Plant Form and Function

Question 1

What is a tissue?

Answer 1

A group of cells consisting of one or more cell types that together perform a specialized function.

Question 2

What is an organ?

Answer 2

Consists of several types of tissues that together carry out particular function

Question 3

What are apical meristems?

Answer 3

Populations of pluripotent stem cells that divide to produce new tissues and act as localization regions of cell growth.

Question 4

What are lateral meristems?

Answer 4

Stem cells that add thickness to woody plants during secondary growth.

Question 5

What are the types of meristems?

Answer 5

Shoot apical meristem (SAM): primary growth and axial growth, make up primary tissues

Root apical meristem (RAM): Primary growth and axial growth, make up primary tissues

Vascular cambium (VC): grows before CC; bifacial meristem that makes up secondary xylem (wood) and secondary phloem

Cork cambium (CC): grows after VC; replaces epidermis with periderm (cork, cork cambium, and phelloderm)

Question 6

What are the three tissue systems in a plant?

Answer 6

Dermal tissues, vascular tissues and ground tissues.

Question 7

What does the dermal tissue system consist of?

Answer 7

1. Epidermis
2. Cuticle
3. Periderm (woody plants)
4. Trichomes

Question 8

What is the cuticle of a plant?

Answer 8

Waxy coating that covers the leaves of land plants and stems of non-woody plants to prevent water loss from the epidermis and act as a reflective surface to cool down.

Question 9

What are trichomes?

Answer 9

Biotic outgrowths of shoot epidermis that reduce water loss, defend against insects, increase relative humidity by trapping water.

Question 10

What does the vascular tissue system consist of?

Answer 10

Xylem: conducts water (+dissolved minerals) from roots to shoots

Phloem: transports nutrients from where they are made (typically leaves) out to the rest of the plant

Question 11

What is a stele? What is the difference between the steele of roots, stem, and leaves?

Answer 11

The collective term for vascular tissue.

Roots: xylem in middle, phloem outside

Stem: xylem in middle, phloem on outside, sclerenchyma outisde phloem

Leaves: Xylem upwards, phloem downwards

Question 12

What is the ground tissue?

Answer 12

Tissues that are neither dermal not vascular, made of specialized cells for storage, photosynthesis, support and transport

Question 13

What is the pith and the cortex?

Answer 13

Pith: ground tissue internal to vascular tissue

Cortex: ground tissue external to vascular tissue

Question 14

What are the type of differentiated cells of the ground tissue?

Answer 14

1. Parenchyma cells
2. collenchyma cells
3. sclerenchyma cells

Question 15

What do parenchyma cells do? How are they structured?

Answer 15

Least specialized cell in ground tissue that performs metabolic functions, store cellulose, sugar and proteins, and divides and differentiates. They have thin and flexible primary walls strengthened by lignin, but lack secondary walls.

Question 16

What do collenchyma cells do? How are they structured?

Answer 16

Provide flexible support without restraining growth to support young parts of the plant shoot. They are grouped in strands and have thicker, uneven cell walls.

Question 17

What is the structure of sclerenchyma cells?

Answer 17

Have thick secondary walls strengthened with lignin and are dead at maturity. Either sclereid (short and irregular) or fibers (long and slender, arranged in threads)

Question 18

What does an angiosperm embryo develop into?

Answer 18

1. Primary dermal, ground and vascular tissue
2. SAM and RAM
3. Cotyledons

Question 19

What is the difference in the structure of eudicot seeds and monocot seeds?

Answer 19

Eudicot: embryo consists of two thick cotyledons

Monocots: embryo has one cotyledon

Question 20

What is the purpose of seed dormancy?

Answer 20

Increases the chances that germination will occur at a time and place most advantageous to the seedling.

Question 21

What triggers breaking of seed dormancy?

Answer 21

environmental cues such as temperature or lighting changes.

Question 22

What does germination depend on?

Answer 22

Imbibition: uptake of water due to low water potential

Question 23

What is the radicle?

Answer 23

Embryonic root that emerges first to anchor the shoot that follows.

Question 24

What is the function of a root?

Answer 24

1. Anchoring the plant
2. Absorbing minerals and water
3. Storing carbohydrates in the form of starch

Question 25

What is the difference between the primary root and lateral root?

Answer 25

Primary: anchor the system into the soil by growing downwards

Lateral/secondary: explore the soil through environmentally responsive radial growth and determine the overall root system size

Question 26

What occurs at the root apical meristem?

Answer 26

Primary root growth: RAM produces root cap to protect the root tip as it grows through the soil and produces no lateral appendages.

Question 27

What are the three zones of cells following the root cap?

Answer 27

1. Zone of cell division
2. Zone of elongation
3. Zone of differentiation/maturation

Question 28

What is the purpose of root hairs?

