Leaves and the Use of Microscopes Unit 1 - Biology.
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Transcript of Leaves and the Use of Microscopes Unit 1 - Biology.
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Leaves and the Use of MicroscopesUnit 1 - Biology
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What is Biology?
Biology – 2 Greek wordsBios = life-logy = study of
So biology means….Study of life
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Three Major Fields of BiologyBotany – study of plants
Human Anatomy and Physiology – study of the structure and function of the human body
Zoology – study of animals
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Why Study Biology?
You are livingThe food you eat is/was livingYou are surrounded by living
things
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BOTANYVascular Plants
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Why Study Botany?All of our food comes from plants
(~2/3 directly from plants and ~1/3 from animals who eat plants)
Many drugs and antibiotics used in medicines come from plants
Many plants and plant products are vital to industry
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Parts of a Plant1. Flowers – the reproductive part of
the plant. Not all plants have showy flowers
and some plants don’t have any flowers at all. Most plants with flowers will produce fruit and seeds.
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Parts of a Plant
1. Flowers2. Leaves – the food factory of
most plants. Leaves go through
photosynthesis to produce sugar for the plant.
There are many different types of leaves.
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Parts of a Plant1. Flowers2. Leaves 3. Stems
Holds up the leaves and flowers.
It also transports substances and can transport food.
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Parts of a PlantThere are four main groups of plants based on the type of stem:1.Tree – single, tall, woody stem
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Parts of a PlantThere are four main groups of plants based on the type of stem:1.Tree2.Shrub – several low woody stems
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Parts of a PlantThere are four main groups of plants based on the type of stem:1.Tree 2.Shrub3.Herb – non-woody plant (herbaceous stem)
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Parts of a PlantThere are four main groups of plants based on the type of stem:1.Tree 2.Shrub 3.Herb 4.Vine – woody or herbaceous; grows along the ground or has tendrils that help it climb
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Parts of a Plant1. Flowers2. Leaves 3. Stems4. Roots –
Anchors the plant into the ground.
It absorbs water and nutrients for plant growth
Stores food.
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Parts of a PlantThere are two types of root systems:1.Taproot system – the primary rootgrows straight down and stays larger than secondary roots (ex: carrot, dandelion)
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Parts of a PlantThere are two types of root systems:
2. Fibrous root system – the primary root remains small and many secondary roots grow out in all directions (ex: grass)
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Special LeavesSpecial leaves have a special design
for a specific task. These are considered leaves because buds appear by them and they have the same tissue structure of leaves.Tendrils – special leaves that coil around support structures
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Special LeavesSpines – on cacti; lack chlorophyllLeaves of Venus flytrap, sundew,
pitcher plant, bladderwort – designed to trap and digest insects
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Special StemsSome stems are mistaken for roots because of their location.Stolons – runners that aid in asexual reproduction (strawberries)
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Special StemsSome stems are mistaken for roots because of their location.Rhizomes – horizontal stems that grow underground (ginger, iris)
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Special StemsSome stems are mistaken for roots because of their location.Tubers – swollen ends of rhizomes that store food (potatoes)
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Special StemsSome stems are mistaken for roots because of their location.Bulbs – vertical underground shoots that store food (onions)
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The External Structure and Function of Leaves
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Organism HierarchyMoleculesCellsTissuesOrgansSystemsOrganism
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Plant HierarchyMolecules – C, H, N, O + othersCells – Plant cells with differing
organellesTissues – Structural, vascular,
meristematicOrgans – Leaf, stem, flower, rootSystems – Root and ShootOrganism – Plant
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Plant SystemsWhat is a system?
A group of structures designed to function together as a unit to perform a particular job for the organism.
