Plant and Animal Reproduction PDF

Summary

This document explains plant and animal reproduction. It covers the different types of reproduction (sexual and asexual), processes involved (e.g., pollination, fertilization), and examples of each. The document provides a basic overview of the topic with diagrams and examples for understanding.

Full Transcript

Earth and Life Science Senior High School Grade 12 HUMSS

EARTH AND LIFE
SCIENCE
PLANT AND ANIMAL
REPRODUCTION
 Duration: 50 min Grade 12 HUMSS/ABM/GAS

CONTENTS

PLANT
REPRODUCTION

ANIMAL
EARTH AND LIFE REPRODUCTION
SCIENCE
PLANT AND ANIMAL GENETIC
REPRODUCTION ENGINEERING AND
What makes these
pictures similar to
each other?
Perpetuation of Life

Continuation of
Life. How?
Reproduction

Process by which all living organisms
produce one of their kinds to ensure the
survival of the species.

The perpetuation of life is dependent on
this process.
Reproduction

Reproduction is the process by which living
organisms produce new individuals, ensuring the
survival of their species. There are two main types
of reproduction: asexual and sexual.
Asexual Reproduction

Definition: In asexual reproduction, a single parent produces
offspring that are genetically identical to itself. This means the
offspring are exact copies (clones) of the parent.
Examples of Asexual Reproduction: Binary fission, budding,
fragmentation, and vegetative propagation.
Asexual Reproduction
Characteristics:
Only one parent is needed.
Offspring are genetically identical to the parent.
Common in single-celled organisms like bacteria
and in some plants.
 Sexual Reproduction
Definition: In sexual reproduction, two parents contribute genetic
material to produce offspring. The offspring are genetically
different from the parents.

Examples of Sexual Reproduction: In animals, humans,
flowering plants, and most otherplants and animals.
Sexual Reproduction
Characteristics:
Requires two parents (male and female).
- Offspring have a mix of genes from both parents,
leading to genetic diversity.
- Common in complex organisms.
 Identify the Type of Reproduction
For each example, identify whether it is asexual or sexual
reproduction.
1. A bacterium divides to form two new bacteria. __________ASEXUAL
2. A sunflower produces seeds after pollination. __________SEXUAL
3. A starfish regenerates a new arm after losing one. __________
4.ASEXUAL
A mushroom releases spores that grow into new mushrooms.
__________
5. A puppy is born from a mother and father dog. __________
ASEXUAL
SEXUAL
Plant Reproduction
1. Sexual
Reproduction

2. Asexual
Reproduction
Sexual
Reproduction

Occurs on
flowering plants

Reproductive Organ
Sexual
Reproduction
 MATCH COLUMN A
WITH COLUMN B
occurs in flowers where the stamen and
carpel mature at the same time, and are
positioned so that the pollen can land on CROSS POLLINATION
the flower's stigma.
also called allogamy, type of pollination in
which sperm-laden pollen grains are
transferred from the cones or flowers of FERTILIZATION
one plant to egg-bearing cones or flowers
of another.
Fertilization takes place inside the ovary
when the nucleus of pollen grain fuses SELF POLLINATION
with the nucleus of an ovule to produce a
zygote
 SELF-POLLINATION

occurs in flowers where the stamen and carpel mature at the
same time, and are positioned so that the pollen can land on
the flower's stigma.
 CROSS POLLINATION

type of pollination in which sperm-laden pollen grains are
transferred from the cones or flowers of one plant to
egg-bearing cones or flowers of another.
 FERTILIZATION

Fertilization takes place inside the ovary when the nucleus of pollen
grain fuses with the nucleus of an ovule to produce a zygote
Asexual Runners
Reproduction are specialized
stems called stolon.
These stems grow
horizontally outward
1. Runner and downward from
plants and produce
baby plants at their
Example: tips. By cutting off the
babies and planting
Strawberry them or allowing them
to root on their own,
additional plants may
grow.
Asexual
Reproduction

2. Cutting

Example:
Cassava
Asexual
Reproduction

3. Tubers, Bulbs
and Taproot

All grows from
roots
Q1. What are the two ways of plant reproduction?
Plant Reproductio
- Sexual and Asexual

Q2. What are the two processes involving in sexual
reproduction of plants?
- Pollination and Fertilization

Q3. Runners, Cutting, Tubers and Bulbs are examples of
what kind of reproduction of plants?
- Asexual
Animal
Reproduction

1. Sexual
Reproduction

2. Asexual
Reproduction
 Animal
Reproduction

1. Sexual
Reproduction
A. Fertilization
Activity

1. I will show you 3 organisms.
2. Pick one.
3. Search for how the organism you chose reproduce sexually.
4. You can use the internet or your prior knowledge.
5. I will give you 5 minutes to read and search for info.
6. I will call someone in random to share their research.
Activity:

