Transcript Plants
Unit 6 Botany-study of plants Plants share a common ancestor with algae: Cell walls of cellulose Same type of chlorophyll used in photosynthesis Food stored as starch Scientist hypothesize that plants originally lived under water Over time, plants adapted to live on land: Cuticle Stomata Vascular Tissue Reproductive Strategies Cuticles Fatty or waxy coating covering the cell Helps prevents water from evaporating Acts as a barrier to invading microorganisms Stomata Enable the exchange of gases Opening in outer layer of leaves Openings are controlled by guard cells Vascular Tissue Specialized transport tissue Enables faster movement of substance over greater distances Provide structure and support Two types: Xylem and phloem ▪ Xylem-carries water ▪ Phloem-carries sugar or organic compounds (food) Reproductive Strategies Some plants use spores to reproduce Some plants use seeds Alternation of generations ▪ Gametophyte ▪ Sporophyte Gametophyte stage- gametes (sperm and egg) Sporophyte stage- results from the fertilization of egg by sperm Plant Classifications Nonvascular Plants No vascular tissue ▪ Transport water/nutrients via diffusion and osmosis Small, short Collectively called bryophytes Grow in moist climates Mosses, hornworts, and liverworts Vascular plants Contain xylem and phloem Xylem-carries minerals and water through the plant Phloem-carries sugars through the plant Vascular plants can be seedless or seed plants Seedless Vascular Plants Club mosses, horsetails, ferns Reproduce via spores Spores are found on the underside of leaves in clusters called sori (sorus) Seed Vascular Plants Highly diverse (5 divisions) Do not require water for fertilization Seeds have cotyledons (store/absorb food for young sporophyte) Sporophyte generation is dominant Coniferophyta: Wide range of shapes/sizes, climates Produce seeds in cones for reproduction Can be deciduous or evergreen Often referred to as conifers or gymnosperms Anthophyta: Flowering seed plants Most widely distributed (75% of plant kingdom) Often referred to as angiosperms, which can produce seeds in fruits or flowers Can further be divided into monocots or dicots (eudicots) Monocots Dicots have one seed leaf have two seed leaves Have scattered vascular bundles Have vascular bundles arranged in a ring along the outside edge Have parallel venation Have net venation Have flower parts arranged in 3’s Have flower parts arranged in 4’s or 5’s Checkpoint Review Cell walls, chloroplasts, and a large central vacuole set plant cells apart from animal cells Plant cells undergo photosynthesis mainly in the leaves where chloroplasts are numerous Meristematic tissue Dermal tissue Vascular tissue Ground tissue Meristematic tissue: Regions of rapidly dividing cells Figure 22.3 (pg. 635) Apical meristems- tips of roots and stems, make the plant grow longer (primary growth) Intercalary meristems- located throughout the stem, their growth increases plant length, e.g. mowing the grass (primary growth) Lateral meristems- increases root and stem diameter (secondary growth) Dermal cells: Epidermis Outer covering of the plant Can secrete lipids to form the cuticle Stomata- small openings in leaves and stems for gas exchange; guard cells control the opening/closing of stomata Root hairs- increase surface area, material uptake Vascular Tissue: Xylem- water-carrying vascular tissue, transports materials one way (away from roots) Phloem- food-carrying vascular tissue, transports materials both directions, Ground Tissue: Functions include photosynthesis,storage, support Basically any tissue that isn’t meristematic, dermal, or vascular Absorb materials, provide support, anchor the plant to the ground Root cap- protects the root’s apical meristem Types of roots Table 22.2 (pg. 641)- taproot, fibrous root, modified root (pneumatophores, adventitious roots) Support, transportation of materials Types of stems Table 22.3 (pg. 643)- tuber, rhizome, runner, bulb, corm Primary function: photosynthesis, transpiration Transpiration-process in which water evaporates from the inside of the leaves to the outside through stomata Petiole: attaches blade to stem Palisade mesophyll: column-shaped, contain many chloroplasts Spongy mesophyll: loosely packed cells, allows for movement of gases such as oxygen Modifications help plants survive in different environments (e.g., cactus spines) Tropic Responses- tropism, a plant’s growth response to an external stimulus Table 22.4 (pg. 651) Phototropism- response to light Gravitotropism- response to gravity Thigmotropism- response to touching an object, e.g., vines on a tree Sepals: protect the flower bud; look like small leaves surrounding the bud or petals Petals: colorful structures; attract pollinators (e.g., bees); surround the reproductive organs Stamen: male reproductive structure; composed of two parts Filament- stalk that supports the anther Anther- contains the pollen grains Pollen grain: contain plant’s sperm that will be used to fertilize the plant’s egg The stamen is the structure with black tips in the picture! Pistil: female reproductive structure; composed of three parts Stigma- tip of the pistil; where pollination occurs Style- connects stigma to ovary Ovary- contains ovules (where eggs form) The pistil is the big red thing in the picture! Self pollination vs Cross pollination Animal pollination: animals collect pollen on their bodies and move it from one flower to the next Wind pollination: the wind blows the pollen to the plant ovary for fertilization; these flowers normally aren’t very colorful (i.e., they don’t need to attract animals to pollinate) The factor that affects the opening/closing of flowers; based on the number of hours of uninterrupted darkness Short-day (Long night) Long-day (Short night) Germination: when the seed begins to grow Seedling-refers to a young plant Endosperm- a tissue that surrounds the embryo and provides nutrients to the developing plant