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Transcript
Plant Kingdom EQ: How do parts of plants function for the survival of the whole organism? Plants With Seeds I. General Information Plants With Seeds I. General Information A. Life Span Plants With Seeds I. General Information A. Life Span 1. Annuals- reproduce one year/ die Snapdragons Plants With Seeds I. General Information A. Life Span 1. Annuals- reproduce one year/ die 2. Biennials- reproduce second year/ die The Sweet William Dwarf. Plants With Seeds I. General Information The Plantain Lilly. A. Life Span 1. Annuals- reproduce one year/ die 2. Biennials- reproduce second year/ 3. die Perennials – reproduce each year/ live many years Plants With Seeds • B. Tropism- a plant growing toward or away from a stimulus. Plants With Seeds • B. Tropism- a plant growing toward or away from a stimulus. 1. Positive tropism – plant grows toward the stimulus. Plants With Seeds • B. Tropism- a plant growing toward or away from a stimulus. 1. Positive tropism – plant grows toward the stimulus. 2. Negative tropism – plant grows away from stimulus. Plants With Seeds • B. Tropism- a plant growing toward or away from a stimulus. 1. Positive tropism – plant grows toward the stimulus. 2. Negative tropism – plant grows away from stimulus. 3. Examples: Plants With Seeds • 3. Examples: Plants With Seeds • 3. Examples: a. Phototropism = response to light – a positive tropism Plants With Seeds • 3. Examples: a. Phototropism = response to light – a positive tropism b. Gravitropism = response to gravity where roots show a positive tropism and stems show a negative tropism. Positive Tropism Phototropism Sunflower tropism Negative tropism • Charles Darwin was one of the first to scientifically document that roots show positive gravitropism and stems show negative gravitropism. That is, roots grow in the direction of gravitational pull (i.e., downward) and stems grow in the opposite direction (i.e., upwards). Example of Geotropism in the remaints of a cellar of a roman villa in the Archeologic Park in Baia, Italy Negative tropism • Gravity is used to signal root growth downwards and shoots upwards. (Shoots also use light (phototropism) to direct growth away from gravity.) II. Plant Parts II. Plant Parts A. Leaves :<) II. Plant Parts A. Leaves 1. Photosynthesis II. Plant Parts A. Leaves 1. Photosynthesis a. Definition: food making process in leaves using light energy captured by chlorophyll in the cholorplasts II. Plant Parts A. Leaves 1. Photosynthesis a.Definition: food making process in leaves using light energy captured by chlorophyll in the cholorplasts Sun’s energy b. 6CO2 + 6H2O C6H12O6 + 6O2 II. Plant Parts A. Leaves 1. Photosynthesis a. Definition: food making process in leaves using light energy captured by chlorophyll in the cholorplasts b. 6CO2 Carbon Dioxide + 6H2O C6H12O6 + 6O2 II. Plant Parts A. Leaves 1. Photosynthesis a. Definition: food making process in leaves using light energy captured by chlorophyll in the cholorplasts b. 6CO2 Water + 6H2O C6H12O6 + 6O2 II. Plant Parts A. Leaves 1. Photosynthesis a. Definition: food making process in leaves using light energy captured by chlorophyll in the cholorplasts b. 6CO2 Sugar + 6H2O C6H12O6 + 6O2 II. Plant Parts A. Leaves 1. Photosynthesis a. Definition: food making process in leaves using light energy captured by chlorophyll in the cholorplasts b. 6CO2 oxygen + 6H2O C6H12O6 + 6O2 II. Plant Parts A. Leaves 1. Photosynthesis c. Reasons photosynthesis is important to humans. II. Plant Parts A. Leaves 1. Photosynthesis c. Reasons photosynthesis is important to humans. (1) Starts the food chain for all life forms. II. Plant Parts A. Leaves 1. Photosynthesis c. Reasons photosynthesis is important to humans. (1) Starts the food chain for all life forms. (2) Provides O2 to breathe (2) Provides O2 to breathe (2) Provides O2 to breathe oxygen (2) Provides O2 to breathe oxygen (2) Provides O2 to breathe oxygen (2) Provides O2 to breathe oxygen carbon dioxide (2) Provides O2 to breathe oxygen carbon dioxide Carbon dioxide / oxygen cycle 2. Classification: 2. Classification: a. Veining 2. Classification: a. Veining (1) Parallel 2. Classification: a. Veining (2) Palmate 2. Classification: a. Veining (3) Pinnate (a) opposite pinnate 2. Classification: a. Veining (3) Pinnate (b) alternate pinnate 2. Classification: b. Edging / Shape 2. Classification: b. Edging / Shape (1) Smooth 2. Classification: b. Edging / Shape (2) Toothed 2. Classification: b. Edging / Shape (3) Lobed 2. Classification: c. Needles 2. Classification: c. Needles (1) Single 2. Classification: c. Needles (2) Attached 3. Transpiration 3. Transpiration a. The evaporative loss of water from a plant in the leaves (the stomata). 