a. plants have 3 organs: 1. roots- anchor absorb water and nutrients 2. leaves- photosynthesis 3....

A. Plants have 3 organs: 1. Roots-

AnchorAbsorb water and nutrients

2. Leaves-Photosynthesis

3. Stems-Support and transport

B. Plant Organs are made of 3 Plant Tissues: Dermal Tissue- Epidermal cells

Outer covering or “skin” of the plant

Vascular Tissue- Xylem & PhloemTransport of water, nutrients,

and sugars

Ground Tissue- CortexFills up the space between the

vascular and dermal tissues

Plant Organs are made of 3 Plant Tissues:

Dermal TissueEx. Cuticle, Trichomes, & Root hairs

Plant Organs are made of 3 Plant Tissues:

Vascular Tissue (two types) a. Xylem- transports water up

b. Phloem- transports sugar to parts that do not photosynthesize

Xylem

Phloem

Plant Organs are made of 3 Plant Tissues:

Ground Tissue-Fills up the space between the vascular and dermal tissues

a. Parenchyma- thin cell walls, in leaves for photosynethesis

b. Collenchyma- thick cell walls, strong and flexible for support, ex. Strings of celery

c. Sclerenchyma- extremely thick cell walls, vey strong for support, ex. Grit in pears

a. b. c.

C. Plants grow at Meristems

Meristems- clusters of undifferentiated cells

Plants are made of merismatic tissueThis tissue undergoes differentiation-

become different cellsFound at the tips of roots and buds, are

apical meristemsThis allows the plant to continue

growing in length above and below ground, primary growth

Primary Growth vs. Secondary Growth

ROOTS There are 2 types of roots: 1. Taproot (dicots)- one long, thick primary

root ex. Carrot

2. Fibrous root (monocots)- many small thin roots bundled together ex. Grasses

B. Root Structure & Growth

1. Root Cap- very tip of the root, protects root as it grows

2. Root Hairs- tiny projections from the epidermis 3. Cortex- layer of ground tissue 4. Vascular cambium- center of root with vascular

tissues

C. Root Function Anchor the plant to the ground Absorb water and nutrients from the soil

Casparian strip- surrounds each endodermis cell and doesn’t allow backflow of water creating root pressure and moving water by osmosis through the xylem tissue

Without this pressure plants would wilt

LEAF: General Structure Blade- thin flattened section used to catch light,

main part of the leaf A. Simple- one blade per petiole

B. Compound- many leaflets per petiole

Petiole- piece of leaf that connects to the stem

B. Leaf Function 1. Photosynthesis- occurs in mesophyll cells 2. Gas Exchange- movement of CO2 & O2 in and

out 3. Transpiration- loss of water through a plants

leaves 90% of water that enters a plant is lost due to

transpiration

Leaf Function: Photosynthesis Photosynthesis- occurs in mesophyll cells

a. Palisade mesophyll- tall, columnar cells, tightly packed

b. Spongy mesophyll- loose cells with many air spaces

c. Vein- vascular tissues to move water & sugars through

Leaf Function: Gas Exchange Gas Exchange- movement of CO2 & O2 in and out

a. Guard cells- cells that control opening and closing of stomata

b. Stomata- pores that allow gases into spaces, spongy mesophyll

Leaf Function: Transpiration

Transpiration- loss of water through a plants leaves (90%)

Process is possible because of waters 2 properties:1. Cohesion- molecules of the

same kind tend to stick together

2. Adhesion- attraction between unlike molecules

Cohesion & Adhesion

STEMS: Structure 1. Node- where leaves attach 2. Internode- regions between nodes 3. Bud- location near nodes, produces new stems

& leavesLateral bud- give rise to branchesTerminal bud- apical meristem

Stem Function 1.Produce- leaves and branches 2.Hold- leaves up into the sunlight 3.Transport- substances between roots and

leavesa. Water pulled through xylem up from roots

○ Root pressure- no back flow○ Capillary action- adhesion of water to tubes○ Transpiration- loss of water through leaves

b. Sugars pushed through phloem○ Pressure-flow hypothesis- water moves food

from high concentration to low

Lenticels

Stem Growth 1. Primary growth- length of stems

a. end of roots and shoots at apical meristems

2. Secondary growth- width/thickness of stemsa. Vascular cambium- merismatic tissue in between

xylem and phloem that produces new vascular tissueb. Cork Cambium- produces outer covering of stems

(cork)c. Wood- layers of xylem

○ 1. Heartwood- old, no longer conducts water○ 2. Sapwood- younger, still conducts water

d. Bark- phloem, cork cambium, and cork; breaks off as stem gets thicker