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Plants

Plants. Structure and Reproduction. Characteristics of Plants. Autotrophic Multicellular Eukaryotic Cell wall made of cellulose Organelles including chloroplasts Large, central vacuole. Plant Tissues.

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Plants

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  1. Plants Structure and Reproduction

  2. Characteristics of Plants • Autotrophic • Multicellular • Eukaryotic • Cell wall made of cellulose • Organelles including chloroplasts • Large, central vacuole

  3. Plant Tissues • Dermal: outermost layer on leaves and stems; covered with a waxy layer called the cuticle • Vascular: used for transport • Ground: photosynthetic cells, support cells, and all other cells that are not dermal or vascular

  4. Plant Structures • Roots: • Usually the part of the plant that grows below the surface of the soil • Absorb water and minerals • Anchor the plant • Can store food • 2 types—taproot and fibrous root • Stems: • Support leaves and flowers • Transport water and nutrients within the plant

  5. Can function to store food (ex: potato is an underground stem) Node: place where leaves attach to stems Leaves: Organs where photosynthesis occurs Has an outer dermal tissue with stomata The stoma is surrounded by guard cells that allow carbon dioxide to enter and oxygen & water to leave

  6. Has an inner ground tissue, made of parenchymal cells, that has vascular tissue (the vein) within it Common features of leaves include: Blade: flat, broad section of the leaf Petiole: short stalk that connects the blade to the stem Veins: carry water, minerals and sugar Can be simple or compound

  7. Compound leaves can be pinnate or palmate Flowers: Modified stems with specialized leaves and other structures for reproduction Has 3 types of parts: Male Reproductive Parts Called the stamen Made up of the anther (produces pollen) and the filament (supports the anther)

  8. Female Reproductive Parts Called the pistil Made up of the stigma (the pollen lands here), the style (connects the stigma and the ovary) and the ovary (makes ovules) Sterile Parts Petals: brightly colored parts of the flower Sepals: green, leaf-like structures that support the flower

  9. Asexual Reproduction • It produces clones, genetically identical offspring • In a stable environment with abundant resources, asexual reproduction is faster than sexual reproduction and produces offspring that are well adapted to the existing environment

  10. Sexual Reproduction • Results in seed formation • The seed is a plant embryo with its stored food • Advantages of seeds: • Can be spread out over great distances • Seeds can stay dormant for long periods of time • For flowering plants, sexual reproduction begins with the process of pollination

  11. Pollination • Process of transporting pollen (male gamete) from the male flower parts to the female parts • Pollen is transported by wind, water, insects, or other organisms

  12. Fertilization • Pollen lands on the stigma • Pollen tube grows down through the style to the ovary • Sperm nuclei are carried along the pollen tube • Pollen tube enters the ovule • Sperm nucleus fuses with the egg and forms a zygote • A 2nd sperm nucleus fertilizes 2 polar nuclei to form a food-storing tissue called endosperm

  13. Fertilization (cont.) • Zygote develops into an embryo • Ovule becomes a seed • The rest of the ovary becomes a fruit, which will house and protect the seeds and help disperse the seeds to new locations

  14. Plant Classification • Plants are divided into groups based on three key features: • The presence of vascular tissue • The presence of seeds • The presence of flowers • The groups are: • Nonvascular plants--mosses • Vascular seedless plants--ferns • Vascular seed plants • Gymnosperms (seeds in cones)--pines • Angiosperms (seeds in flowers)

  15. Angiosperm Classification • Angiosperms can be classified in several ways • One classification system, based on the physical characteristics of the plant, is to divide them into the monocots and the dicots • Another classification system is based on life span

  16. Monocot • Monocot: • Have a single cotyledon (leaves in the embryo) • Veins are parallel • Vascular bundles are scattered throughout the stem • Have fibrous roots • Floral parts in multiples of 3

  17. Dicot • Dicot: • Have two cotyledons • Veins are branched • Vascular bundles are arranged in a ring in the stem • Have taproots • Floral parts in multiples of 4 or 5

  18. Life Span • Annual: plants grow, mature, flower, produce seeds and die in one growing season • Biennial: complete their life cycles in two years • Perennial: live for more than two years Sapphire flower Petunia Verbena Foxglove Lupin Sunstar

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