1. The Organization of the Plant Body: Cells, Tissues, and Meristems
Chapter 5

2. Organization of Plant Body
Most vascular plants consist of:
Shoot System
Above ground part
Stems, leaves, buds, flowers, fruit
Root System
Below ground part
Main roots and branches

3. Plant Cells and Tissues
Cell wall – surrounds each plant cell
Pectin – glues plant cells together
Meristems
Groups of specialized dividing cells
Sources of cells and tissues
Not tissues themselves
Plant organs – leaves, stems,roots, flower parts

4. Vascular tissue system
Main Tissues of Plants
Ground tissue system
Most extensive in leaves (mesophyll) and young green stems (pith and cortex)
Vascular tissue system
Conducting tissues
Xylem – distributes water and solutes
Phloem – distributes sugars
Dermal tissue system
Covers and protects plant surfaces – epidermis and periderm

5. Plant Tissues Simple tissues Composed of mostly one cell type
Workhorse cells of plant body
Functions
Conduct photosynthesis
Load materials into and out of vascular system
Hold plant upright
Store things
Help keep plant healthy and functioning

6. Simple Plant Tissues Tissue type Cell types Parenchyma tissue
Parenchyma cells
Collenchyma tissue
Collenchyma cells
Sclerenchyma tissue
Fibers, sclereids

7. Parenchyma Usually spherical or elongated Thin primary cell wall
Perform basic metabolic functions of cells
Respiration
Photosynthesis
Storage
Secretion

8. Parenchyma Usually live 1-2 years
Crystals of calcium oxalate commonly found in vacuoles
May help regulate pH of cells
May aggregate to form parenchyma tissue in
Cortex and pith of stems
Cortex of roots
Mesophyll of leaves

9. Parenchyma
Mature cells may be developmentally programmed to form different cell types
Wound healing
Transfer cells
Have numerous cell wall ingrowths
Improve transport of water and minerals over short distances
At ends of vascular cells help load and unload sugars and other substances

10. Collenchyma Specialized to support young stems and leaf petioles
Often outermost cells of cortex
Elongated cells
Often contain chloroplasts
Living at maturity

11. Collenchyma
Walls composed of alternating layers of pectin and cellulose
Can occur as aggregates forming collenchyma tissue
Form cylinder surrounding stem
Form strands
Make up ridges of celery stalk

12. Sclerenchyma Rigid cell walls
Function to support weight of plant organs
Two types of cells
Fibers
Sclereids
Both fibers and sclereids have thick, lignified secondary cell walls
Both fibers and sclereids are dead at maturity

13. Sclerenchyma
Fibers
Long, narrow cells with thick, pitted cell walls and tapered ends
Sometimes elastic (can snap back to original length)

14. Sclerenchyma Fibers Arrangements
Aggregates that form continuous cylinder around stems
May connect end to end forming multicellular strands
May appear as individual cells or small groups of cells in vascular tissues

15. Sclerenchyma Sclereids Many different shapes
Usually occur in small clusters or solitary cells
Cell walls often thicker than walls of fibers
Sometimes occur as sheets
Hard outer layer of some seed coats

16. Complex Tissues Composed of groups of different cell types
Xylem
Vessel member, tracheid, fiber, parenchyma cell
Phloem
Sieve-tube member, sieve cell, companion cell, albuminous cell, fiber, sclereid, parenchyma cell
Epidermis
Guard cell, epidermal cell, subsidiary cell, trichome (hair)
Periderm
Phellem (cork) cell, phelloderm cell
Secretory structures
Trichome, laticifer

17. The Vascular System

18. Xylem Complex tissue Transports water and dissolved minerals
Locations of primary xylem
In vascular bundles of leaves and young stems
At or near center of young root (vascular cylinder)

19. Xylem Cell Types Cell Type Description
Trachery element (tracheids and vessel members)
Water conducting cells
Not living at maturity
Before cell dies, cell wall becomes thickened with cellulose and lignin
Fibers
Strength and support
Parenchyma cells
Help load minerals in and out of vessel members and tracheids
Only living cells found in xylem

20. Xylem
Secondary xylem
Forms later in development of stems and roots
Water exchanged between cells through tiny openings called pits
Simple pits
Occur in secondary walls of fibers and lignified parenchyma cells
Bordered pits
Occur in tracheids, vessel members, and some fibers

21. Phloem Complex tissue Transports sugar through plant Primary phloem
In vascular bundles near primary xylem in young stems
In vascular cylinder in roots

22. Phloem Cell types in angiosperm phloem Sieve-tube members
Companion cells
Parenchyma
Fibers and/or sclereids

23. Phloem Sieve-tube members Conducting elements of phloem
Join end-to-end to form long sieve tubes
Mature cell contains mass of dense material called P-protein
May help move materials through sieve tubes
Usually live and function from 1 to 3 years

