Section 22 1 INTRODUCING PLANTS Sheryl Searcy Ninth

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Section 22 -1 INTRODUCING PLANTS Sheryl Searcy Ninth Grade Center 2013

Section 22 -1 INTRODUCING PLANTS Sheryl Searcy Ninth Grade Center 2013

Criteria for Kingdom Plantae Cell type: Eukaryotes. Cell number: Multicellular. Cell structure: Cell wall

Criteria for Kingdom Plantae Cell type: Eukaryotes. Cell number: Multicellular. Cell structure: Cell wall made of cellulose. Mode of nutrition: Autotrophic. Carry out photosynthesis using the green pigments chlorophyll a and b. Some are parasitic or saprobes. Sheryl Searcy Ninth Grade Center 2013

Plant Life Cycle All plants have a life cycle with alternation of generations, in

Plant Life Cycle All plants have a life cycle with alternation of generations, in which the haploid gametophyte phase alternates with the diploid sporophyte phase. Textbook, page 552 Sheryl Searcy Ninth Grade Center 2013

Plant Life Cycle Alternation of Generations! Haploid (N) – Gametophyte plant (N) – Produces

Plant Life Cycle Alternation of Generations! Haploid (N) – Gametophyte plant (N) – Produces either sperm or eggs. (gametes = reproductive cells) Diploid (2 N) – The sperm and egg join to create the Sporophyte plant (2 N), which is diploid. – Egg and sperm join to create spores by meiosis. Sheryl Searcy Ninth Grade Center 2013

Plant Survival Sunlight needed to carry out photosynthesis. Minerals and water are needed to

Plant Survival Sunlight needed to carry out photosynthesis. Minerals and water are needed to make new plant parts. Gas exchange (through photosynthesis and cellular respiration) must occur without losing excessive amounts of water. Movement of water and nutrients is required for plant energy production and growth. Sheryl Searcy Ninth Grade Center 2013

Evolutionary Cladogram of Plants (Angiosperms) (Gymnosperms) (Bryophytes) Sheryl Searcy Ninth Grade Center 2013

Evolutionary Cladogram of Plants (Angiosperms) (Gymnosperms) (Bryophytes) Sheryl Searcy Ninth Grade Center 2013

Overview of the Plant Kingdom The majority of plant life is _______. Sheryl Searcy

Overview of the Plant Kingdom The majority of plant life is _______. Sheryl Searcy Ninth Grade Center 2013

Section 22 -2 BRYOPHYTES Sheryl Searcy Ninth Grade Center 2013

Section 22 -2 BRYOPHYTES Sheryl Searcy Ninth Grade Center 2013

Bryophytes (ex. mosses, liverworts, hornworts) Life cycles depend on water for reproduction. Abundant in

Bryophytes (ex. mosses, liverworts, hornworts) Life cycles depend on water for reproduction. Abundant in moist environments (bogs, near streams, in rain forests) because there is no vascular tissue. Sphagnum moss alive is used in gardening, and when compacted (peat) it’s used for fuel. Sheryl Searcy Ninth Grade Center 2013 (Angiosperms)

Typical Moss Plant Capsule Stalk Sporophyte Leaflike Structure Gametophyte Stemlike Structure Rhizoid Sheryl Searcy

Typical Moss Plant Capsule Stalk Sporophyte Leaflike Structure Gametophyte Stemlike Structure Rhizoid Sheryl Searcy Ninth Grade Center 2013

Life Cycle of a Moss Sheryl Searcy Ninth Grade Center 2013

Life Cycle of a Moss Sheryl Searcy Ninth Grade Center 2013

Section 22 -3 FERNS: SEEDLESS VASCULAR PLANTS Sheryl Searcy Ninth Grade Center 2013

Section 22 -3 FERNS: SEEDLESS VASCULAR PLANTS Sheryl Searcy Ninth Grade Center 2013

What developed between plant divisions 1 and 2? Vascular Tissue developed! Vascular tissue: specialized

What developed between plant divisions 1 and 2? Vascular Tissue developed! Vascular tissue: specialized tissue to transport water and nutrients throughout the plant. Sheryl Searcy Ninth Grade Center 2013