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Plant Systems2 types of systems:1. Root system – the part of the
plant ordinarily under ground; organ involved - roots
2. Shoot system – the part of the plant which is usually found above the ground; organs involved – stem, leaves, flower
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Leaf Parts Blade – flat, green portion of the leaf
Petiole – leaf stalk (leaves that lack a petiole are sessile leaves)
Margin – edge of a leaf
Vein – carry sap through a plant
Stipule – small leaf-like structure that covers a leaf as it is growing
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Three Basic Leaf Types
1. Broad, flat leaves: roses, dandelions, maples, lilacs
2. Long, narrow leaves: grasses, lilies, onions, palms
3. Needle-like or scale-like leaves: pines, firs, cedars, spruces
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Variety in Leaf ShapesBroadleaf leaves can
be oval, elliptical, heart-shaped, arrow-shaped, oblong, ovate, and many other types
Needle-like leaves can be singular or in bundles. This is an important feature to use to identify them.
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Variety in Leaf MarginsThree main types of
leaf margins are:1. Entire – smooth
and unbroken2. Toothed – small
or large “teeth”3. Lobed –
extensions that stick out
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Simple vs. Compound LeavesSimple leaves have
one blade on every petiole
Compound leaves have more than one blade on every petiole Compound leaves
can have a variety of arrangements
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Leaf Arrangements
Leaves are arranged so that all leaves on a stem will have maximum exposure to sunlight
Leaves have many different arrangements.
(Vocab– a node is the point where a leaf grows from the stem)
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OppositeOpposite – when 2
leaves grow from the same node
Attach at right angles to the leaves directly above and below them
Ex: maple, mint, coleus
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AlternateAlternate – only 1
leaf grows from each node
The leaves alternate sides as they go up the branch.
Ex: apple, oak, birch
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Whorled
Whorled – three or more leaves grow from each node
Ex: loosestrife, Easter lily
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Rosette (Basal)Rosette – cluster of
leaves grow around the base of the plant
Usually a plant with a rosette arrangement doesn’t have a stem
Ex: dandelion
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Leaf Venation
Venation = pattern of veins in a leaf
1. Parallel – veins are parallel to each other
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Leaf VenationVenation = pattern of veins in a
leaf
1. Parallel2. Pinnate – one
major vein with smaller veins extending
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Leaf Venation
Venation = pattern of veins in a leaf
1. Parallel 2. Pinnate 3. Palmate – 2 or more major
veins extending outward from one point
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Evergreen vs. DeciduousEvergreen – foliage remains green year-
round
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Evergreen vs. DeciduousDeciduous – sheds leaves annually
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Evergreen vs. DeciduousConiferous – bears cones; usually
evergreen
Some examples of deciduous conifers: bald cypress, European larch, ginkgo
Evergreen broadleaf trees also exist, normally in the tropics.
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PhototropismTropism = a plant’s response to
external stimuliIndividual leaves will orient
themselves so that each blade is at approximately a 90o angle to the light. The petiole twists because there is more growth on the side that doesn’t have the light.
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PhototropismThis movement is an example of phototropism – the growth response of a plant stimulated by light
Phototropism
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Other TropismsSome other common plant tropisms:Hydrotropism – response to water (roots grow toward water)
Thigmotropism – response to touch (ex: vines wrap around a pole, sensitive plant)
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Other TropismsGeotropism – response to gravity;
can be positive or negative (positive – roots grow down; negative – stem grows up)
Heliotropism – sun-tracking (ex:
sunflowers)
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Leaf Anatomy(WKST)
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Cell StructureMost cells have three basic parts.Cell membrane – Separates the
inside of a cell from the outsideNucleus – Controls activities in the
cellCytoplasm – A mixture of fluid and
organelles between the nucleus and the cell membrane
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Cell StructurePlant cells have some components that are
not found in animal cells.Cell wall – A rigid layer outside the cell
membrane that gives structure to a plant cell; made of cellulose
Chloroplasts – Contain the pigment chlorophyll; absorb energy from the sun for photosynthesis
Vacuole – A storage area inside of the cell (found in some animal cells)
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PHOTOSYNTHESISand
CELLULAR RESPIRATION
Video
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PhotosynthesisPurpose – Make food for the plant
Occurs – in the chloroplasts
Photosynthesis – “putting together with light”
All plants that go through photosynthesis have chloroplasts regardless of their color. Photosynthesis takes place in the chloroplasts.
It’s estimated that plants produce 300 billion tons of food each year.