Answer 28

to give more surface area for absorption of water and nutrients

Question 29

What is the root cap?

Answer 29

Secretes polysaccharide slime and continually sloughs off as the root pushes through the soil. It produces signals to attract beneficial microbes and senses gravity to grow down into the soil.

Question 30

What does the cross section of a eudicot root look like?

Answer 30

Xylem forms a cross in the centre, with phloem between the arms. The cortex is filled with parenchyma cells that store starch which form the endodermis in the centre.

Question 31

Where is the endodermis and what does it do?

Answer 31

Innermost layer of cells in the root cortex that surrounds the vascular cylinder and regulates passage of substances from soil into the vascular cylinder.

Question 32

What does the cross section of a monocot look like?

Answer 32

Core parenchyma cells are surrounded by a ring of xylem (inward) and ring of phloem (outward)

Question 33

What is the pericycle?

Answer 33

The outermost cell layer in the vascular cylinder where lateral roots arise.

Question 34

What is the difference between the tap root system and the fibrous root system?

Answer 34

Tap: tall plants with large shoot masses (found in eudicots and gymnosperms)

Fibrous: adventitious roots (lateral roots) that come from the stem (found in monocots)

Question 35

What are root adaptations?

Answer 35

Prop roots (hold up plant)

storage roots (store sugar)

Green roots (photosynthesize)

Pneumataophores (allow roots to obtain air)

strangling aerial roots (support)

Question 36

What are the functions of the shoot (stem and leaves)?

Answer 36

1. Photosynthesis
2. Transpiration (loss of water through open stomata)
3. Transport (xylem and phloem)
4. Reproduction (flowers, cones, leaves)

Question 37

What are the parts of the stem organ?

Answer 37

1. Nodes: where leaves attach
2. Internodes: between leaves
3. Axilliary Bud: Buds that have the potential to form a lateral shoot
4. Apical bud: elongation of the main shoot (dominant)

Question 38

What does the cross section of a eudicot stem look like?

Answer 38

Vascular tissue consists of vascular bundles arranged in a ring. The bundle has an outer sclerenchyma, middle phloem, and an inner xylem.

Question 39

What does the cross section of a monocot stem look like?

Answer 39

Vascular bundles are scattered throughout the ground tissue rather than forming a ring

Question 40

What are the type of differentiated plant cells of the xylem?

Answer 40

Tracheids: small pore, elongated cells that make up the xylem of all vascular plants

Vessel elements: large pore, elongated cells that are common to most angiosperms and a few gymnosperms that align from end to end to form micropipes.

Question 41

What are the type of differentiated plant cells of the phloem?

Answer 41

Sieve-tube elements: alive at maturity but lack organelles. Has porous sieve plate that allow fluid to flow between cells along the tube.

Companion cell: nucleus and ribosomes serve both itself and the sieve-tube elements.

Question 42

What does the shoot apical meristem do?

Answer 42

Initiates new stem tissue and new leaves with primary growth concentrated at the shoot tip. Primary growth is continuous and increases stem length through the stimulation of auxin and gibberellic acid (plant hormones)

Question 43

What are leaves? What are their function? What are their structure?

Answer 43

Main photosynthetic structures of the plant initiated by the activity of the SAM. They intercept light, exchange gases, dissipate heat, defend plants from herbivores and pathogens. They consist of a flattened blade and a petiole, which joins the leaf to a node of the stem.

Question 44

What are the types of leaves?

Answer 44

Simple leaf: blade not divided into leaflet

Compound leaf: blade is divided into leaflets (pinnate or palmate)

Question 45

What is the difference between the pinnate leaf and the palmate leaf?

Answer 45

Both are compound leaves, but pinnate is attached along a petiole and palmate is connected at a central location

Question 46

What are examples of modified leaves?

Answer 46

Spines, tendrils, reproductive leaves, storage leaves

Question 47

What are stomata?

Answer 47

Pores found in the epidermis of the leaf that allow for gas exchange, changes in potassium ions and plant hormones, and act as avenues for evaporative water loss.

Question 48

What are guard cells?

Answer 48

Cells that occur in pairs and flank the stoma and regulate open and closing. Open during the day and closed at night.

Question 49

What is mesophyll?

Answer 49

ground tissue in a leaf that is sandwiched between the upper and lower epidermis.

Question 50

What are the parts of the mesophyll of eudicots?

Answer 50

palisade mesophyll: upper part of leaf

spongy mesophyll: lower part of leaf (loose for air spaces and gas exchange)

Question 51

What is the purpose of a bundle sheath?

Answer 51

Encloses and protects each vein (vascular bundle)

Question 52

What is the difference between a monocot leaf and a eudicot leaf?

