Plants, Organs, Tissues, Cells and Meristems

Question 1

3 plant organs

Answer 1

roots
stems
leaves

Question 2

root functions

Answer 2

anchors plant
absorbs minerals and water
stores carbohydrates

Question 3

Primary root

Answer 3

first root (and organ) to emerge from a germinating seed

Question 4

taproot system

Answer 4

most eudicots and gymnosperms have one, consists of a taproot and lateral roots

Question 5

taproot

Answer 5

main vertical root

Question 6

Lateral roots (taproot system)

Answer 6

or branch roots, that arise from the taproot

Question 7

Fibrous root system

Answer 7

Most monocots have one, consists of adventitious roots and lateral roots

Question 8

Adventitious roots

Answer 8

arise from stem or leaves

Question 9

Lateral roots (fibrous)

Answer 9

arise from adventitious roots

Question 10

why does absorption of water and minerals happen at root hairs

Answer 10

Incr SA

Question 11

Prop roots

Answer 11

hala tree- tall and heavy

roots for support

Question 12

Buttress roots

Answer 12

Tropical forests, root systems of trees are very shallow

Aerial (above ground) roots form buttress structures to support the tree

Question 13

‘strangling’ aerial roots

Answer 13

seeds of strangler fig germinate in the branches of tall trees, send aerial roots into the soil
Eventually host tree dies through shading by fig leaves

Question 14

Pneumatophores

Answer 14

Mangroves produce these negatively geotropic roots to get O2 which is lacking in the mud they grow in

Question 15

Storage roots

Answer 15

Sugar beet storage roots store water and sugar

Question 16

stem consists of

Answer 16

alternating system of nodes, points at which leaves are attached
Internodes, stem segments between nodes

Question 17

Axillary bud

Answer 17

potential to form a lateral shoot, or branch

Question 18

Apical bud

Answer 18

or terminal bud

near shoot tip and causes elongation of a young shoot

Question 19

Rhizome (stem mistaken for root)

Answer 19

Horizontal shoots that grow just below surface

in Iris

Question 20

Stolons (mistaken for roots)

Answer 20

Strawberry plant

Horizontal shoots that grow along soil surface and allow asexual reproduction of plantlets at nodules along the stolon

Question 21

Tubers

Answer 21

enlarged end of rhizomes or stolons for storing food

Question 22

Bulbs

Answer 22

eg onion

vertical underground shoots that store food

Question 23

leaves

Answer 23

consist of flattened blade and stalk called the petiole, which joins the leaf to a node of the stem

Question 24

Monocots

Answer 24

have parallel veins

Question 25

Eudicots

Answer 25

Have branching veins

Question 26

3 leaf shapes

Answer 26

simple leaf, compound leaf, doubly compound leaf

Question 27

Tendrils

Answer 27

Modified leaves that plants use to cling to objects
Once attached the tendril coils pulling teh plant closer to the support
Pea plants
Some tendrils are modified stems

Question 28

Spines

Answer 28

Modified leaves

In cacti PS carried out in fleshy green stem (not spines/leaves)

Question 29

Storage leaves

Answer 29

eg in ice plant store water

Question 30

Reproductive leaves

Answer 30

reproductive leaves of some succulents eg kalanchoe form adventitious plantlets that fall off and take root in the soil

Question 31

Dermal tissue

Answer 31

protective layer (outermost)

Question 32

Vascular tissue

Answer 32

continuous transport system arranged differently in each organ (innermost)

Question 33

Ground tissue

Answer 33

where most metabolic functions take place (middle)

Question 34

Nonwoody plants

Answer 34

Dermal tissue system is a single tissue called the epidermis

A waxy coating called the cuticle helps prevent water loss from epidermis

Question 35

Woody plants

Answer 35

Protective tissues called periderm replace epidermis in older regions of stems and roots
Trichomes are outgrowths of the shoot epidermis and can help with insect defence

Question 36

Vascular tissue system

Answer 36

Carries out long distance transport of materials between roots and shoots

Question 37

2 vascular tissues

Answer 37

xylem and phloem

Question 38

xylem

Answer 38

water and dissolved minerals upward roots to shoots

Question 39

Phloem

Answer 39

Transports organic nutrients from where made to where needed

Question 40

stele

Answer 40

vascular system of stem or root

Question 41

Ground tissue system

Answer 41

tissues that are neither dermal nor vascular

Question 42

Pith

Answer 42

ground tissue internal to vascular tissue

Question 43

Cortex

Answer 43

ground tissue external to the vascular tissue

Question 44

Ground tissue includes cells specialised for

Answer 44

storage, PS, support

Question 45

Parenchyma

Answer 45

have thin and flexible primary walls
Lack secondary walls
The least specialised
Perform the most metabolic functions
Retain the ability to divide and differentiate

