ANATOMY OF FLOWERING PLANTS PART-3: SECONDARY GROWTH

In this post we are going to discuss about Secondary Growth. For the post of Plant Tissue System and Anatomy of Monocot and Dicot System, Click here.



Secondary Growth :

•The growth of the roots and stems in length with the help of apical meristem is called the primary growth. 
•Apart from primary growth most dicotyledonous plants exhibit an increase in girth. This
increase is called the secondary growth.
•The tissues involved in secondary growth are the two lateral meristems: vascular
cambium and cork cambium.

For the post of Plant Tissue, Click here.


Vascular Cambium :

•The meristematic layer that is responsible for cutting off vascular tissues – xylem and
pholem – is called vascular cambium. 
•In the young stem it is present in patches as a single layer between the xylem and
phloem. Later it forms a complete ring.


<>Formation of cambial ring :

•In dicot stems, the cells of cambium present between primary xylem and primary
phloem is the intrafascicular cambium. 
•The cells of medullary rays, adjoining these intrafascicular cambium become meristematic and form the interfascicular cambium. Thus, a continuous
ring of cambium is formed.


<>Activity of the cambial ring :

•The cambial ring becomes active and begins to cut off new cells, both towards the inner and the outer sides. 
•The cells cut off towards pith,
mature into secondary xylem and the cells cut off towards periphery mature into secondary phloem. 
•The cambium is generally more active on the inner side than on the outer. 
•As a result, the amount of secondary xylem produced is more than secondary phloem and soon forms a compact mass. 
•The primary and secondary phloems get gradually crushed due to the continued formation and accumulation of secondary
xylem. 
•The primary xylem however remains more or less intact, in or around the centre. 
•At some places, the cambium forms a narrow band of
parenchyma, which passes through the secondary xylem and the secondary phloem in the radial directions. 
•These are the secondary medullary rays.


<>Spring wood and autumn wood :

•The activity of cambium is under the control of many physiological and environmental factors. 
•In temperate regions, the climatic conditions are not uniform through the year. 
•In the spring season, cambium is very active and produces a large number of xylary elements having vessels with wider cavities. 
•The wood formed during this season is called spring
wood or early wood. 
•In winter, the cambium is less active and forms fewer xylary elements that have narrow vessels, and this wood is called
autumn wood or late wood.
•The spring wood is lighter in colour and has a lower density whereas the autumn wood is darker and has a higher density. 
•The two kinds of woods that appear as alternate concentric rings, constitute an annual ring.
•Annual rings seen in a cut stem give an estimate of the age of the tree.


<>Heartwood and sapwood :

•In old trees, the greater part of secondary xylem is dark brown due to deposition of organic compounds like tannins, resins, oils, gums, aromatic substances and essential oils in the central or innermost layers of the stem.
•These substances make it hard, durable and resistant to the attacks of micro￾organisms and insects. 
•This region comprises dead elements with highly lignified walls and is called heartwood. 
•The heartwood does not conduct water but it gives mechanical support to the stem. 
•The peripheral region of the secondary xylem, is lighter in colour and is known as the sapwood. 
•Sapwood is involved in the conduction of water and minerals from root to leaf.
 
For the post of Morphology and Anatomy of Frogs, Click here.



Cork Cambium :

•As the stem continues to increase in girth due to the activity of vascular cambium, the outer cortical and epidermis layers get broken and need to
be replaced to provide new protective cell layers. Hence, sooner or later, another meristematic tissue called cork cambium or phellogen develops,
usually in the cortex region. 
•Phellogen is a couple of layers thick. 
• Phellogen is made of narrow, thin-walled and nearly rectangular cells. 
•Phellogen cuts off cells on both sides. 
•The outer cells differentiate into cork or phellem while the inner cells differentiate into secondary cortex or phelloderm.
•The cork is impervious to water due to suberin deposition in the cell wall.
•The cells of secondary cortex are parenchymatous. 
•Phellogen, phellem, and phelloderm are collectively known as periderm. Due to activity of the cork cambium, pressure builds up on the remaining layers peripheral to phellogen and ultimately these
layers die and slough off. 
•Bark is a non-technical term that refers to all tissues exterior to the vascular
cambium, therefore including
secondary phloem. 
•Bark refers to a number of tissue types, viz., periderm and secondary phloem.
•Bark that is formed early in the
season is called early or soft bark.
•Towards the end of the season, late or hard bark is formed. 
•At certain regions, the phellogen cuts off closely arranged parenchymatous cells on the outer side instead of cork cells. 
•These parenchymatous cells soon rupture the epidermis, forming a lens￾shaped openings called lenticels.
•Lenticels permit the exchange of gases between the outer atmosphere and the internal tissue of the stem. 
•These occur in most woody trees.

For the post of Morphology and Anatomy of Cockroach, Click here.



Secondary Growth in Roots :

•In the dicot root, the vascular
cambium is completely secondary in origin. 
•It originates from the tissue
located just below the phloem
bundles, a portion of pericycle tissue, above the protoxylem forming a complete and continuous wavy ring, which later becomes circular. 
•Further events are similar to
those already described above for a dicotyledon stem. 
•Secondary growth also occurs in stems and roots of gymnosperms. However, secondary growth does not occur in monocotyledons.

For the post of Morphology and Anatomy of Earthworm, Click here.

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