Trees, shrubs, grass, moss, ferns Plant Adaptations Trees, shrubs, grass, moss, ferns
Importance of plants Earth’s major producers Food and shelter for many organisms Supply O2 needed for cellular respiration
Characteristics of Plants Eukaryotic Multicellular Autotrophs Cell walls made of cellulose Remember fungi & bacteria?
Theory—plants evolved from green algae (one of the plant-like protists) about 500 million years ago.
Similarities btwn plants & green algae: Have cell walls made of cellulose Have the same types of chlorophyll used in photosynthesis Store food as starch
Some differences: Green algae needs water constantly for photosynthesis & reproduction Have no structures to prevent drying out What characteristics allow land plants to over come these obstacles?
Adaptations of land-living plants Structures that provide plant with food, water, and minerals – leaves & roots.
Leaves Broad, flat organ that traps light energy Cells contain 1000s of chloroplasts (photosynthesis) Location for most photosynthesis in plants
Adaptations of Leaves The leaf of the pitcher plant is modified to attract & then digest insects & other small prey due to lack of nitrogen. Plants that grow on forest floors produces broad leaves to capture the small amount of sunlight that penetrates between taller trees
Roots Plant organ that: Anchors plant in ground Absorbs water & minerals from soil (assisted by root hairs) Transports nutrients to stem
Adaptations of Roots Exposed to air, ex. Epiphytes Usually for plants that need to grow on top of other plants to reach sunlight. Must get water from rain or mist because they are not in the soil. • Ex. Orchid Swollen portions that can have buds to produce new shoots. Ex. Tubers, radish, potato, rutabaga
2. Structures that aid in the transport of materials - stem & vascular tissues.
Stem Provides structural support for upright growth Some green stems may also carry out photosynthesis Contains tissues for transporting food, water, and nutrients from one part of the plant to another
Water moves from the roots to the leaves (what occurs in the leaves and what does it produce?) Through xylem tissue
The sugars/food produced in the leaves move to the roots through the phloem tissue.
Summary Substance Direction Vascular Tissue Water Leaves Roots Xylem Food/Sugar Phloem
Adaptations of the Stem A tuber is a stem, usually growing underground, that stores food. Ex. potato A rhizome is a horizontal, underground stem. New shoots can form allowing the plant to undergo periods of dormancy. Ex. ginger
central stem surrounded by short, thick leaves. that protect the bulb A bulb is made up of a central stem surrounded by short, thick leaves. that protect the bulb & store food. Ex. Onion, garlic
Tropism – movement of plant in response to environmental stimulus Controlled by hormones 3 Types of tropism Photo- light example: stem grows towards light Gravit- gravity example: Roots grow towards Earth Thigmo- touch example: Climbing vines
3. Structures that help prevent water loss - cuticle & stomata
Cuticle Protective waxy layer on leaves Prevent evaporation & tissues from drying out
Stomata Openings in the cuticle of the leaf Regulated by guard cells - allow for gas exchange during photosynthesis Can close to prevent water loss – transpiration Stomata & guard cells
Adaptations of the Leaves The narrow leaves of a pine tree contain a waxy epidermis as well as stomata shrunken below the surface of leaf to reduce water loss. Cactus and other succulents have a tick waxy coating and reduced leaves to prevent water loss in arid climates.
4. Structures for reproduction w/out water - flowers
Most flowers have 4 basic parts. petals pistil/ carpel stamen sepals
Adaptations of Flowers Brightly colored and sweet nectar to attract pollinators Development of fruit for seed dispersal
Flowers & Pollinators Wind pollination - not very efficient; usually produce vast amounts of pollen to help ensure pollination; ex. Oak trees Animal pollination - Most angiosperms are pollinated by animals - mainly insects, birds, bats - they carry pollen from one flower to another.
Animals have evolved body shapes that enable them to reach deep within certain flowers, ex. Hummingbirds
Different fruits Fleshy fruits - apples, grapes, melons, tomatoes, squash, cucumbers Dry fruits – peanuts, walnuts, wheat, barley, corn, rice
Seed Dispersal By animals - Seeds contained in sweet, fleshy fruits. Seeds are covered with tough coatings that protect them from digestive chemicals. Then the seeds sprout in the feces eliminated from the animal.
By wind & water - Seeds are typically lightweight, allowing them to be carried in the air or to float on the surface of the water