Plant Anatomy Chapter 35

Plant Anatomy Chapter 35

Basic plant anatomy 1 • root • root tip • root hairs

1 Roots • Roots anchor plant in soil, absorb minerals & water, & store food • fibrous roots (1) • mat of thin roots that spread out • monocots • tap roots (2) • 1 large vertical root • also produces many small lateral, or branch roots • dicots • root hairs (3) • increase absorptive surface area 2 3

Basic plant anatomy 2 • root • fungi at tips of the roots Mycorrhizae • -Symbiotic relationship • shoot (stem) • buds • terminal or apical buds-located at the top • axillary buds-located at the V formed b/t leaf and stem

Modified shoots stolons (strawberries) rhizome (ginger) tuber (potato) bulb (onion)

Leaves • Function of leaves • photosynthesis • energy production • CHO production • gas exchange • transpiration simple vs. compound

Putting it all together • Obtaining raw materials • sunlight • leaves = solar collectors • CO2 • stomates = gas exchange • H2O • uptake from roots • nutrients • uptake from roots

Plant TISSUES • Dermal • epidermis (“skin” of plant) • single layer of tightly packed cells that covers & protects plant • Ground • bulk of plant tissue • photosynthetic mesophyll, storage • Vascular • transport system in shoots & roots • xylem & phloem

Plant CELL types in plant tissues • Parenchyma • “typical” plant cells = least specialized • photosynthetic cells, storage cells • tissue of leaves, stem, fruit, storage roots • Collenchyma • unevenly thickened primary walls • support • Sclerenchyma • very thick, “woody” secondary walls • support • rigid cells that can’t elongate • dead at functional maturity If I’d onlyhad triplets!

Xylem and Phloem Xylem- water conducting cells. xylem vessels- found mostly in angiosperms have pits for water movement. xylem tracheids- long thin cells strengthen with lignin

Vascular tissue vessel elements • Xylem • move water & minerals up from roots • dead cells at functional maturity • only cell walls remain • need empty pipes to efficiently move H2O • transpirational pull vessel element dead cells Aaaah… Structure–Functionagain! tracheids

Phloem: food-conducting cells • carry sugars & nutrients throughout plant sieve tube companion cell sieve plate plasmodesmata living cells

Phloem: food-conducting cells • sieve tube elements & companion cells

Aaaah… Structure–Functionagain! Phloem • Living cells at functional maturity • cell membrane, cytoplasm • control of diffusion • lose their nucleus, ribosomes & vacuole • more room for specialized transport of liquid food (sucrose) • Cells • sieve tubes • sieve plates — end walls — have pores to facilitate flow of fluid between cells • companion cells • nucleated cells connected to the sieve-tube • help sieve tubes

Plant Growth Chapter 35

Life Cycle of Plants • Annuals- in one year Ex:Wildflowers, crops • Biennials- completed in 2 years Ex: radishes and carrots • Perennials- continues for many years Ex. Trees

Growth in Plants • Specific regions of growth: meristems • stem cells: perpetually embryonic tissue • regenerate new cells • apicalshoot meristem • growth in length • primary growth • apical root meristem • growth in length • primary growth • lateral meristem • growth in girth • secondary growth

Apical meristems shoot root

Root structure & growth protecting the meristem

Shoot growth protecting the meristem Young leaf primordium Apical meristem Older leaf primordium Lateral bud primordium Vascular tissue

Primary xylem Growth in woody plants Primary phloem • Woody plants grow in height from tip • primary growth • apical meristem • Woody plants grow in diameter from sides • secondary growth • lateral meristems • vascular cambium • makes 2° phloem & 2° xylem • cork cambium • makes bark Epidermis Lateral meristems Secondary xylem Primary phloem Primary xylem Secondary phloem Annual growth layers Bark

corkcambium vascularcambium Why are early & late growth different? Vascular cambium • Phloem produced to the outside • Xylem produced to the inside bark phloem xylem late early last year’s xylem

Woody stem cork cambium How old is this tree? vascular cambium late early 3 2 1 xylem phloem bark

Growth Vascular cambium Vascular cambium X X C P P Secondary phloem Secondary xylem X C P X C X P C C C C X C C C After one year of growth After two years of growth C C C Secondary Growth produced by the vascular cambium

Plant hormones Ch:39 • auxin • gibberellins • abscisic acid • ethylene • and more…

Auxin (IAA) • Effects • controls cell division & differentiation • phototropism • growth towards light • asymmetrical distribution of auxin • cells on darker side elongate faster than cells on brighter side • apical dominance

Gibberellins • Family of hormones • over 100 different gibberellins identified • Effects • stem elongation • fruit growth • seed germination plump grapes in grocery stores have been treated with gibberellin hormones while on the vine

Abscisic acid (ABA) • Effects • slows growth • seed dormancy • high concentrations of abscisic acid • germination only after ABA is inactivated or leeched out • survival value: seed will germinate only under optimal conditions • light, temperature, moisture

Ethylene • Hormone gas released by plant cells • Effects • fruit ripening • leaf drop • like in Autumn • apoptosis One bad apple spoils the whole bunch…

Fruit ripening • Adaptation • hard, tart fruit protects developing seed from herbivores • ripe, sweet, soft fruit attracts animals to disperse seed • Mechanism • triggers ripening process • breakdown of cell wall • softening • conversion of starch to sugar • sweetening • positive feedback system • ethylene triggers ripening • ripening stimulates more ethylene production

Apoptosis in plants What is the evolutionary advantage of loss of leaves in autumn? • Many events in plants involve apoptosis • response to hormones • ethylene • auxin • death of annual plant after flowering • senescence • differentiation of xylem vessels • loss of cytoplasm • shedding of autumn leaves

Don’t take this lying down… Ask Questions!!

Plant Anatomy Chapter 35