Download File - Ms. Poole`s Biology

Agenda 10/11
• Plant Adaptations List
• Plant Structure Lecture
• Plant Anatomy Activity
• Turn in: Nothing? Proposals are due by
11:59PM
• Homework
– Chp 28 Notes
– Plant Structure Video and Notes
– (no wifi- remind me)
1
Project Updates
• Proposal Due 10/11 by 11:59 PM
• Ideal Classwork Response
– When people frequently use antibacterial products, such as hand
sanitizer or soap, it can lead to antibiotic resistance. The antibiotics
in cleaning products expose bacteria to the compounds used to kill
them. Once exposed, most bacteria will die, but eventually a mutation
will occur that allows a bacteria to be resistant. This bacteria will
have a selective advantage because it will be able to survive the
antibacterial products, which will lead to speciation and the creation of
new species of antibiotic-resistant bacteria.
• Adjust your responses based on this in your groups and email
me an update response
• With your group, create a list of how plants are
different than animals and what adaptations
they must have in order to survive.
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Botany: Part I
Overview of
Plants &
Plant Structure
The Study Of Botany Derives Components From
Each Of The Four Big Ideas In Biology
Big Idea 1: The process of evolution drives the
diversity and unity of life
Big Idea 2: Biological systems utilize free energy and
molecular building blocks to grow to reproduce & to
maintain dynamic homeostasis
Big Idea 3: Living systems store, retrieve, transmit, and
respond to information essential to life processes
Big Idea 4: Biological systems interact, and these
systems and their interactions possess complex
properties.
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Characteristics of Land Plants
•
•
•
•
•
Eukaryotic
Autotrophs
Cell Wall - cellulose
Alternation of Generations
Embryophytes – protected embryo
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Photosynthetic Autotrophs
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• Four Groups
•
Bryophytes
•
Ferns
•
Gymnosperms
•
Angiosperms
Adaptations for Moving on To Land
• Prevention from dehydration-Evolution of waxy cuticle
• Method of gas exchange for photosynthesis-Evolution
of stomata and lenticels.
• Method to obtain water and minerals-Evolution of
roots
• Increase in size and support-Evolution of xylem
fortified with lignin
• Method of reproduction without water-Evolution of
pollen and pollination strategies.
• Method of protecting embryo from dehydrationEvolution of the seed
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Adaptations for Moving on To Land
• Prevention from
dehydration-Evolution of
waxy cuticle
• Method of gas exchange
for photosynthesisEvolution of stomata and
lenticels.
• Method to obtain water
and minerals-Evolution of
roots
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Bryophytes
• Nonvascular land
plants
• Mosses, liverworts
and hornworts
• Gametophyte (n) is
photosynthetic ,
dominant generation
• Typically groundhugging plants
(Why?)
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Ferns
• Seedless vascular plants
• Horsetails and ferns
• Sporophyte (2n) is
dominant generation
• Most common in damp
areas due to flagellated
sperm that must swim
to reach eggs
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Gymnosperms
• “Naked” seeds not enclosed in
ovaries
• Conifers, ginkgos, and cycads
• Sporophyte (2n) is the
dominant generation
• Seeds are exposed on modified
leaves that usually form cones
• Pollen and ovules diminished
requirement of water for
fertilization (wind-blown pollen)
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Angiosperms
• Flowering plants
• Pecan trees, roses,
peach trees,
tomatoes
• Sporophyte (2n)
generation is
dominant
• Flowers and fruit
• Most abundant of all
plant species
14
Plant Structure and Function
A simple body plan
underlies the diversity
of plant forms that
exist today.
15
Hierarchy of Plant Organization
Systems - root and shoot
Organs – roots, stems, and
leaves
.
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Organ Systems:
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Organs: Roots
Roots – anchor a vascular plant to the soil,
absorb minerals and water, and often store
carbohydrates
18
Root Adaptations
Each of these
evolutionary
root
adaptations
increase
plant survival
in a given
environment.
Organs: Stems
the
main
photosynthetic
organs
Stems – lift leaves and reproductive structures
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Stem Adaptations
Some plants have
stems with additional
functions, such as food
storage and asexual
reproduction. These
are examples of
modified stems.
Organs: Leaves
Leaves – the main photosynthetic organs
Types of Leaves
Leaf Adaptations
Some plant species
have leaves with
adaptations that
function in support,
protection, storage,
or reproduction in
addition to
photosynthesis.
Plant Tissues
Tissue
Components
Function
Dermal
Epidermis
Periderm
Protection
Prevent water loss
Ground
Parenchyma
Collenchyma
Sclerenchyma
Metabolism
Storage
Support
Phloem
Xylem
Transport water
and products of
photosynthesis
Vascular
Location of Tissue Types
Which tissue
type in most
abundant in
plants?
How is this
representative
of “form fits
function”?
Dermal Tissue
Forms epidermis, usually
one cell layer
Some cells differentiate:
•Stomata – pores for gas exchange
•Trichomes – leaf hairs, protect against
herbivores and damaging solar radiation
•Root hairs – increase root surface area
Epidermal cells of the shoot system secrete a waxy
cuticle that limits water loss, reflects damaging solar
radiation, and form a barrier against pathogens
Ground Tissue
Ground tissue is the most abundant
tissue
Cells differentiate:
•Parenchyma – most abundant, carry
out photosynthesis, store protein and
starch
•Collenchyma– elongated, thick cell
walls, provide support
•Sclerenchyma– thick cell walls
reinforced with lignin, programmed cell
death, cell walls remain to provide
support
Vascular Tissue
Transport System
Xylem – carries water and minerals
from roots to rest of plants, composed
of dead cells
Phloem – is composed of living cells,
moves carbohydrates from
production sites to where they
are either used or stored