Plants Unit 7 Chapters 22-25 Biology. Origin of Plants Evolved from organisms similar to green...
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Transcript of Plants Unit 7 Chapters 22-25 Biology. Origin of Plants Evolved from organisms similar to green...
![Page 1: Plants Unit 7 Chapters 22-25 Biology. Origin of Plants Evolved from organisms similar to green algae First evidence in the fossil record was around.](https://reader030.fdocuments.in/reader030/viewer/2022033022/56649cad5503460f9496ef3d/html5/thumbnails/1.jpg)
Plants
Unit 7 Chapters 22-25
Biology
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Origin of Plants Evolved from organisms similar to
green algae First evidence in the fossil record was
around 500 million years ago Did not have any leaves Psilophytes – earliest known plant
fossil
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Plant Characteristics A multicellular eukaryote Produce its own food (glucose) by way
of photosynthesis– Use chlorophyll (green pigment)
Thick cell walls made of cellulose Cuticle – waxy waterproof coating on
the stems and leaves
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Needed for survival Sunlight
– Used in photosynthesis to produce food Water and Minerals Gas exchange
– Require oxygen for cellular respiration and carbon dioxide for photosynthesis
Movement of water and nutrients– Use specialized tissues (vascular tissue)
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Plant Life Cycle Alternation of generation
– Two alternating phases, a diploid phase and a haploid phase
– Sporophyte Diploid phase that reproduces by asexual
spores
– Gametophyte Haploid phase that reproduces sexually by
producing gametes that fuse together by fertilization
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Classification of Plants 4 groups that are based on:
– Water-conducting tissues– Seeds– Flowers
Bryophyte (Nonvascular) Ferns and allies (Seedless vascular ) Gymnosperm (Seed vascular) Angiosperm (Seed vascular flowering plant)
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Bryophytes Nonvascular Plants Life cycle depends on water for
reproduction Draws up water by osmosis Include: mosses, liverworts, and
hornworts
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Bryophyte Types Mosses
– Most common bryophyte– Rhizoids – long, thin cells that anchor
them in the ground and absorb water and minerals from the soil
Liverworts– Gemmae – small multicellular
reproductive structures used in asexual reproduction
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Bryophyte Life Cycle Gametophytes
– Dominant recognizable stage– Carries out most of the plant’s
photosynthesis– Antheridia – produce the sperm (male)– Archegonia – produce the egg (female)
Sporophyte– Depends on the gametophyte for water
and nutrients
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Vascular Plants Contain specialized tissue that conducts water and
nutrients throughout the plant (vascular tissue) Tracheids – tubular cells that are specialized to
conduct water; dead at maturity Xylem – transport subsystem that carries water
upward from the roots Phloem – transports solutions of nutrients and
carbohydrates produced in photosynthesis– Sieve tube element – main phloem cells that are
surrounded by companion cells
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Vascular Plants Roots – underground organs that
absorb water and minerals Stems – supporting structures that
connect roots and leaves; carry water and nutrients between them
Leaves – photosynthetic organs that contain one or more bundles of vascular tissue (veins)
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Ferns and Allies: Seedless Vascular Plants
Include club mosses, horsetails, and ferns Ferns
– Rhizomes – creeping or underground stems– Fronds – large leaves of ferns.