Phylum Pterophyta: Ferns Ex. horsetails, club mosses, ferns. Leaves are called fronds. Undergound stems

Phylum Pterophyta: Ferns Ex. horsetails, club mosses, ferns. Leaves are called fronds. Undergound stems called rhizomes. Found in moist, shaded forest areas. Sori – clusters of sporangia (spores on the underside of fronds). Sheryl Searcy Ninth Grade Center 2013

Vascular Tissue Tracheids are specialized cells that can move fluids through the plant body,

Vascular Tissue Tracheids are specialized cells that can move fluids through the plant body, even against the force of gravity. – Xylem (moves water upward). – Phloem (moves nutrients and carbohydrates throughout plant). Sheryl Searcy Ninth Grade Center 2013 the

Typical Fern Plant Sheryl Searcy Ninth Grade Center 2013

Typical Fern Plant Sheryl Searcy Ninth Grade Center 2013

Life Cycle of a Fern Sheryl Searcy Ninth Grade Center 2013

Life Cycle of a Fern Sheryl Searcy Ninth Grade Center 2013

Section 22 -4 GYMNOSPERMS: SEED PLANTS Sheryl Searcy Ninth Grade Center 2013

Section 22 -4 GYMNOSPERMS: SEED PLANTS Sheryl Searcy Ninth Grade Center 2013

Gymnosperms: Cone Bearers Means “naked seed”. Includes conifers (pines & spruces) and palms (cycads

Gymnosperms: Cone Bearers Means “naked seed”. Includes conifers (pines & spruces) and palms (cycads & ginkgoes). Adapted seed to allow reproduction without water; able survive in dry and extreme temperatures. Sheryl Searcy Ninth Grade Center 2013

Reproduction Free from Water Second evolutionary development of plants = seeds. Adaptations that allows

Reproduction Free from Water Second evolutionary development of plants = seeds. Adaptations that allows seed plants to reproduce without water include: – Flowers and cones. – Transfer of sperm by pollination. – Protection of embryos in seeds. Necessary to meet the challenges of surviving on land. Sheryl Searcy Ninth Grade Center 2013

Diagram of a Pine Seed – Growing part of seed containing: Embryo Endosperm Sheryl

Diagram of a Pine Seed – Growing part of seed containing: Embryo Endosperm Sheryl Searcy Ninth Grade Center 2013 Endosperm – Tissue that provides nutrition for the developing seed. Seed Coat Embryo Seed Coat – Protective outer covering of the seed.

Reproduction Germination: early growth stage of a plant embryo. Dormancy: period of time during

Reproduction Germination: early growth stage of a plant embryo. Dormancy: period of time during which a plant embryo is alive but not growing. Features that allow seeds to reproduce without water: – Reproduction in cones. – Movement of gametes by pollination. – Protection of embryo in a seed. Sheryl Searcy Ninth Grade Center 2013

Pollination Transfer of pollen from the male reproductive structure to the female reproductive structure.

Pollination Transfer of pollen from the male reproductive structure to the female reproductive structure. Sheryl Searcy Ninth Grade Center 2013

Adaptations Needles Winged Seeds Sheryl Searcy Ninth Grade Center 2013

Adaptations Needles Winged Seeds Sheryl Searcy Ninth Grade Center 2013

Section 22 -5 ANGIOSPERMS: FLOWERING PLANTS Sheryl Searcy Ninth Grade Center 2013

Section 22 -5 ANGIOSPERMS: FLOWERING PLANTS Sheryl Searcy Ninth Grade Center 2013

Anthophyta: Angiosperms Dominate plant life. Flowers are the reproductive organs of plants. – has

Anthophyta: Angiosperms Dominate plant life. Flowers are the reproductive organs of plants. – has ovaries (fruit) to protect the seeds. – Attracts animals which help with pollination. Sheryl Searcy Ninth Grade Center 2013

Diversity of Angiosperms Can be classified into: 1. Stems: herbaceous vs. woody. 2. Lifespans:

