PLANT NOTES Level Biology. General Characteristics Multicellular Eukaryotic Photoautotrophic ...
Transcript of PLANT NOTES Level Biology. General Characteristics Multicellular Eukaryotic Photoautotrophic ...
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PLANT NOTES
Level Biology
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General Characteristics Multicellular
Eukaryotic Photoautotrophic Cell walls made of cellulose Vascular plants contain xylem
(takes water up plant) and phloem (takes food down the plant)
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4 basic groups of plants:
1. Bryophytes Mosses and Liverworts
2. Seedless vascular plants Ferns and Horsetails
3. Gymnosperms (seed plant) Cone bearing plants (Conifers)
4. Angiosperms (seed plants) Flowering plants
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Plant OrgansRootStemLeaf Flower
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Bryophytes “Non- vascular” plants Live in moist areas like
swamps, marshes, and streams to help in reproduction.
They lack true roots but have rhizoids instead.
Examples- moss, liverworts, and hornworts
Sporophyte- produces spores
Gametophyte- produces gametes
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Ferns- the first vascular plants
Most important adaptation: Xylem- allows
movement of water up from the roots to all parts of the plant
Phloem- transports nutrients and the products of photosynthesis throughout the plant.
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Fern Structure Have underground
stems called rhizomes
Rhizome adaptation: Act as a food store when the fern is unable to photosynthesize during dry conditions.
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Fern Structure Have large leaves
called fronds Contain haploid
spores under the fronds which are produced in tiny clusters called sori
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Day 2
Leaves and Photosynthesis
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Leaf Function
To photosynthesize or make food (glucose) for the plant
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Internal Leaf Structure Cuticle (composed of cutin)-
waxy covering that prevents water loss; adaptation to land for plants
Upper & lower epidermis- first cell layer; produces cuticle for protection
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Palisade layer- long, slender cells with many chloroplasts where most photosynthesis takes place
Vein- contains xylem & phloem Spongy layer- in the center of the leaf; irregularly
shaped cells that are loosely packed with lots of air space between them to resemble a sponge; some photosynthesis takes place here
Vein
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Air spaces- embedded in spongy layer; allows for quick exchange of oxygen (O2) and carbon dioxide (CO2)
Guard cells- hot dog shaped cells that surround and monitor stomata openings
Stomata- openings in leaves & some
stems that allow oxygen
to escape and CO2 to
enter leaf
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Palisade layer- long, slender cells with many chloroplasts where most photosynthesis takes place
Vein- contains xylem & phloem Spongy layer- in the center of the leaf; irregularly
shaped cells that are loosely packed with lots of air space between them to resemble a sponge; some photosynthesis takes place here
Vein
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The interaction between roots, stems, and leaves: The phloem travels throughout the entire plant transporting organic solutes (food). Depending on the plant’s needs, phloem can change its flow direction. Xylem involves the movement of water and minerals starting at the roots, running through the stems, and ends at small pores (stoma) in the leaves. Stomata can open and close, not only at a certain time of day, but also upon the osmotic condition of the plant.
The interaction between roots, stems, and leaves:
Click picture
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Day 2 continued
Photosynthesis How about a song to get this light show s
tarted!
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Photosynthesis FormulaIn the presence of light, plants transform carbon dioxide and water into carbohydrates (glucose) and release oxygen.
6CO2 + 6 H2O C6H12O6 + 6O2
light
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Photosynthesis
Reactants= carbon dioxide & water
Products= sugar (glucose) & oxygen
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Structures involved in photosynthesis
Organ- leaf (occasionally in stems)
Layer- palisade layer Cell organelle- chloroplast
Molecule- chlorophyll
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What special about Chlorophyll?Green pigment
Absorbs light energy from the sun & stores it in chemical bonds in glucose
Only pigment that can transform light energy into chemical energy
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Photosynthesis Song!!!
Great song!!!
What about a video
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Day 3
Roots and Stems
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Root FunctionsAbsorbs water and nutrients from the soil
Anchors the plant into the ground
Stores extra food for later use if needed
Label your root crossection now.
