2. Sexual Reproduction • Sexual Reproduction – type of reproduction in which the genetic materials from two different cells combine, producing an offspring • Sperm – male sex cell • Egg – female sex cell • Fertilization– joining of the sperm and egg cell • The new cell that forms is called a zygote.

  3. Diploid Cells • Organisms that reproduce sexually make 2 kinds of cells- body cells and sex cells (gametes -sperm & egg) • Diploid cells – cells that have a pair of chromosomes; divide by mitosis (full # of chromosomes) • ex. body cells • Different Organisms have different numbers of chromosomes. • Ex: Humans have 46 chromosomes.(23 pairs) • Homologous chromosomes – pairs of chromosomes that have genes for the same trait arranged in the same order

  4. Haploid Cells • Sex cells are Haploid– only have one chromosome from each pair; divide by meiosis (half the # of chromosomes) • ex. sex cells (sperm and egg)

  5. Meiosis • Meiosis – process by which one diploid cell divides into four haploid cells; occurs in the formation of sex cells • Meiosis is important because: • It ensures the correct number of chromosomes in offspring • ex. sperm (23) + egg (23) = human (46) • creates more genetic diversity by producing haploid cells.

  6. Mitosis vs. Meiosis • Starts as diploid cell • Body cells • 1 division of nucleus • Produces 2 daughter cells • Diploid daughter cells • Used for growth and repair of cells • Starts as diploid cell • Reproductive cells • 2 divisions of nucleus • Produces 4 daughter cells • Haploid daughter cells • Used to produce sex cells

  7. Sexual Reproduction +/- • Advantages • Genetic Variation • offspring inherit half their DNA from each parent • helps with adaptations to changing environments • Selective Breeding • breeding species with desirable traits • ex. dog breeding, farming • Disadvantages • Time and Energy • development of sex cells • finding a mate • Exposure to predators, disease, or harsh environmental conditions

  8. Asexual reproduction • Asexual reproduction – one parent organism produces offspring without meiosis and fertilization • offspring are genetically identical to parent (clones)

  9. Types of asexual reproduction • Fission • simple cell division in prokaryotic (bacteria) cells • Mitosis • simple cell division in eukaryotic cells • Budding • a new organism grows by mitosis on the body of its parent • ex: hydra

  10. Types of asexual reproduction • Animal Regeneration • offspring grows from a piece of its parent • Many animals can regenerate damaged or lost body parts. This is not reproduction; new individuals are not produced. • Vegetative Reproduction • offspring grow from a part of a parent plant • Cloning • A type of asexual reproduction developed by scientists and performed in laboratories. • production of an identical individual from a cell, or cluster of cells, taken from a multicellular organism • The clone is a genetic copy of the parent

  11. Asexual reproduction +/- • Advantages • no mate required • Enables some organisms to produce a large # of offspring • Disadvantages • little genetic variation which can decrease an organism’s chance of surviving if the environment changes. • more likely to suffer mutations

More Related