Diversity of Angiosperms Can be classified into: 1. Stems: herbaceous vs. woody. 2. Lifespans: annuals, biennials, perennials. 3. monocotyledon vs. dicotyledon. Sheryl Searcy Ninth Grade Center 2013

Monocots vs. Dicots Sheryl Searcy Ninth Grade Center 2013

Monocots vs. Dicots Sheryl Searcy Ninth Grade Center 2013

Lifespans Annuals – Complete life cycle in one year. Biennials – Life cycle takes

Lifespans Annuals – Complete life cycle in one year. Biennials – Life cycle takes 2 years Year one: germinate and grow roots, maybe leaves. Year two: grow new stems, leaves, and flowers. Perennials – Live through many years May die back in winter, but re-grow in the spring (asparagus, peonies, many grasses). Most have woody stems (palms, trees, honeysuckle). Sheryl Searcy Ninth Grade Center 2013

Examples of Monocotyledons (Liliopsida) Grasses which include grains such as corn and wheat. Lilies.

Examples of Monocotyledons (Liliopsida) Grasses which include grains such as corn and wheat. Lilies. Orchids. Palms. Sheryl Searcy Ninth Grade Center 2013

Examples of Dicotylendons (Magnoliopsida) Roses Mallows Tomatoes Oaks Daisies Sheryl Searcy Ninth Grade Center

Examples of Dicotylendons (Magnoliopsida) Roses Mallows Tomatoes Oaks Daisies Sheryl Searcy Ninth Grade Center 2013

Plant Parts Transport – Roots, stems, leaves. Energy Production – Leaves. Reproduction – Flowers.

Plant Parts Transport – Roots, stems, leaves. Energy Production – Leaves. Reproduction – Flowers. Sheryl Searcy Ninth Grade Center 2013

Roots (Transport) Taproot: primary root grows down from the stem with secondary roots forming.

Roots (Transport) Taproot: primary root grows down from the stem with secondary roots forming. – ex. carrot, potato, radish Fibrous: small lateral roots that spread out just below surface of the soil. – ex. weeds Sheryl Searcy Ninth Grade Center 2013

4 Root Functions Absorbs water & nutrients from the soil. Transports water & nutrients

4 Root Functions Absorbs water & nutrients from the soil. Transports water & nutrients to stem. Anchors plant to maintain stability. Stores food and water. Sheryl Searcy Ninth Grade Center 2013

Structure of Roots Outermost layer of cells Site of absorption Tissue that stores starch

Structure of Roots Outermost layer of cells Site of absorption Tissue that stores starch Within cortex; contains cells for transport of water, nutrients, & minerals) Protection of root tip Sheryl Searcy Ninth Grade Center 2013

Stems (Transport) Woody – Thick cell walls that support the plant. – Trees, shrubs,

Stems (Transport) Woody – Thick cell walls that support the plant. – Trees, shrubs, and vines. Herbaceous – Stems are smooth, supported by hydrostatic pressure (turgor). – Dandilions, zinnias, petunias. Sheryl Searcy Ninth Grade Center 2013

Stems Sheryl Searcy Ninth Grade Center 2013

Stems Sheryl Searcy Ninth Grade Center 2013

3 Functions of Stems Transports water & nutrients from roots to leaves. Supports/produces leaves,

3 Functions of Stems Transports water & nutrients from roots to leaves. Supports/produces leaves, branches, fruits/flowers. Stores food. Sheryl Searcy Ninth Grade Center 2013

Transport in Plants Capillary action: the tendency of water to rise in a thin

Transport in Plants Capillary action: the tendency of water to rise in a thin tube. The result of the water molecules’ ability to stick to one another (cohesion)and to the walls of the tube (adhesion). Contributes to the movement of water up the cells of the xylem tissue. Sheryl Searcy Ninth Grade Center 2013

Leaves (Transport & Energy Production) Photosynthesis – Process that plants use to produce their

Leaves (Transport & Energy Production) Photosynthesis – Process that plants use to produce their food. – 6 CO 2 + 6 H 2 O C 6 H 12 O 6 + 6 O 2 Transpiration – Loss of water and exchange of carbon dioxide. Sheryl Searcy Ninth Grade Center 2013

