Chapter 5 Roots and Soil

Question 1

embryo

Answer 1

(em′bree-oh) an immature sporophyte that develops from a zygote within an ovule or archegonium after fertilization

Question 2

radicle

Answer 2

(rad′i-kuhl) the part of an embryo in a seed that develops into a root

Question 3

root cap

Answer 3

(root kap) a thimble-shaped mass of cells at the tip of a growing root; functions primarily in protection

Question 4

parenchyma

Answer 4

Parenchyma is a type of simple permanent tissue that makes a major part of ground tissues in plants,

Question 5

amyloplast

Answer 5

(am′uh-loh-plast) a colorless, starch-forming plastid found in roots and involved in gravity perception

Question 6

region of cell division

Answer 6

(ree′juhn uhv sel′ dih-vizh-uhn) area of actively dividing cells at an apical meristem

Question 7

apical meristem

Answer 7

apical meristem, region of cells capable of division and growth in the root and shoot tips in plants. Apical meristems give rise to the primary plant body and are responsible for the extension of the roots and shoots.

Question 8

protoderm

Answer 8

(proh′tuh-durm) the primary meristem that gives rise to the epidermis

Question 9

ground meristem

Answer 9

(grownd mair′i-stem) meristem that produces all the primary tissues other than the epidermis and stele (e.g., cortex, pith)

Question 10

procambium

Answer 10

(proh-kam′bee-um) a primary meristematic tissue that differentiates into primary xylem and phloem

Question 11

region of elongation

Answer 11

(ree′juhn uhv ih-lawng-gey′shuhn) area near an apical meristem in which cells grow in length and width

Question 12

secondary tissue

Answer 12

(sek′un-der-ee tish′yu) a tissue produced by the vascular cambium or the cork cambium (e.g., virtually all the xylem and phloem in a tree trunk)

Question 13

region of differentiation

Answer 13

(ree′juhn uhv diff-uhr-en-tee-a′shun) area of maturing cells near an apical meristem

Question 14

root-hair zone

Answer 14

(root′ hair zohn) area of cells in a root in which protuberances of epidermal cells can be found

Question 15

root hair

Answer 15

(root hair) a delicate protuberance that is part of an epidermal cell of a root; root hairs occur in a zone behind the growing tip

Question 16

cortex

Answer 16

(kor′teks) a primary tissue composed mainly of parenchyma; the tissue usually extends between the epidermis and the vascular tissue

Question 17

endodermis

Answer 17

(en-doh-dur′mis) a single layer of cells surrounding the vascular tissue (stele) in roots and some stems; the cells have Casparian strips

Question 18

Casparian strip

Answer 18

(kass-pair′ee-un strip) a band of suberin around the radial and transverse walls of an endodermal cell

Question 19

passage cell

Answer 19

(pas′ij sel) a thin-walled cell of an endodermis

Question 20

vascular cylinder

Answer 20

(vas′kyu-lur sil′in-der) a core of tissues, including xylem and phloem, that lies to the inside of the endodermis

Question 21

pericycle

Answer 21

(per′uh-sy-kul) tissue sandwiched between the endodermis and phloem of a root; often only one or two cells wide in transverse section; the site of origin of lateral roots

Question 22

adventitious

Answer 22

(ad-ven-tish′uss) said of buds developing in internodes or on roots, or of roots developing along stems or on leaves

Question 23

pneumatophore

Answer 23

(noo-mat′oh-for) spongy root extending above the surface of the water, produced by a plant growing in water; pneumatophores facilitate oxygen absorption

Question 24

aerial root

Answer 24

(air′ee-uhl root) root formed above the ground

Question 25

Contractile Roots

Answer 25

A contractile root is a thickened specialized root at the base of a corm, bulb, rosette or other organ which is designed to shrink vertically under conditions of seasonal drought that helps position this plant part at an appropriate level in the ground.

Question 26

Buttress Roots

Answer 26

Buttress roots are large, wide roots on all sides of a shallowly rooted tree. Typically, they are found in nutrient-poor tropical forest soils that may not be very deep. They prevent the tree from falling over while also gathering more nutrients

Question 27

Parasitic Roots

Answer 27

Parasitic or Haustorial roots : Plants which depend on plant partially or totally for their food material are known as parasites

Question 28

haustorium

Answer 28

(pl. haustoria) (haw-stor′ee-um; pl. haw-stor′ee-uh) a protuberance of a fungal hypha or plant organ such as a root that functions as a penetrating and absorbing structure

Question 29

saprophyte

Answer 29

(sap′roh-fyte) an organism that lacks chlorophyll and obtains nutrients from dead or decaying organic matter

Question 30

epiphyte

Answer 30

(ep′uh-fyt) an organism that is attached to and grows on another organism without parasitizing it