Life cycle of ferns– Diploid sporophyte is the dominant stage– Sporangia – tiny containers of haploid spores– Sori – group or cluster of sporangia
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Seed Plants Divided into 2 groups
– Gymnosperms Bear their seeds directly on the surfaces of
cones Include: conifers, cycads and ginkgoes
– Angiosperms (Flowering plants) Bear their seeds within a layer of tissue that
protects the seed Include: grasses, flowering trees and shrubs,
and all wildflowers and cultivated flowers
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Adaptations of Seed Plants
Reproduce free from water by the use of:– Flowers and cones
Cones are the seed bearing structure of gymnosperms
Flowers are the seed bearing structures of angiosperms
– Transfer of sperm by pollination Pollen grain – tiny structure that contains the entire
male gametophyte Pollination – transfer of pollen to the female
structure; can be transferred by wind, insects or small animals
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Adaptations of Seed Plants
– Protection of embryos in seeds Seed – an embryo of a plant that is encased
in a protective covering (seed coat) and food supply (cotyledons); may have structures that aid in its dispersal
Embryo – an organism in its early stage of development
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Angiosperms – Flowering Plants
Flowers– Reproductive organ; contains ovaries that
surround and protect the seed Fruit
– Wall of tissue surrounding the seed– Used to attract animals to disperse their
seeds
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Parts of a Flower Sepals and Petals
– Outermost floral parts that protect the developing bud– Petals – brightly colored to attract vectors
Stamens – Male reproductive part– Consists of a thin stalk (filament) and an oval sac that
consist of pollen grains at the top (anther) Pistil (carpels)
– Female reproductive part– Consist of a broad base (ovary) that contain one or more
ovules, the stalk that comes from the ovary (style), and a sticky portion at the top (stigma) where pollen grains land
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Diversity of Angiosperms 2 types: named for the number of
cotyledons in the plants embryo– Monocots (monocotyledon)
Corn, wheat, lilies, orchids, and palms
– Dicots (dicotyledon) Roses, clover, tomatoes, oaks, and daisies
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Comparison of Monocots and Dicots
Monocots– Single cotyledon– Parallel veins– Flower parts are
multiples of 3– Vascular bundles
are scattered– Fibrous roots
Dicots– Two cotyledon– Branched veins– Flower parts are
multiples of 4 or 5– Vascular bundles
are arranged in rings
– Taproot
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Diversity of Angiosperms Life spans are divided into 3 categories:
– Annuals Flowering plant that complete a life cycle within one
growing season Marigolds, petunias, and pansies
– Biennials Complete their life cycle in two years Primrose, parsley, and celery
– Perennials Flowering plants that live for more than two years Asparagus, many grasses, palm trees, maple trees,
and honeysuckle
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Seed Plant Structure 3 principal organs:
– Roots absorb water and dissolved nutrients anchor plants in the ground Protect the plants against bacteria and fungi Hold plant upright against wind and rain
– Stems Transports nutrients between the leaves and the roots
– Leaves Photosynthetic systems of the plant
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Seed Plant Structure 3 plant tissue systems:
– Dermal tissue Outer covering of a plant Consist of a single layer of epidermal cells
– Vascular tissue transport system composed of xylem and phloem
– Ground tissue Cells that lie between the dermal and vascular tissues Functions in storage, adds flexibility and strengthens
the plant
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Plant Growth Most plants have an open or indeterminate
type of growth– i.e. they grow as long as they live
Meristems – clusters of tissue that are responsible for growth throughout the plants life
Meristematic tissue – undifferentiated cell that are produced by the meristems
Apical meristem – increase the length of stems and roots
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Roots Function: anchor the plant and absorb water
and dissolved nutrients from the soil 2 main types of roots:
– Taproot Found mainly in dicots Primary root is long and thick Secondary roots remain small Example: oak and hickory trees
– Fibrous root No single root grows larger than the rest Help prevent erosion Example: grasses
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Roots Root structure and growth
– Root hairs – tiny cellular projections that increase the surface area through which water can be absorbed
– Cortex – spongy layer of ground tissue underneath the epidermis
– Root cap – protects the root as it forces its way through the soil
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Stems 3 important functions:
– Produce leaves, branches, and flowers– Hold leaves up to the sunlight– Transport substances between roots and leaves
Nodes – point of leaf attachment Internodes – regions between nodes Buds – contain undeveloped tissue that can
produce new stems and leaves
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Stems Monocot and Dicot Stems
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Stems Growth of stems:
– Primary growth – growth in which the plant increase in height; occurs at the apical meristems; takes place in all seed plants
– Secondary growth – growth in which the stem increases in width; occurs in the lateral meristem
Vascular cambium – produces vascular tissue Cork cambium – produces the outer covering of stems
(bark)
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Leaves Structure is optimal for absorbing light
and carrying out photosynthesis Blade – thin, flattened sections of the
leaf that is attached to the stem by a thin stalk (petiole)
Functions: – Photosynthesis, transpiration, and gas
exchange
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Leaves Transpiration – the loss of water
through the leaves Gas exchange occurs in the
– Stomata – porelike opening in the underside of the leaf
– Each stoma consist of two guard cells that control the opening and closing of the stomata
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Transport in Plants Capillary action
– The tendency of water to rise in a thin tube
– Adhesion – is the attraction between unlike molecules; property that causes capillary action
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Plant Hormones Auxins – stimulate cell elongation Cytokinins – stimulate cell division
(growth) Gibberellins – produce dramatic
increases in size in the stems and fruit Ethylene – stimulates fruits to ripen
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Plant Responses Tropisms – plant responses to external
stimuli– Gravitropism – plant responses to the
forces of gravity– Phototropism – tendency of a plant to
grow toward light– Thigmotropism – response of plants to
touch
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Plant Adapted for Specific Habitats
Xerophytes – plants that live in the desert biome
Epiphytes – plants that are not rooted in soil but grow directly on other plants