Answer 52

monocot: veins are straight
dicot: veins are branched

Question 53

What are the advantages and disadvantages of a plant growing tall?

Answer 53

Advantges: Tall plants can get out of the shade of their neighbours and get more light for photosynthesis

Disadvantages:
1) weight of shoot increases
2) more support needed
3) more leaves = greater transport capacity
4) problems cannot be solved with apical growth

Question 54

What does secondary growth do?

Answer 54

Increases the diameter, and therefore increasing the supporting and transport tissues, of stems and roots of woody plants. Occurs in the mature stem after elongation, but simultaneously with primary growth.

Question 55

Where is secondary growth found and not found?

Answer 55

found in gymnosperms and eudicots; not found in monocots and monilophytes

Question 56

What are vascular rays?

Answer 56

interweave in secondary vasculature to enable lateral transport of materials

Question 57

What is the structure of the vascular cambium?

Answer 57

Cylinder of meristematic cells one layer thick developed from undifferentiated parenchyma cells. It is located outside the pith and primary xylem, and to the inside of the primary phloem and cortex. Forms xylem inwards, and phloem outwards.

Question 58

What is the difference between early wood and late wood?

Answer 58

Early wood: formed in spring; thin cell walls for maximal water delivery

Late wood: formed in late summer; thick walled cells for stem support

Question 59

What are tree rings?

Answer 59

Marks created by the meeting of early wood and late wood; used to estimate a tree’s age.

Question 60

What is dendrochonology?

Answer 60

analysis of tree ring growth patterns to study past climate change

Question 61

What is the difference between soft wood and hard wood?

Answer 61

Soft wood: uniform texture and predominated by non-fiber tracheids with small amounts of parenchyma and a resin canal (conifers)

Hard wood: variable texture/structure/colour and consists of heterogeneous cell types including vessel elements, tracheids, and parenchyma. There and colour variations (eudicots)

Question 62

What is the difference between sap wood and heart wood?

Answer 62

Sap wood: actively conducting part of the wood (dead but most used); light coloured

Heart wood: no longer actively conducting (dead and unused); darker colour

Question 63

What is cork?

Answer 63

Water impermeable, elastic, hydrophobic, extension of the periderm from the cambium that contains suberin.

Question 64

What is the difference between the apoplast and the symplast?

Answer 64

Apoplast: external to membrane, including cell walls, extracellular spaces and the interior of dead cells.

Symplast: entire mass of cytosol of all living cells + plasmodesmata

Question 65

What are the three transport routes for water and solutes?

Answer 65

Apoplastic: via cell wall
Symplastic: through cytosol
Transmembrane: across the cell wall and plasma membrane

Question 66

What is the difference between osmosis and water potential?

Answer 66

Osmosis: ACT OF DIFFUSION of water affected by concentration and pressure

Water potential: MEASUREMENT OF WORK that combines the effects of solute concentration and pressure

Question 67

What direction in terms of water potential does water move in a plant?

Answer 67

High water potential (soil) to low water potential (atmosphere)

Question 68

How do stomata open and close?

Answer 68

Turgid: Guard cells bow outward and open the pore

Flaccid: Guard cells become less bowed and pore closes

Question 69

what is bulk flow?

Answer 69

the movement of a mass of fluid that is due to the presence of a pressure gradient

Question 70

What is the casparian strip?

Answer 70

Part of endodermal wall made of suberin that blocks apoplastic transfer of minerals and forces crossing of plasma membrane to enter vascular cylinder.

Question 71

What is transpiration?

Answer 71

evaporation of water from a plant’s surface which gets replaced as water travels up from roots

Question 72

How does the transpirational pull transport xylem sap?

Answer 72

1. Water vapour in airspaces of leaf diffuse to low water potential area (atmosphere) and exit leaf via stomata
2. As water evaporates, air-water interface retreats further into mesophyll cell walls.
3. Surface tension of water creates negative pressure potential which pulls water and minerals from the root up.

Question 73

What is translocation?

Answer 73

the movement of photosynthates in the form of phloem sap from the leaves to other parts of the plant

Question 74

What is phloem sap?

Answer 74

Aqueous solution that is high in sucrose, traveling from a sugar source to a sugar sink via sieve tube elements in either the symplastic route or both symplastic and apoplastic routes

Question 75

What is the difference between a sugar source and a sugar sink?

Answer 75

Sugar source: where sugars are made (chloroplasts of leaves)

Sugar sink: where sugars end up (roots, seeds, tubers)

Question 76

What are plant hormones?

Answer 76

mobile chemical signals produced in low concentrations that act as regulators for specific physiological processes

Question 77

what are the major plant hormones?