24. Phloem Sieve-tube members
mature sieve-tube members have aggregates of small pores called sieve areas
One or more sieve areas on end wall of sieve-tube member called a sieve-plate
Callose (carbohydrate) surrounds margins of pores
Forms rapidly in response to aging, wounding, other stresses
May limit loss of cell sap from injured cells

25. Phloem Companion cells
Connected by plasmodesmata to mature sieve-tube member
Contain nucleus and organelles
Thought to regulate metabolism of adjacent sieve-tube member
Play role in mechanism of loading and unloading phloem

26. Phloem Parenchyma Usually living
Function in loading and unloading phloem

27. Phloem
Fibers and/or sclereids
Long tapered cells
Lignified cell walls

28. Phloem Gymnosperms and ferns Sieve cells instead of sieve-tube members
Conducting elements in phloem
Long cells with tapered ends
Sieve areas but no sieve plates
Usually lack nuclei at maturity
Albuminous cells
Adjacent to sieve cells
Short, living cells
Act as companion cells to sieve cells

29. The Outer Covering of the Plant

30. Epidermis Outer covering Usually one cell layer thick Functions
Epidermis of succulents may be 5-6 cell layers thick
Functions
Protects inner tissues from drying and from infection by some pathogens
Regulates movement of water and gases out of and into plant

31. Epidermis
Cell types
Epidermal cells
Guard cells
Trichomes (hairs)

32. Epidermis Epidermal cells Main cell type making up epidermis
Living, lack chloroplasts
Somewhat elongated shape
Cell walls with irregular contours
Outer wall coated with cutin to form cuticle
Cuticle found on all plant parts except tip of shoot apex and root cap
Cuticle often very thin in roots

33. Epidermis
Guard cells
Found in epidermis of young stems, leaves, flower parts, and some roots
Specialized epidermal cells
Small opening or pore between each pair of guard cells
Allows gases to enter and leave underlying tissue
2 guard cells + pore = 1 stoma (plural, stomata)

34. Epidermis Guard cells Differ from epidermal cells Crescent shaped
Contain chloroplasts

35. Epidermis Subsidiary cell Forms in close association with guard cells
Functions in stomatal opening and closing

36. Epidermis Trichomes Epidermal outgrowths Single cell or multicellular
Example: root hairs
Increase root surface area in contact with soil water

37. Periderm Protective layer that forms in older stems and roots
Secondary tissue
Several cell layers deep

38. Periderm Composed of Phellem (cork) Phellogen (cork cambium)
On outside
Cells dead at maturity
Suberin embedded in cell walls
Phellogen (cork cambium)
Layer of dividing cells
Phelloderm
Toward inside
Parenchyma-like cells
Cells live longer than phellem cells

39. Periderm Secretory structures Primarily occur in leaves and stems
May be single-celled or complex multicellular structure
Examples
Trichomes
Could secrete materials out of plant to attract insect pollinators
Laticifers
Secrete latex which discourages herbivores from eating plant

40. Meristems

41. Meristems Special region in plant body where new cells form
Area where growth and differentiation are initiated
Growth
Irreversible increase in size that results from cell division and enlargement
Cell differentiation
Structural and biochemical changes a cell undergoes in order to perform a specialized function

42. Meristems Categories of meristems Shoot and apical meristems
Ultimate source of all cells in a plant
Primary meristems
Originate in apical meristems
Differentiate into primary tissues
Secondary meristems
Produce secondary tissues

43. Root and Apical Meristems
RAM – root apical meristem
SAM – shoot apical meristem
New cells produced by cell division
Theoretically could divide forever
Does not occur
Scarcity of nutrients
Branch of plant can only carry so much weight
Genetic regulation of growth

44. Primary Meristems Functions Form primary tissues
Elongate root and shoot

45. Primary Meristems Types of primary meristems Protoderm Procambium
Cells differentiate into epidermis
Procambium
Cells differentiate into primary xylem and primary phloem
Ground meristem
Differentiates into cells of pith and cortex of stems and roots
Differentiates into mesophyll of leaves

46. Secondary Meristems Functions Cell division
Initiation of cell differentiation
Lateral growth
Increases thickness and circumference of stems and roots

47. Secondary Meristems Not found in all plants
Lacking in plants that grow only one season
Leaves usually lack secondary growth
Types of secondary meristems
Vascular cambium
Differentiates into secondary xylem and secondary phloem
Cork cambium
Differentiates into periderm

48. Additional Meristems Intercalary meristems Leaf specific meristems
In stems
Regulates stem elongation
Leaf specific meristems
Regulates leaf shapes
Repair of wounds
Formation of buds and roots in unusual places