Plant Tissues and Organs 2024 PDF

Summary

This document is an OCR past paper, Plant Tissues and Organs, for the 2024 academic year. It covers the structure and function of plant tissues, including dermal, vascular, and ground tissues in roots, stems, and leaves. It also describes the functions of these plant parts.

Full Transcript

PLANT
TISSUES AND
ORGANS
PAPER 1 - 23 MARKS
TISSUE:
► Group of similar cells adapted for a particular function

ORGANS:
► Group of different tissues performing a specific function

CELL DIFFERENTIATION:
► Cells develop specific structures for specific functions
MERISTEMATIC TISSUE
NAME LOCATION FUNCTION

Apical Meristem Present at the growing tip of Increase in length of
stem and root stem and root

Lateral Meristem Found on the lateral sides of Increase in width of
(also called roots and stem stem and root
cambium)
PERMANENT TISSUE

►Dermal tissue
►Vascular tissue
►Ground tissue
DERMAL TISSUE
TISSUE STRUCTURE FUNCTION
Epidermis Outer layer around roots, Protects the underlying
stems and leaves tissues from injury
Single layer of brick-shaped Regulates gaseous and
cells water loss
Cells are transparent with no Allows sunlight through for
intercellular air spaces photosynthesis
Covered with a waxy cuticle Reduces water loss
(Stem and leaf)
Specialised epidermal cells
root hairs (roots) To increase surface area for
guard cells (stem and water absorption
leaves) Transpiration
 A Root hair (to draw)
Surface view of epidermal
cells

Stomata
(to
draw)
GROUND TISSUE
TISSUE STRUCTURE FUNCTION

PARENCHYMA Thin cell walls Stores food and water
Large intercellular spaces Allows for gaseous exchange
Large vacuoles and water movement

SCLERENCHYMA Thick cells walls of lignin Structure and support
Cells are dead and hollow
Two types i.e. sclereids and fibres

COLLENCHYMA Cells wall thickened in the corners Structure and support

CHLORENCHYMA Specialised parenchyma with chloroplasts Photosynthesis
To identify
 VASCULAR TISSUE
TISSUE STRUCTURE FUNCTION
XYLEM Consists of xylem vessels and tracheids Transport water and
Cells are elongated mineral salts from the
Contains no living material roots to the rest of the
plant
Cell walls thickened by lignin Strengthening and
support tissue
Perforation plates Easy transport of water
Walls of vessels and tracheids with pits For lateral transport
PHLOEM Living, elongated cells without thickened Transport organic
walls substances from the
leaves to the rest of the
plant
Consists of sieve tubes and companion Companion cells to
cells support sieve tubes
End walls of sieve tubes with sieve plates Easy transport
to form continuous tubes
ROOT ANATOMY
Functions of root systems:
►Anchorage
►Support
►Storage
►Absorption of water and mineral
salts
►Transport
►Reproduction
 External structure of the root
REGION FUNCTION
Root cap Protects the meristem
Helps root tip to slide through soil easily

Meristematic region Active cell division

Region of elongation Where root grows longer

Mature region Many root hairs to increase the surface area for
water absorption
With lateral roots and fully differentiated tissues
 Internal structure of the root
Epidermis:
► Outer layer of the root
► contains finger-like outgrowths, the root hairs.
Cortex:
► Consists of parenchyma cells with large intercellular air
spaces.
► Inner-most layer consists of a single layer of cells called
the endodermis.
► The radial and transverse walls of the endodermis
contain thickened strips known as the Casparian strips
Internal structure of the root
continued…
Central cylinder:
► Under the endodermis there are thin-walled cells
called the pericycle - Function of the pericycle is to
form lateral/side roots
► On the inside of the pericycle is the vascular tissue
that consists of xylem and phloem.
STEM ANATOMY
Functions of stems
► Transport
► Support and positioning:
► Hold leaves for photosynthesis
► Hold flowers for pollination and seed dispersal
► Tendrils, hooks and twining stems to support climbing plants
► Storage
► Reproduction- asexually
► Tubers, bulbs, rhizomes, stolons
► Anchorage
► Stolons and rhizomes
► Protection
► Thorns (spines)
► Photosynthesis
► Green ‘leaf like’ stems
Internal structure of the stem
Epidermis:
► forms the outer layer of the stem.
Cortex:
► consists of collenchyma, parenchyma and endodermis.
Central cylinder:
► Xylem and phloem occur in vascular bundles in the stem.
► The xylem is on the inside and the phloem on the outside.
► A layer of meristematic tissue, the cambium, occurs between
the xylem and phloem.
► Cambium makes secondary thickening possible.
► The central region of the stem is the pith and consists of
parenchyma cells
LEAF ANATOMY

Functions of the leaf
► Photosynthesis
► Transpiration
► Gaseous exchange
Internal structure of the leaf
 LEAF STRUCTURE FUNCTION
SECTION
Epidermi Covers upper and lower surfaces of the leaf Protects the underlying tissues.
s Transparent Allows light through for photosynthesis.
Waxy cuticle covers the epidermis. Cuticle reduces excessive moisture loss.
Contain stomata Stomata are responsible for gaseous
exchange and transpiration

Mesophyl Palisade cells: Responsible for photosynthesis
Elongated cells under the upper epidermis.
(chlorenchyma) For deep penetration of light
Contain large amount of chloroplasts. Maximum photosynthesis
No intercellular air spaces between the
cells
Cell walls are thin Easy diffusion
Spongy cells:
Parenchyma cells with large intercellular air Responsible for photosynthesis and
spaces gaseous exchange
Contain many chloroplasts
Vascular Xylem and phloem Xylem transports water and dissolved
bundles mineral salts to the mesophyll cells
Phloem transports produced organic
nutrients to other parts of the plant.
https://www.youtube.com/watch?v=J7vgZI1COoE