Question 31

epiparasite

Answer 31

(ep′uh-par-uh-sahyt) a parasite that feeds upon another parasite

Question 32

myco-heterotroph

Answer 32

(my-co-het′-ur-oh-trohf) a plant that obtains its carbon from a fungus rather than from photosynthesis

Question 33

mycorrhiza

Answer 33

(pl. mycorrhizae) (my-kuh-ry′zuh; pl. my-kuh-ry′zee) a symbiotic association between fungal hyphae and a plant root

Question 34

root nodule

Answer 34

(root nodd′yewl) a small swelling associated with nitrogen-fixing bacteria that invade the roots of leguminous plants and alders

Question 35

hygroscopic water

Answer 35

(hy-gruh-skop′ik waw′tuhr) water that is chemically bound to soil particles and therefore unavailable to plants

Question 36

gravitational water

Answer 36

(grav-uh-tay′shun-ul waw′tuhr) water that drains out of the pore spaces of a soil after a rain

Question 37

capillary water

Answer 37

(kap′i-lair-ee waw′tuhr) water held in the soil against the force of gravity; capillary water is available to plants

Question 38

phytoremediation

Answer 38

(fahy-toh-ri-mee-dee-ey′shuhn) use of plants to facilitate removal of toxins from the soil

Question 39

phytochelatin

Answer 39

(fahy-toh-kee′la-tin) polypeptide that sequesters and detoxifies heavy metals

Question 40

Taproot system

Answer 40

taproot is a large, central, and dominant root from which other roots sprout laterally. Typically a taproot is somewhat straight and very thick, is tapering in shape, and grows directly downward.

Question 41

Fibrous root system

Answer 41

A fibrous root system is the opposite of a taproot system. It is usually formed by thin, moderately branching roots growing from the stem. A fibrous root system is universal in monocotyledonous plants and ferns. The fibrous root systems look like a mat made out of roots when the tree has reached full maturity.

Question 42

The Four zones in a developing root are…

Answer 42

Root cap

Region of cell division

Region of maturation

Region of elongation

Question 43

The root cap is composed of ______.

Answer 43

parenchyma cells

Question 44

Within a root, cells in the region of cell ______ divide every 12 to 36 hours.

Answer 44

division

Question 45

Apical meristems

Answer 45

apical meristem, region of cells capable of division and growth in the root and shoot tips in plants. Apical meristems give rise to the primary plant body and are responsible for the extension of the roots and shoots.

Question 46

Cells in the region of ____ are responsible for the growth in length of roots.

Answer 46

elongation

Question 47

Order the four regions in a developing root starting with the tip of the root

Answer 47

1. Root cap
2. Region of cell division
3. Region of elongation
4. Region of maturation

Question 48

In roots, tissue differentiation occurs in which region?

Answer 48

Maturation

Question 49

Root hairs are tubular extensions of __.

Answer 49

Epidermal Cells

Question 50

How does the region of elongation contribute to the lengthening of roots?

Answer 50

Cells in the region of elongation become several times longer than wide.

Question 51

A taproot system is characterized by a single large root with smaller branch roots, whereas a ______ root system is characterized by many smaller roots of similar diameter.

Answer 51

Fibrous

Question 52

How does the cuticle of root hairs compare to that of stems and leaves?

Answer 52

It is thinner

Question 53

In growing roots, cells in the region of maturation are differentiating into specific ______.

Answer 53

Cell types

Question 54

Root cortex

Answer 54

In botany, a cortex is an outer layer of a stem or root in a vascular plant, lying below the epidermis but outside of the vascular bundles. The cortex is composed mostly of large thin-walled parenchyma cells of the ground tissue system and shows little to no structural differentiation.

Question 55

Endodermal cells

Answer 55

The endodermis is the innermost layer of primary cortex, which represents a boundary between the vascular cylinder and peripheral root tissues

Question 56

The cell walls of root endodermal cells are impregnated with lignin and ______

Answer 56

Suberin

Question 57

Suberin

Answer 57

What is suberin and its function? Suberin functions as a physical barrier, preventing water loss from the tissues it surrounds as well as providing protection against pathogens

Question 58

The cuticle of stems and leaves typically does not allow passage of water. Root hairs, which are responsible for water and nutrient absorption, also have a cuticle. Which of the following describes the root hair cuticle?

Answer 58

Their cuticle is thin enough to allow water to pass through, but it is thick enough to protect the root hairs from bacterial and fungal infections.

Question 59

Pericycle

Answer 59

The pericycle is a cylinder of parenchyma or sclerenchyma cells that lies just inside the endodermis and is the outer most part of the stele of plants

Question 60

Where do branch roots and part of the vascular cambium of dicots arise?