4. Cellular Respiration (in the Mitochondria) 4. Cellular Respiration (in the Mitochondria) a. The transformation of sugar into energy (ATP + heat). 4. Cellular Respiration (in the Mitochondria) a. The transformation of sugar into energy (ATP + heat). b. C6H12O6 + 6O2 6CO2 + 6H2O + energy Flowers: Flowers: B. Flowers: Purpose and Reproduction Flowers: B. Flowers: Purpose and Reproduction 1. Flower parts and functions Flowers: B. Flowers: Purpose and Reproduction 1. Flower parts and functions a. Pistil = female reproductive organ Flowers: B. Flowers: Purpose and Reproduction 1. Flower parts and functions a. Pistil = female reproductive organ (1) Stigma: Catches pollen Flowers: B. Flowers: Purpose and Reproduction 1. Flower parts and functions a. Pistil = female reproductive organ (1) Stigma: Catches pollen (2) Style: Allows a place for tube to carry sperm from pollen to egg in ovary. Flowers: B. Flowers: Purpose and Reproduction 1. Flower parts and functions a. Pistil = female reproductive organ (1) Stigma: Catches pollen (2) Style: Allows a place for tube to carry sperm from pollen to egg in ovary. (3) Ovary: Contains eggs which become seeds once they are fertilized by the pollen. Flowers: B. 1. b. Stamen: Male reproductive organ Flowers: B. 1. b. Stamen: Male reproductive organ (1). Filament: Holds the anther up so wind and bees take pollen. Flowers: B. 1. b. Stamen: Male reproductive organ (1). Filament: Holds the anther up so wind and bees take pollen. (2). Anther: Produces pollen Flowers: B. 1. c. Other flower parts Flowers: B. 1. c. Other flower parts (1). Petals: colorful to attract insects Flowers: B. 1. c. Other flower parts (1). Petals: colorful to attract insects (2). Sepals: Protects the bud before it opens. Flowers: B. 1. c. Other flower parts (1). Petals: colorful to attract insects (2). Sepals: Protects the bud before it opens. (3). Receptacle: Base or “holder” of the flower. Flowers: B. 2. Sequence of steps for plants with seeds (reproduction). Flowers: B. 2. Sequence of steps for plants with seeds (reproduction) a. Anther produces pollen. Flowers: B. 2. Sequence of steps for plants with seeds (reproduction) a. Anther produces pollen. b. Pollen is carried by wind or insects to stigma of a different flower. Flowers: B. 2. Sequence of steps for plants with seeds (reproduction) a. Anther produces pollen. b. Pollen is carried by wind or insects to stigma of a different flower. c. A tube grows from the pollen through the style to the ovary Flowers: B. 2. Sequence of steps for plants with seeds (reproduction) d. Sperm cells that were in the pollen travel through the tube to the egg cells in the ovary. Flowers: B. 2. Sequence of steps for plants with seeds (reproduction) d. Sperm cells that were in the pollen travel through the tube to the egg cells in the ovary. e. Fertilization produces seed (sperm + egg = seed) Flowers: B. 2. Sequence of steps for plants with seeds (reproduction) f. Fruit forms around seed (ovary where eggs were contained becomes the fruit) C. Roots 1. Tap root: Has long main root with tiny root hairs. C. Roots 2. Fibrous root: Spreads out as a tangle. D. Stems: D. Stems: 1. Have Vascular bundle tissue inside to transport water and nutrients. D. Stems: 1. Have Vascular bundle tissue inside to transport water and nutrients. a. xylem: “elevator” going up. D. Stems: 1. Have Vascular bundle tissue inside to transport water and nutrients. a. xylem: “elevator” going up. b. phloem: “elevator” going down. D. Stems: 1. Have Vascular bundle tissue inside to transport water and nutrients. a. xylem: “elevator” going up. b. phloem: “elevator” going down. 2. Annual Rings: Show the age in woody stems. E. Seeds: E. Seeds: 1. Seed Coat: Protects the seed. Seed Coat E. Seeds: 1. Seed Coat: Protects the seed. 2. Embryo: The new plant. Embryo Seed Coat E. Seeds: 1. Seed Coat: Protects the seed. 2. Embryo: The new plant. 3. Cotyledon: Stored food for the new plant (embryo) when it starts to sprout and grow. Cotyledon Embryo Seed Coat