Structure of Leaves Cuticle – Waxy outer surface; retains moisture. Mesophyll – Middle layer

Structure of Leaves Cuticle – Waxy outer surface; retains moisture. Mesophyll – Middle layer of leaf where photosynthesis occurs. – Palisade layer (upper). – Spongy layer (underside). Sheryl Searcy Ninth Grade Center 2013

Structure of Leaves (cont’d) Epidermis – “Skin” of leaf responsible for gas exchange. –

Structure of Leaves (cont’d) Epidermis – “Skin” of leaf responsible for gas exchange. – Upper and lower. Stomata – Outside layer of leaf opening in epidermis where gas and water exchange (controlled by guard cells). Sheryl Searcy Ninth Grade Center 2013

Gas Exchange in Leaves Turgor pressure (water pressure) – Stomata close automatically when supplies

Gas Exchange in Leaves Turgor pressure (water pressure) – Stomata close automatically when supplies of water from roots start to dry up. – Guard cells trigger when water is scarce causing stomata to become flaccid and pores close. Sheryl Searcy Ninth Grade Center 2013

Leaf Vein Types Parallel Pinnate Sheryl Searcy Ninth Grade Center 2013 Palmate

Leaf Vein Types Parallel Pinnate Sheryl Searcy Ninth Grade Center 2013 Palmate

Flowers (Reproduction) Sheryl Searcy Ninth Grade Center 2013

Flowers (Reproduction) Sheryl Searcy Ninth Grade Center 2013

Structure of Flowers Sheryl Searcy Ninth Grade Center 2013

Structure of Flowers Sheryl Searcy Ninth Grade Center 2013

Typical Flower Structure Petals – Highly colored part of the flower, may contain perfume

Typical Flower Structure Petals – Highly colored part of the flower, may contain perfume and/or nectar glands. Sepals – Small green structures on the base of a flower that protect the flower bud. Image found at: http: //biology. clc. uc. edu Sheryl Searcy Ninth Grade Center 2013

Male Plant Organ Stamen contains: – Anther: produces pollen. – Filament: upholds anther. Sheryl

Male Plant Organ Stamen contains: – Anther: produces pollen. – Filament: upholds anther. Sheryl Searcy Ninth Grade Center 2013

Female Plant Organ Pistil (carpels) contains: – Stigma: sticky for pollen to attach. –

Female Plant Organ Pistil (carpels) contains: – Stigma: sticky for pollen to attach. – Style: sperm travel to ovary. – Ovary (fruit): stores ovules (eggs). Sheryl Searcy Ninth Grade Center 2013

Seed Dispersal Wind Water Animal Flower Pollination Animals Wind Factors that affect seed germination:

Seed Dispersal Wind Water Animal Flower Pollination Animals Wind Factors that affect seed germination: Temperature Moisture Sheryl Searcy Ninth Grade Center 2013

Plant Response Plant hormones – chemical substances that control a plant’s patterns of growth

Plant Response Plant hormones – chemical substances that control a plant’s patterns of growth & development. Target cell – cell that has a receptor for a particular hormone. Sheryl Searcy Ninth Grade Center 2013

Tropisms (Response) Tropism – response of a plant to an environmental stimulus. – Gravitotropism:

Tropisms (Response) Tropism – response of a plant to an environmental stimulus. – Gravitotropism: response of a plant to the force of gravity. – Phototropism: tendency of a plant to grow towards light. – Thigmotropism: response of plants to touch. Auxin – substance produced in the tip of the seedling that stimulates cell elongation. Sheryl Searcy Ninth Grade Center 2013

Photoperiodism: the timing of seasonal activities such as flowering and growth. Herbicides: auxinlike compounds

Photoperiodism: the timing of seasonal activities such as flowering and growth. Herbicides: auxinlike compounds in high concentrations that are toxic to plants therefore inhibiting growth. Chemical defenses: many plants defend themselves against insect attack by manufacturing compounds that have powerful effects on animals, ex. poison oak. Sheryl Searcy Ninth Grade Center 2013