Answer 60

within the pericycle

Question 61

The tissue just inside the root epidermis is called the _____

Answer 61

Cortex

Question 62

Certain plants such as sweet potatoes produce roots with extra parenchyma cells that are full of carbohydrates. These roots are called _____ _____ roots.

Answer 62

Food Storage

Question 63

What substances (aside from cellulose) impregnate the cell walls of endodermal cells?

Answer 63

Lignin

Suberin

Question 64

Some members of the Pumpkin Family that grow in dry regions are able to store _____
in their roots for when the natural supply runs low.

Answer 64

water

Question 65

Suckers are aerial stems with rootlets at their base that are produced by _________ buds.

Answer 65

adventitious

Question 66

adventitious buds

Answer 66

Buds arising at any part other than stem are known as adventitious bud.

Question 67

All functions of the pericycle

Answer 67

Gives rise to lateral roots

Gives rise to parts of the vascular cambium of dicots

Gives Rise to root hairs

Question 68

Pneumatophores

Answer 68

Aerial roots are roots above the ground. They are almost always adventitious. They are found in diverse plant species, including epiphytes such as orchids, tropical coastal swamp trees such as mangroves, banyan figs, the warm-temperate rainforest rata, and pohutukawa trees of New Zealand

Question 69

Non-parasitic plants that are attached to tree branches and grow unconnected to the ground often have roots that extend into the air called _____ roots.

Answer 69

Aerial

Question 70

Buds that appear along the roots and produce suckers are called _____
buds.

Answer 70

adventitious

Question 71

The roots of some bulb plants, called _____ roots, can pull the plant deeper into the soil each year.

Answer 71

Contractile

Question 72

Suckers are aerial stems with rootlets at their base that are produced by _________ buds.

Answer 72

Adventitious

Question 73

The contractile roots of some bulb plants ______.

Answer 73

pull the plant deeper into the soil

Question 74

Some trees growing in shallow soils can gain extra stability by growing ______ roots.

Answer 74

buttress

Question 75

Haustoria

Answer 75

In botany and mycology, a haustorium is a rootlike structure that grows into or around another structure to absorb water or nutrients. For example, in mistletoe or members of the broomrape family, the structure penetrates the host’s tissue and draws nutrients from it.

Question 76

Haustoria are produced by ______.

Answer 76

parasitic plants

Question 77

Most land plants have associated fungi in the soil that are called ______.

Answer 77

mycorrhizae

Question 78

mycorrhizae

Answer 78

a fungus which grows in association with the roots of a plant in a symbiotic or mildly pathogenic relationship.

Question 79

epiparasites

Answer 79

Epiparasitism is the situation in which one parasitic species is parasitized by another to which it is related. Epiparasites (or secondary parasites) are thus ‘fellow travellers’, perhaps advantaged by sharing some feature of their hosts (the primary parasites), such as their dispersal agents.

Question 80

Contractile roots

Answer 80

Contractile roots are responsible for movement of the underground shoot part ofthe plant, e.g., a corm, a bulb, or a. rhizome.

Question 81

barbasco plant

Answer 81

used as a commercial insecticide and piscicide

Question 82

Components of soil.

Answer 82

Minerals

Organisms

Air

Organic matter

Question 83

Soil formation begins when rocks are broken down into ______ material.

Answer 83

parent

Question 84

Parent material

Answer 84

Parent material is the underlying geological material in which soil horizons form. Soils typically inherit a great deal of structure and minerals from their parent material

Question 85

Nodules are specialized tissues that surround beneficial bacteria. This symbiotic relationship enables plant to utilize ______.

Answer 85

gaseous nitrogen

Question 86

Beyond food, in what ways do humans use root crops?

Answer 86

dyes

alcohol

drugs

insecticide

Question 87

Members of the madder family

Answer 87

Other well-known members of the Madder family include the anti-malarial alkaloid quinine (Cinchona), and the ornamental Gardenia. Most plants of this family grow in the tropics, many of them as shrubs or trees.

Question 88

Sands are particles that can be seen with the naked eye, whereas
_______ contains particles that can be seen with a lens or a light microscope.

Answer 88

Silt

Question 89

Living organisms contribute to the soil in what ways?

Answer 89

adding to organic material through wastes

adding carbon dioxide

decomposing organic material

Question 90

colloidal particles

Answer 90

A colloid is a mixture in which one substance consisting of microscopically dispersed insoluble particles is suspended throughout another substance.

Question 91

What are groups of soil particles that are held together by colloidal particles?

Answer 91

Aggregates

Question 92

Field capacity

Answer 92

Field capacity is the amount of soil moisture or water content held in soil after excess water has drained away and the rate of downward movement has materially decreased, which usually takes place within 2–3 days after a rain or irrigation in pervious soils of uniform structure and texture.

Question 93

mycorrhizae

Answer 93

root associated fungi