Question 46

Components of parenchyma

Answer 46

large central vacuole
In leaves they contain chloroplasts
In stems and roots they contain colourless plastids that store starch (amyloplasts)
Can differentiate into other types of cells
Entire plant can be grown from a parenchyma cell

Question 47

Collenchyma cells

Answer 47

grouped in strands and help support young parts of the plant shoot
Thicker and uneven walls
Lack secondary walls
Cells provide flexible support without restraining growth
Elongated living flexible cells grouped in bundles/layers that provide support to young stems

Question 48

sclerenchyma cells

Answer 48

rigid due to thick secondary cell walls strengthened by lignin
Dead at maturity
Two types: sclereids and fibers

Question 49

sclereids

Answer 49

short and irregular
thick lignified secondary walls
Impart hardness to seed coats and nut shells, and texture to pear fruits

Question 50

Fibers

Answer 50

long and slender and arranged in threads

Question 51

water conducting cells of the xylem

Answer 51

at maturity the cells die, contents disintegrate leaving lignin-hardened CW
2 types: tracheids and vessel elements

Question 52

Tracheids

Answer 52

long, thin with tapered ends
Movement of water between them via pits
found in xylem of almost all vascular plants

Question 53

Vessel elements

Answer 53

wider, shorter, thinner walled, less tapered than tracheids
Movement of H2O between vessel elements through perforated end walls.
Align end to end to form long micropipes called vessels

Question 54

sugar-conducting cells of the phloem

Answer 54

sieve tube elements, alive at functional maturity

Question 55

sieve tube elements lack

Answer 55

nucleus, ribosmes, vacuole and cytoskeleton, allows them to conduct nutrients

Question 56

Sieve plates

Answer 56

porous end walls that allow fluid to flow between cells along the sieve tube

Question 57

companion cell

Answer 57

along each sieve tube element
non-conducting
Nucleus and ribosome serve both cells
In some plants they load sucrose into the sieve tube elements

Question 58

Meristems

Answer 58

generate cells for P and S growth

Question 59

indeterminate growth

Answer 59

plant can grow throughout its life

Question 60

determinate growth

Answer 60

some plant organs eg leaves, flowers cease to grow at a certain size

Question 61

Apical meristems

Answer 61

at tips of roots and shoots and at axillary buds of shoots
Elongate shoots and roots, primary growth
In non woody plants primary growth produces virtually all the plant body

Question 62

Lateral meristems

Answer 62

In woody plants add thickness to shoots and roots, known as secondary growth
Two lateral meristems: vascular cambium and cork cambium

Question 63

vascular cambium

Answer 63

adds vascular tissue layers called secondary xylem (wood), and secondary phloem

Question 64

Cork cambium

Answer 64

replaces epidermis with periderm, which is thicker and tougher

Question 65

primary growth of roots

Answer 65

root tip covered by root cap, protects apical meristem as root pushes through soil
Growth occurs behind root tip in 3 zones of cells: zone of cell division, elongation and differentiation

Question 66

in eudicots root

Answer 66

xylem and phloem at centre

Stele is a vascular cylinder and xylem often has starlike appearance with phloem between the ‘arms’

Question 67

In moncots root

Answer 67

root has parenchyma at centre

core of parenchyma surrounded by rings of xylem then phloem

Question 68

How do lateral roots arise

Answer 68

From within the pericyle, the outermost layer in the vascular cylinder

Question 69

primary growth of shoots

Answer 69

shoot apical meristem is a dome shaped mass of dividing cells at the shoot tip

Question 70

primary growth of shoots

Answer 70

shoot apical meristem is a dome shaped mass of dividing cells at the shoot tip
Leaves develop from leaf primordia along the sides of the apical meristem
Axillary buds develop from meristematic cells left at the bses of leaf primordia
Axillary buds give rise to lateral shoots

Question 71

Eudicot stems

Answer 71

vascular tissue has vascular bundles in a ring

Question 72

Monocot stems

Answer 72

Vascular bundles scattered throughout the ground tissue

Question 73

tissue organisation of leaves

Answer 73

Leaf epidermis has stomata, which allow CO2 and O2 exchange between air and Photosynthetic cells, and release H2O
Each stoma flanked by 2 guard cells, regulate opening and closing

Question 74

Mesophyll

Answer 74

Ground tissue in a leaf

Two layers in eudicots: palisade mesophyll, spongy “ (allows for GE)