1 / 25

Kingdom Plantae

Kingdom Plantae. General Characteristics:. Eukaryotes Multicellular; organized into tissues, organs and systems Cell walls present (cellulose) Autotrophs ; contain chloroplasts Reproduce sexually. General Characteristics. What Plants need: Sunlight to carry out photosynthesis

rupert
Download Presentation

Kingdom Plantae

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Kingdom Plantae

  2. General Characteristics: • Eukaryotes • Multicellular; organized into tissues, organs and systems • Cell walls present (cellulose) • Autotrophs; contain chloroplasts • Reproduce sexually

  3. General Characteristics What Plants need: • Sunlight to carry out photosynthesis • Water and minerals • Gas exchange (oxygen for respiration; carbon dioxide for photosynthesis) • Movement of water and nutrients

  4. Origin: • Probably descendants of green algae (Protist) • Algae always live in water, which supports nutrient transport & absorption, stable environment, gamete transfer & development, and structural support.

  5. Origin: • Life on land requires many adaptations • protection from drying out • gas exchange with surrounding air • transport for water & nutrients through multicellular body • support to grow upright on land

  6. Adaptations & Specialized Structures: • Cuticle – a waxy layer from the outer epidermis of the plant surface that prevents water loss to the external environment (osmosis)  • Stomata – small openings on the leaf surface to allow gas exchange • Guard Cells – surround the stomata to control the opening and closing of the pore

  7. Adaptations & Specialized Structures: • Vascular Tissues – tubes that allow transport of water and nutrients to different parts of the plant; form vascular bundles throughout the plant * Xylem – transport water and minerals up from the roots throughout the plant * Phloem – transport food (sugars) from the leaves and stems, where it is made, to other parts for use or storage

  8. Adaptations & Specialized Structures: * Cambium – produces new xylem & phloem

  9. Adaptations & Specialized Structures: • Cell Walls – rigid structure provide structural support for growth on land. • Roots – specialized tissues (usually underground) that absorb water & minerals, anchor the plant for upward growth, and store food as starch • * Root hairs – extensions that increase absorption

  10. Adaptations & Specialized Structures: • Stems – tissues that support the above-ground parts of the plant and allow movement of materials between leaves and roots. Also store food.

  11. Adaptations & Specialized Structures: • Flower – assist in pollination process by attracting birds and insects with color or scent. Contain the male and female reproductive organs. • * Sepal – protects the young bud • * Petal – attracts pollinators, serve as a landing pad • * Stamen – male reproductive organ - Anther – produces male gametes (pollen) - Filament – supports the anther

  12. Adaptations & Specialized Structures: • Pistil – female reproductive organ • Ovary – swollen base of the pistil where ovules (eggs) are produced • Style – neck of the pistil, allows for sperm transfer to ovary • Stigma – sticky or rough surface at the tip of the style • Seed – a plant embryo with a food supply enclosed in a tough, protective coat; allows for success through harsh conditions

  13. Life Cycle of Plants Alternation of generations: • haploid gametophyte (gamete producing plant) • diploid sporophyte (spore producing plant) Plants can reproduce asexually with leaves, stems and roots. • regeneration • vegetative propagation (stolons, rhizomes, tubers and bulbs)

  14. Classification within the Kingdom: Nonvascular Plants – lack the specialized tissues to transport water * individuals are very small; only a few cells thick to allow diffusion of nutrients and water * grow in clumps or “carpets” in very moist environments *depend on water for reproduction * examples – moss, hornworts and liverworts (Phyla: bryophytes)

  15. Classification within the Kingdom: Vascular Plants – have tube-like tissues to transport water and nutrients * requires development of different tissues (roots, stem, leaves) for success on land * allows for upright growth & development into complex organisms * simple examples – club moss, horsetails & ferns - require growth in moist environments for sperm dispersal, produce spores

  16. Classification within the Kingdom: Gymnosperms – non-flowering vascular plants * leaves are in the form of needles or scales * seeds are not enclosed in fruit * many produce cones to protect seeds (conifers) * do not produce flowers * sperm is protected in a hard coat called pollen and are dispersed by wind * very hard cell walls allow for tall growth (woody tissue)

  17. * examples – cycads, pine, fir, spruce, redwood

  18. Classification within the Kingdom: Angiosperms – flowering vascular plants * seeds are enclosed in fruit, a ripened ovary * leaves are flat * have woody and non-woody stems * divided into 2 groups based on the number of cotyledons (leaf-like parts of the plant embryo in the seed)

  19. Angiosperms

  20. Classification within the Kingdom: Monocots – one cotyledon on seed * flower parts in multiples of 3 * vascular bundles scattered throughout the stem * parallel veins in narrow leaves * fibrous roots * examples – grasses, corn, rice, oats, wheat, tulips Dicots – two cotyledons on seed * flower parts in multiples of 4 or 5 * vascular bundles form a ring in the stem * branching, netlike veins in broad leaves * tap roots * examples – oak & maple trees, garden flowers, beans, fruit trees, broccoli, carrots

  21. Monocots vs. Dicots

  22. Tropisms • Occur when plants respond to external stimuli • Cause a change in plant growth • Can be negative (away from stimuli) or positive (toward stimuli)

  23. Plant Hormones • Auxin - Stimulates cell elongation; involved in phototropism, gravitropism, stimulates fruit development. Too much can prevent growth. • Abscisic Acid – slows or stops growth and cell division in plants. • Gibberellin - Stimulates shoot elongation, stimulates flowering in biennials. • Ethylene - Stimulates fruit ripening

  24. Assignment: • Sketch the general life cycle of plants (p 664) • Sketch and label the structure of a flower. • How do plants obtain energy? • What are the plant tropisms? Give examples. • Draw the cladogram on page 613 • What would be the derived characters in this cladogram? • From which organisms did plants evolve? Which kingdom does that ancestor belong to?

  25. Define the following terms • Thigmotropism • Gravitropism • Photoperiodism • Germination • Regeneration • Vegetative reproduction • Tropism • Cotyledon • Monocot • Phototropism • Plant • Cuticle • Stomata • Vascular system • Pollen grain • Seed • Pollination • Gymnosperm • Angiosperm • Cone • Flower • Fruit • Dicot • Xylem • Phloem • Root hair • Fibrous root • Tap root • Guard cell • Alternation of generations • Sporophyte • Gametophyte • Ovary

More Related