Deck 20: Plant Anatomy and Growth

A) Water; carbon dioxide
B) Oxygen; carbon dioxide
C) Water; sugar
D) Carbon dioxide; sugar
E) Sugar; oxygen

A) 1 and 5
B) 2 and 3
C) 1, 2, and 3
D) 2 and 4
E) 3, 4, and 5

A) sclerenchyma
B) parenchyma
C) collenchyma
D) vascular cambium
E) epidermal

A) pericycle.
B) nodes.
C) axils.
D) terminal bud.
E) root hairs.

A) The leaves of monocot plants have leaf veins that form a net-like pattern, while the leaves of eudicot plants have parallel leaf veins.
B) Monocot leaves have leaf veins that form a net-like pattern, and their flower parts occur in multiples of 3; eudicot leaves have parallel leaf veins, and their flower parts occur in multiples of 4 or 5.
C) Monocot leaves have parallel leaf veins, and their flower parts occur in multiples of 4 or 5; eudicot leaves have leaf veins that form a net-like pattern, and their flower parts occur in multiples of 3.
D) Monocot flower parts occur in multiples of 4 or 5, while eudicot flower parts occur in multiples of 3.
E) Monocot leaves have parallel leaf veins, while the leaf veins of a eudicot plant form a net-like pattern.

A) Branching would occur, but no further primary growth would occur.
B) All of the plant's leaves would die.
C) The plant would not be affected.
D) Branching would occur from the roots.
E) Additional stems would develop.

A) 1; 5
B) 4; 5
C) 3; 5
D) 4; 3
E) 3; 1

A) tracheids
B) pericycle
C) apical meristem
D) vascular cambium
E) cortex

A) pericycle
B) terminal bud
C) stomata
D) flower
E) lateral bud

A) The products of photosynthesis from the leaves are stored in the root hairs.
B) Root hairs provide support for the elongating shoot system.
C) Root hairs allow the plant to regenerate after the shoot system dies back.
D) Root hairs allow lateral branching of the roots.
E) Root hairs increase the surface area available for water absorption.

A) parenchyma.
B) epidermis.
C) vascular cambium.
D) collenchyma.
E) sclerenchyma.

A) anchorage
B) absorption of nitrates
C) absorption of water
D) absorption of carbon dioxide
E) absorption of minerals

A) tracheids
B) sclerenchyma
C) sieve-tube members
D) companion cells
E) sieve plates

A) photosynthesis
B) water storage
C) food storage
D) nitrogen fixation
E) attachment and support

A) Xylem and phloem occur in a ring in a eudicot stem, while phloem occur between arms of xylem in a monocot stem.
B) Xylem and phloem occur in a ring in a monocot root, while phloem occur between arms of xylem in a eudicot root.
C) Xylem and phloem occur in a ring in a eudicot root, while phloem occur between arms of xylem in a monocot root.
D) Xylem and phloem occur in a ring in a monocot stem, while phloem occur between arms of xylem in a eudicot stem.
E) Xylem and phloem occur in a ring in a monocot stem, while xylem and phloem occur in scattered bundles in a eudicot stem.

A) mesophyll
B) parenchyma
C) collenchyma
D) sclerenchyma
E) epidermis

A) epidermal; cork cambium
B) epidermal; vascular cambium
C) sclerenchyma; vascular cambium
D) collenchyma; cork cambium
E) sclerenchyma; cork cambium

A) Xylem and phloem occur in a ring in a eudicot stem, while phloem occur between arms of xylem in a monocot stem.
B) Xylem and phloem occur in a ring in a monocot stem, while phloem occur between arms of xylem in a eudicot stem.
C) Xylem and phloem occur in a ring in a eudicot stem, while xylem and phloem occur in scattered bundles in a monocot stem.
D) Xylem and phloem occur in a ring in a monocot stem, while xylem and phloem occur in scattered bundles in a eudicot stem.
E) Xylem and phloem occur in scattered bundles in a monocot stem, while phloem occur between arms of xylem in a eudicot stem.