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Root Functions The cortex stores
photosynethesis products The xylem allows the flow of
water. The phloem allows the
movemet of nutrients.
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Types of Roots Tap- large primary
root with tiny hair-like roots for more absorption Examples: carrot Fibrous- roots are
all similar in size Examples: grass
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Tap Root Adaptations Adaptation of taproot in
Savanna: Umbrella thorn Acacias grow in the African savannas. One of the Umbrella Thorn's adaptions to hot and dry conditions is a deep taproot which can reach 115 feet under the ground. If it did not have taproots, then it would not get the water during the dry spells.
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Fiberous Root Adaptations Adaptation of fibrous
roots in the desert: Many cacti have very long, fibrous roots which absorb moisture from the soil. Some, like ball cacti, have shorter, more compact roots that absorb dew water that falls off the cactus.
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Nitrogen Cycle Our atmosphere is made up of
mostly.....? Nitrogen Since we don’t use free Nitrogen,
something has to alter it so we can. Name the cycle.
How do roots play a role in the nitrogen cycle?
Nitrogen is an essential nutrient needed to make amino acids and other important organic compounds, but most organisms cannot use free nitrogen.
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Nitrogen Cycle Gaseous nitrogen is broken apart in the process of
nitrogen fixation. The bacteria in the soil convert the ammonia to nitrites and nitrates. The nitrates are easily absorbed by plant roots. In this way, nitrogen is passed into the food chain and ultimately returned to the soil, water, and atmosphere.
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Roots and Symbiosis Roots often form
symbiotic associations with soil fungi. In this association, the plant benefits from phosphorus that is taken up and supplied by the fungus, and the fungus benefits from carbohydrates produced by the plant. This is an example of mutualism.
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Stem Functions
Transport water and minerals up and food down through the plant
Support the leavesStore extra food for the plant
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Stem Functions Most stems connect the leaves to
the roots, like a highway connects cities.
Note the difference between these two types of stems. Highlight terms that stems have in common with roots.
Do they perform the same function?Of course they do!
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DAY 4: SEED PLANTS
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Two categories of seed plants:
1. Gymnosperms- “naked seed”- Male cones produce pollen for
reproduction
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2. Angiosperms- “flowering plants”
Reproduction takes place in the flower
Divided into two sub groups: monocots & dicots
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Parts of the Flower
1. sepal- modified leaves surrounding the base of the flower for protection of the developing bud
2. calyx- all of the sepals collectively
3. petal- colorful, often fragrant modified leaf to attract insects
4. corolla- all of the petals
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Male Parts of the Flower
5. stamen- male reproductive structures collectively; look like upside down golf clubs; consists of two parts: anther and filament
6. anther: top part of stamen (head of golf club); produces pollen (male gamete)
7. filament: long, thin structure (shaft of golf club) that supports the anther and holds it up high
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Female Parts of the Flower
8. pistil- female reproductive structures; consists of stigma, style, ovary, ovules, and ova
9. stigma- sticky tip of pistil; produces nectar and traps pollen
10. style- long, thin tube that leads to the ovary
11. ovary- enlarged, pear-shaped structure on the bottom of the pistil; contains the ovules and ova; becomes the fruit
12. ovule- individual “room” inside the ovary that produces ova
13. ova- the female gametes (eggs)
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Flower Parts
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Flower Parts
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Fruit Function
To continue the species of a plant A ripened ovary that contains seeds
is called a fruit.
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Seed Dispersal
Some people plant some seeds, but most plants don't rely on people. Plants rely on animals and wind and water to help scatter their seeds.
We will examine 3 different types
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Seed Dispersal
1. Animals- Transport of burred seeds ni animal’s fur or feathers; fleshy fruit eaten, digested, and excreted at another location; burry seeds to come back to eat later.
Bear eats berries
Bear fertlizes seed
New berries in a new location
Berries germinate
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Seed Dispersal
2. Wind dispersal- smaller seeds that have wings or other hair-like or feather like structures (dandelion or sycamore seeds)
Click for video
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Seed Dispersal
3. Water dispersal- Plants living along streams and rivers have seeds that float downstream, which germinate at new sites