Transcript PowerPoint

Lesson 1
Understanding Sexual
Reproduction in Plants
Next Generation Science/Common Core Standards Addressed!
HS‐LS1‐Construct an explanation based on evidence for how the structure
of DNA determines the structure of proteins which carry out the essential
functions of life through systems of specialized cells. [Assessment
Boundary: Assessment does not include identification of specific cell or
tissue types, whole body systems, specific protein structures and functions,
or the biochemistry of protein synthesis.]
WHST.9‐12.7 Conduct short as well as more sustained research projects to
answer a question (including a self generated question) or solve a problem;
narrow or broaden the inquiry when appropriate; synthesize multiple
sources on the subject, demonstrating understanding of the subject under
investigation. (HS‐LS1‐3)
HSSIC.A.1 Understand statistics as a process for making inferences about
population parameters based on a random sample from that population.
(HS‐LS2‐6)
Bell Work!
1. Discuss the importance of plant
propagation
2. Explain the difference between
sexual and asexual reproduction
3. Identify the major parts of a seed
4. List the function of each major part of
a seed
Terms!
Cotyledon
Cross pollination
Diploid
Embryo
Endosperm
Epicotyl (plumule)
Fertilization
Gametes
Genes
Haploid
Hybrids
Hypocotyl
Pollination
Radicle
Seed
Seed coat
Self pollination
Sexual reproduction
Zygote
Interest Approach
Look at the sample of plants that I have
brought in for you.
What are the two categories of plants
that are displayed?
How important do you think flowers are
to a plant?
How are plants more successful at
reproduction than animals?
What Would Happen if Plants Did
Not Have the Ability to Reproduce?
Plants are essential for life as we know it on
earth
They are the ecological producers of our planet
They produce food and shelter for other organisms,
produce oxygen to support animal respiration, and
enrich our environment
Throughout history people have relied on seeds
and plant parts to grow new plants for food and
fiber. Livestock production would be impossible
without plants!
In more recent times, knowledge of plant
reproduction has resulted in the
development of plant hybrids that have
enabled large scale agricultural production
of food and fiber plants
How Is Sexual Reproduction Different
From Asexual Reproduction?
Sexual reproduction occurs when the male
sperm carried in the pollen unites with the female
egg within a flower
Most plants reproduce their own kind in nature by
seeds that are the result of sexual reproduction
The male sex cell (sperm) and the female sex cell
(egg) are known as gametes
The union of gametes produces the seed that contains
the embryo plant and stores food
Both the male sperm and the female
egg contribute genetic information to the
new embryo plant
This results in new combinations of genes
producing new traits that add vigor to the
offspring
The offspring resulting from this new
combination of genes is known as a hybrid
People have greatly improved agricultural crops
through hundreds of years of hybridization
The genes, made from DNA, are
located in chromosomes
Normal cells contain a pair of
chromosomes and are said to be
diploid
Reproductive cells, the egg and
sperm, contain a single chromosome
and are said to be haploid
Fertilization unites the single chromosome in the
sperm nucleus with the single chromosome in
the egg nucleus
This enables the fertilized egg or zygote to have a
complete pair of chromosomes (diploid)
Plant fertilization is unique because the sperm
contains two nuclei
Causes the plant to become double fertilized
One sperm nucleus unites with the egg nuclei to
produce a zygote
The second sperm nucleus unites with the nuclei of the
embryo sac that develops into the endosperm
Fertilization
Process
Pollen
Stigma
Two sperm
nuclei
Ovary
Egg
Pollen tube
Second nucleus
Egg nucleus
One sperm fertilizes
second nucleus to
form endosperm
One sperm
fertilizes egg
Pollination is the transfer of the male
sperm carried in the pollen to the female
part of the flower, the stigma
Plants rely on insects, wind and water to
transfer the pollen to the stigma
In addition, plants depend on animals to
help with this process
Birds, insects, bats and other animals are
attracted to brightly colored, scented flowers
These animals transfer pollen from the anthers
of the flowers they visit to the stigmas of other
flowers
Pollination
Pollen grains
(contain sperm)
Stigma
Ovule
A bat is covered with pollen from
this flower. It will transfer this
pollen to another flower when it
searches for more nectar.
Ovary
Egg cell
Pollination
Pollination
Pollination
Types of Pollination
A. When the pollen of a plant pollinates
a flower on the same plant, it is called
self-pollination
Many plants have this ability, others do not
B. When the pollen of a plant pollinates
the flower on another plant of the same
species, it is said to be crosspollination
What Are the Major Parts of a Seed
& Where Are They Located?
A seed is a living entity that serves as a
bridge between generations of a plant
It is formed in the pistil of the flower and
develops from the ovule following
fertilization
As the fertilized egg (zygote) grows and
develops, it becomes the embryo of the
seed
Parts of the Embryo
The embryo contains the root, stem and leaf of a
complete plant
In addition to this, it also contains stored food to
support development and growth of the embryo
The seeds of dicot plants have food stored cotyledons.
In monocot seeds, most food is found in the endosperm
The embryo’s root is called the radicle, the stem the
hypocotyl and the leaf the epicotyl
Surrounding the embryo & endosperm is a
protective seed coat
Embryo
Parts
Seed coat
Hypocotyl
Epicotyl
Cotyledons
Endosperm
Seed coat
Epicotyl
Hypocotyl
Cotyledon
Radicle
What Is the Function of Each
Major Part of a Seed?
Each part of the seed has a specific
function to help ensure that a healthy
new plant will emerge from the seed
The seed is a living entity which
contains the embryo plant & everything
necessary for its growth & development
Dicot plants (soybean, pea, oak) have two
cotyledons while monocots (corn, coconut,
lilies) have only one cotyledon in its seed
Seed Parts & Functions
Radicle
Lower part of the hypocotyl; forms the
first root; first to emerge from the seed
Hypocotyl Develops into the true stem
Epicotyl
Above the hypocotyl; develops into a
pair of small leaves
Tip is sometimes called the plumule
– it is the terminal bud of the first shoot
to emerge form the seed
Endosperm
Cotyledon
Seed coat
Found in monocots in an area of
high concentration of food; food
source for the embryo
Stores food absorbed from the
endosperm when the seed is
formed; provides energy until the
plant produces its own food
Surrounds the seed and protects it
from injury and dehydration
Summary
Why are plants essential on earth?
How is sexual reproduction different from
asexual reproduction?
What is another name for the sex cells of a
plant?
How is a haploid gene different from a diploid
gene?
Explain the process of pollination. What are
the two types?
Summary Continued
How does fertilization in a plant occur?
What part of the seed is the primary root?
What is the function of a cotyledon?
What part of the plant develops into the true
stem?
How is a monocot different from a dicot?
What protects the seed before it germinates?
The End!