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Formula for Photosynthesis
lightcarbon dioxide + water glucose + oxygen
54 photons lightCO2 + H20 C6H12O6 + O2
54 photons light6CO2 + 6H20 C6H12O6 + 6O2
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Leaf Practice
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Two Phases of Photosynthesis
Light Phase – Requires lightDark Phase – Doesn’t require
light, but can happen in the light
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Light PhaseSolar energy is converted into the
chemical energy of ATP and NADPH.
Chlorophyll absorbs the solar energy. Water, ADP, and NADP are ingredients for the reaction.
ATP, NADPH, and oxygen are the products.
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Light PhaseEnergy from the sun splits the
water molecule into hydrogen and oxygen.
Hydrogen connects with NADP to form NADPH.
Oxygen will later be released.ATP and NADPH store energy.
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Dark Phase
Happens in the light, but does not require light energy
The dark phase is known as the Calvin cycle
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Dark Phase2 3-carbon molecules combine to make glucose. C and O come from the carbon dioxide. H comes from the NADPH.
The energy to do this comes from ATP breaking down into ADP.
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What Affects Photosynthesis?
Shortage of waterTemperature extremes (ph.
occurs best at 32-95o F)Poor light intensityShortage of carbon dioxide
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Stages of SugarGlucose – form of sugar as it is made in a
plantSucrose – form of sugar as it is transported;
formed by glucose and fructose molecules attached; this is why sap tastes sweet
Starch – form of sugar as it is stored; complex carbohydrate; many sugar molecules are joined together
* Fructose – same chemical formula as glucose, but arranged differently
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Cellular RespirationCellular respiration is the process by
which food energy is released in the presence of oxygen
This occurs in the mitochondria In plants, requires glucose and oxygenGives off carbon, water, and energyThree parts: glycolysis, Krebs cycle,
electron transport chain
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GlycolysisOne molecule of glucose is broken
into two 3-carbon molecules of pyruvic acid
2 molecules of ATP provide the energy
4 molecules of ATP end up being produced
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Krebs Cycle In a series of reactions, pyruvic
acid is broken down into carbon dioxide
NADH, FADH2, and ATP are formedHigh energy electrons are also
produced
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Electron TransportThe electrons are used to
convert ADP into ATP
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TotalsOne glucose molecule can produce 36 ATP
molecules after it goes through cellular respiration
Without oxygen, glucose can only produce 2 ATP molecules during glycolysis and none during the Krebs cycle and electron transport (without oxygen, cells complete either alcoholic fermentation or lactic acid fermentation)
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FALL COLORATION ANDWILTING
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Why Do Leaves Turn Colors?
The changes in the fall are triggered by the change in daylight.
The abscission layer forms between the base of the petiole and the stem.
This prevents materials from being able to go in and out of the leaf.
This causes the chlorophyll to begin to deteriorate.
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Plant PigmentsWhen the chlorophyll deteriorates,
other pigments that were hidden by the chlorophyll are now able to be seen.Chlorophyll – green colorsXanthophyll – yellowish colorsCarotene – yellowish-orange colorsAnthocyanin – bright red, blue, and
purple colors
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Falling LeavesThe enzyme cellulase weakens the
cell wall of the abscission layer.The leaf will break off under its own
weight or with the help of windA protective layer of cork cells forms
at the base of the petiole producing the leaf scar on the branch
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Water and WiltingNot all water taken in by the
plant is used. Much of it escapes through
transpiration
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Water and WiltingFactors that affect the rate of
transpiration:HumidityTemperature Intensity of sunlightWind speedAmount of CO2 in the airAmount of soil water available
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Water and WiltingThe guard cells are important in
controlling the rate of transpirationWhen there is a lot of water in the
plant, the guard cells become turgid and the stoma opens
When water is moving out of the guard cells faster than it can be replaced, the guard cells close the stoma
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WiltingTranspriationWilting occurs when more transpiration is
occurring than water getting into the plant.Temporary wilting may occur on a hot day
when a plant is in the sun. The sun causes more water to be lost than the plant can get from its roots. When the plant is in the shade, it is able to catch up and the cells become turgid again.
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WiltingIn permanent wilting, there is
usually a drought or poor retention of soil water so the plant cannot replace any of the water lost through transpiration.