A B C
Activity:

A

How did earthworms reproduce?
Earthworms reproduce through sexual reproduction. They are hermaphrodites, meaning each
earthworm has both male and female reproductive organs. During mating, two earthworms
exchange sperm with each other, which they later use to fertilize their eggs. After mating, each
earthworm forms a cocoon where the fertilized eggs develop until the young earthworms
emerge.
Activity:

B

All frogs reproduce sexually, and all hatch from eggs. In almost all frogs, egg
fertilization happens outside the female's body instead of inside. The female
releases her eggs and the male releases his sperm at the same time.... The male
climbs onto the female's back and clasps his forelegs around her middle.
Activity:

C

Chickens reproduce through sexual reproduction. A rooster mates with
a hen, fertilizing her eggs. The rooster mounts the female, and usually
grabs the top of her head near her comb. He then stands on her back,
and lowers his cloaca. The hen lays the fertilized eggs, which are
incubated for about 21 days until they hatch into chicks.
Animal
Reproduction

1. Asexual
Reproduction
Animal
Reproduction

1. Asexual
Reproduction
A. Fission
a separation of
the body into two
new bodies
Paramecium (Protist)
Animal
Reproduction

1. Asexual
Reproduction Hydra

B. Budding
a new organism
develops from
an outgrowth or
bud
Sponge
Animal
Reproduction

1. Asexual
Reproduction
C. Fragmentation
breaking into
pieces or
being divided Flatworm Starfish
into parts.
FILL IN THE BLANKS
ASEXUAL
1. In __________ reproduction, only one parent is needed, and the offspring are
identical to the parent.
SEXUAL
2. In __________ reproduction, two parents contribute genetic material to
produce diverse offspring.
BINARY
FISSION
3. __________ is a type of asexual reproduction where an organism splits into
two, as seen in bacteria. GENETIC
MATERIAL
4. In sexual reproduction, the offspring receive __________ from both parents.
5. Vegetative propagation is a type of __________ reproduction.
ASEXUAL
IDENTIFICATION

Identify the type of reproduction for each item.

1. Plant cuttings growing roots ASEXUAL
2. A hen laying eggs after mating SEXUAL
3. A hydra growing a bud ASEXUAL
4. A fish spawning (releasing eggs) SEXUAL
5. Binary fission in amoeba ASEXUAL
Q1. What are the two ways of animal reproduction? Animal
- Sexual and Asexual Reproduction

Q2. Does sexual reproduction involving fertilization of
two gametes (sperm + egg cells) ?
- Yes.

Q3. What are the 3 ways on how animals reproduce
asexually?
- Fission, Budding, and Fragmentation
Perpetuation of Life
All organisms including animals and plants
REPRODUCTION
should undergo REPRODUCTION.

As living organisms, our responsibility does not
limit to reproduction only but also to growing and
developing our offspring.
GENETIC ENGINEERING

Genetic engineering is a field
of science where genes of
organisms are being modified
for a better kind of organism.
 GMO
Genetic engineers use specific techniques to
modify DNA in an organism. This often involves
inserting genes from other organisms, including
bacteria or other plants, to give the GMO new
abilities. For example, genes that protect certain
plants from pests are added to crops like corn,
allowing them to grow with less pesticide use.
 GMO
Some of the most common GMO crops
include soybeans, corn, cotton, and
canola. These crops are primarily
engineered for traits like herbicide
tolerance or pest resistance, making
farming more efficient and sometimes
reducing the need for chemical
pesticides.
Benefits of GMOs
1. Higher Yields: GMOs can increase crop
yields, helping to produce more food on
less land, which can be beneficial for food
security.
2. Pest and Disease Resistance: By making
crops resistant to specific pests and
diseases, farmers can reduce losses and
reliance on chemical pesticides.
3. Nutritional Enhancements: Some GMOs
are designed to improve nutritional
content, like Golden Rice, which has been
genetically modified to produce vitamin A
to combat
 CONTROVERSIES
1. Environmental Impact: Concerns exist that GMO
crops may reduce biodiversity and contribute to the
development of herbicide-resistant "superweeds."
2. Health Concerns: While some worry about the
long-term health effects of GMOs, scientific studies
have generally deemed them safe for consumption.
3. Ethical and Economic Issues: Ethical debates
surround gene manipulation, with fears that patents
on GMO seeds could give corporations too much
control over the food supply, negatively impacting
small farmers.
4. Labeling and Regulation: Regulations on GMOs
vary by country, with some requiring labeling to
inform consumers while others impose strict
restrictions or bans on GMO production and s