A) increases; open
B) decreases; open
C) increases; close
D) decreases; close
E) does not change; close

A) Mn; Zn; N; O
B) Mn; O; Zn; C
C) Cu; K; O; H
D) Cu; K; B; Mn
E) Mn; Zn; B; N

A) phloem, cortex, cork cambium, and cork
B) vascular cambium, phloem, cork cambium, and cork
C) xylem, vascular cambium, and phloem
D) cortex, cork cambium, and cork
E) vascular cambium, cortex, cork cambium, and xylem

A) In eudicot roots, xylem and phloem bundles occur in a ring surrounding the pith.
B) In eudicot roots, phloem form a star shape in the center, with xylem occurring between arms of phloem.
C) In monocot roots, vascular bundles are found only within the zone of cell division.
D) In both monocot and eudicot roots, phloem are found outside the endodermis, and xylem within the endodermis.
E) In monocot roots, xylem and phloem bundles alternate in a ring surrounding the pith.

A) zone of maturation only.
B) zone of maturation and zone of elongation.
C) zone of cell division, zone of elongation, and zone of maturation.
D) root cap only.
E) root cap and zone of cell division.

A) 1
B) 1 and 6
C) 6
D) 2 and 3
E) 2

A) endodermis - regulates mineral entrance into vascular tissues
B) epidermis - forms root hairs for absorption
C) pericycle - contains starch granules
D) cortex - food storage
E) pith - food storage

A) a micronutrient.
B) mycorrhizal fungi.
C) oxygen.
D) carbon.
E) hydrogen.

A) cuticle, epidermis, mesophyll, xylem of leaf vein
B) xylem of leaf vein, stomata, mesophyll
C) epidermis, stomata, xylem of leaf vein
D) xylem of leaf vein, mesophyll, stomata
E) xylem of leaf vein, stomata, mesophyll, phloem of leaf vein

A) lateral meristem; root meristem
B) apical meristem; root cap
C) pericycle; apical meristem
D) apical meristem; pericycle
E) pericycle; root cap

A) contains wide vessels with thin walls, and is lighter than spring wood.
B) is impregnated with suberin, whereas spring wood is not.
C) contains thick-walled tracheids that give it strength, and is more dense than spring wood.
D) contains only thin-walled xylem, and is lighter than spring wood.
E) is produced during the summer when moisture is plentiful, and contains only heavy fibers and thick-walled tracheids.

A) through xylem tissue when sugars are present.
B) through both xylem and phloem tissue.
C) due to osmosis of water out of tracheids.
D) through xylem tissue as the water column is pulled upward.
E) continuously through phloem in both directions.

A) 1; 2
B) 6; 2
C) 2; 6
D) 2; 1
E) 3; 4

A) lacks an organized pith.
B) contains xylem and phloem organized in ring around the pith.
C) does not contain pericycle.
D) lacks a functional endodermis.
E) contains a cortex that is inside of the endoderm.

A) do not contain cork cambium.
B) lack an organized pith.
C) initiate branching from the cortex, rather than from the cork cambium.
D) do not contain distinct vascular bundles.
E) contain scattered vascular bundles rather than containing vascular bundles in a ring.

A) polarity and neutral pH
B) cohesion and adhesion
C) density as a solid and low molecular weight
D) adhesion and density as a solid
E) low molecular weight and cohesion

A) active transport of sugar into sieve tubes, water follows by osmosis
B) water leaving sieve tubes by osmosis, followed by active transport of sugar into sieve tubes
C) active transport of water into sieve tubes, water entering companion cells by osmosis
D) water enters companion cells by osmosis, followed by active transport of sugar into sieve tubes
E) active transport of sugar into companion cells, water follows by osmosis

A) zone of maturation
B) zone of elongation
C) zone of cell division
D) root cap
E) epidermis

A) parenchyma cells
B) collenchyma cells
C) sclerenchyma cells
D) xylem
E) phloem

A) bark
B) pith
C) wood
D) secondary xylem
E) phloem

A) phloem
B) pith
C) cortex
D) annual ring
E) bark

A) vascular cambium
B) phloem
C) cortex
D) cork cambium
E) cork

A) cell division - elongation - maturation
B) elongation - cell division - maturation
C) maturation - elongation - cell division
D) cell division - maturation - elongation
E) cell division - root cap - elongation

A) The vascular bundles are scattered.
B) The vascular bundles are arranged in a ring.
C) There are no vascular bundles in a nonwoody monocot stem.
D) The vascular bundles are arranged in parallel lines.
E) The vascular bundles are arranged in squares.