Answer 77

Auxin: for growth/increase
Cytokinins: for division
Gibberellins: for expansion/elongation
Abscisic acid: maturation/stress
Ehtylene: ripening/stress
Brassinosteroids
Jasmonates
Strigolactones

Question 78

What is auxin? Where is it found?

Answer 78

Plant hormone that promotes vertical growth, root formation, and leaf venation via cell and stem elongation. Synthesized in the SAM and young leaves, but found in developing fruit and seeds.

Question 79

What is the practical use of auxin?

Answer 79

indolbutyric acid (IBA) stimnulates adventitious roots and is used in vegetative propagation of plants

2,4-D is a synthetic auxin that can kill plants and is used as a herbicide on eudicots

Question 80

What are cytokinins? Where are they found?

Answer 80

hormones that stimulate cytokinesis, produced in actively growing tissues such as roots, embryos and fruits. They work together with auxin to control cell division and differentiation.

Question 81

What is apical dominance?

Answer 81

a terminal bud’s ability to suppress development of axillary bud. controlled via cytokinins, auxin, and strigolactone.

Question 82

what are gibberellins? where are they found?

Answer 82

Promotes rapid and uninhibited growth via cell elongation, originally found in rice pathogen gibberella. High concentration of gibberellins increase height, number of flowers, fruit growth, and it also signals seed germination.

Question 83

What is abscisic acid?

Answer 83

plant hormone that affects seed dormancy and drought tolerance by slowing growth.

Question 84

How does abscisic acid affect seed dormancy and drought tolerance?

Answer 84

Seed dormancy: allows germination in optimal conditions when removed by heavy rain, light, or prolonged cold

Drought tolerance: internal signal that enables plants to withstand drought by causing stomata to close rapidly and prevent water loss

Question 85

What is ethylene?

Answer 85

C2H4 gas involved in fruit ripening and stress response via drought, flood, mechanical pressure, injury or infection.

Question 86

What is senescence?

Answer 86

The pathway to programmed death of cells or organs; biological aging. In a plant, it is associated with a burst of ethylene.

Question 87

What is leaf abscission?

Answer 87

When a plant drops its leaves in the fall, signalled by a change in the balance of auxin (cell growth) and ethylene (maturation)

Question 88

What is the fresh and dry mass of a plant consisting of?

Answer 88

Fresh: 80-90% water

Dry: 4% inorganic substances from soil (50+), 96% CO2 assimilated into carbohydrates during photosynthesis

Question 89

What are macronutrients?

Answer 89

essential elements required in large amounts to make macromolecules: CHOPKNS CaMg

Question 90

What are micronutrients?

Answer 90

essential elements needed in small amounts: Cu, Ni, Mo, Zn, B, Mn, Fe

Question 91

What is the difference between deficiencies of mobile nutrients vs less mobile nutrients?

Answer 91

mobile: affects older organs more (N, P, K, Mg, Cl, Zn, Mo)

less mobile: affect younger organs more (Ca, S, Fe, B, Cu)

Question 92

What are the symptoms of nutrient deficiency (chem, path, drought, Mg, N, K, P) in plant leaves?

Answer 92

chem: burns
path: spots that spread
drought: curling to minimize surface area
Mg: purple underside and yellow veins
N: yellow tip that apreads to center
K: drying of tips and edges
P: red/purple marks

Question 93

What is the rhizosphere?

Answer 93

layer of soil surrounding plants roots containing rhizobacteria that enhance plant growth via antibiotics/chemicals in return for nutrients

Question 94

What is the nitrogen cycle?

Answer 94

1. Nitrogen fixing bacteria converts atmospheric N to ammonia
2. Ammonia takes on a proton from soil and creates ammonium
3. nitrifying bacteria turns ammonium to nitrites and nitrates
4. Nitrates are either absorbed through the roots or turned back into atomspheric N via denitrifying bacteria

Question 95

Where are nitrogen fixing bacteria found?

Answer 95

Nodules: plant cells infected by bacteroid rhizobium contained in vesicles formed by root

Question 96

What are mycorrhizae?

Answer 96

mutualistic associations of fungi and roots where fungi is supplied with sugar from the host plant, and the host plant is supplied with mineral absorption and growth factors.

Question 97

What are the two types of mycorrhizal associations?

Answer 97

ectomycorrhizae: mycelium forms sheath over surface of the root without penetrating

arbuscular mycorrhizae: hyphae extend into root, penetrating cell wall but not plasma membrane

Question 98

What is the difference between an epiphyte, a carnivorous plant, and a parasitic plant?

Answer 98

epiphyte: grows on another plant and obtains water and minerals from rain

carnivorous plant: photosynthetic but obtain nitrogen by digesting insects

parasitic plants: absorb sugars and minerals from living host plant