Sapwood:
“When a tree is young, certain cells within the wood are alive and capable of conducting sap or storing nutrients, and the wood is referred to as sapwood. The sapwood also termed as Alebernum.”
Heartwood:
“Heartwood also called duramen. Dead central wood of trees. As new sapwood is formed under the bark, the inner sap wood changes to heartwood. In the wood under going this change the living cells die.”
Sapwood is new wood and is like a pipeline which moves water through the tree up to the leaves.
The sapwood is lighted colored and formed of living cells associated with vessels and fibers.
Sapwood commonly ranges from 4 to 6 cm (1-1/2 to 2 in.) in radial thickness.
Many second-growth trees of merchantable size consist mostly of sapwood.
Heartwood consists of inactive cells that do not function in either water conduction or food storage.
The compounds (including resins, phenols, and terpenes, sometimes referred to as extractives) not only help make heartwood more resistant to attack by insects and decay organisms but also tend to give this inner portion of the stem a distinctive darker color.
The proportion of heartwood to sapwood in the main stem does vary with species. Black locust, for example, usually has a very narrow band – often less than an inch – of functioning sapwood, whereas maple stems often can have many inches of sapwood and relatively narrow cores of heartwood.
Sapwood is formed due to the cambial activity of the secondary xylem.
Heartwood is formed due to accumulation of different compounds, such as oils gums, and resins, etc.
The oils, resins and colouring materials infiltrate the walls, and gums and resins may fill the lumina of the cells in heart wood.
During the transformation a number of changes occur – all living cells lose protoplasts; water contents of cell walls are reduced; food materials are withdrawn from the living cells; tyloses are frequently formed which block the vessels, the parenchyma walls become lignified; oils, gums, tannins, resins and other substances develop in the cells.
Sapwood performs the physiological activities, such as conduction of water and nutrients, storage of food, etc.
The function of heartwood is no longer of conduction, it gives only mechanical support to the stem.
The heartwood part of a tree is also far more susceptible to fungus than the centre of the trunk.
Heartwood contains far less moisture than sapwood and will have far less shrinkage when it’s dried.
The sapwood in the centre of the tree dies, forming heartwood, and as the cells die they release chemicals that change the colour of the wood, as well as making the wood stronger and more resistant to attack by insects.
Recombination DNA Technology (Nucleic Acid Hybridization )
Sapwood and Heartwood
1. Assignment
Plant Anatomy
Topic
Sapwood and Heartwood
Submitted to: Sir Ghulam Sarwar
Submitted by: Areej Fatima
Roll No:27, Session: 2013-2017
B.S (HONS.) Botany
Department of Life Sciences
The Islamia University of Bahawalpur
2. Sapwood and Heartwood
Definitions of Sapwood and Heartwood
Sapwood:
“When a tree is young, certain cells within the wood are
alive and capable of conducting sap or storing nutrients, and
the wood is referred to as sapwood. The sapwood also termed
as Alebernum.”
Heartwood:
“Heartwood also called duramen. Dead central wood of
trees. As new sapwood is formed under the bark, the inner sap
wood changes to heartwood. In the wood under going this
change the living cells die.”
3. Maple tree and Black locust tree cross section
The sapwood in the centre of the tree dies, forming
heartwood, and as the cells die they release chemicals that
change the colour of the wood, as well as making the wood
stronger and more resistant to attack by insects.
4. Structure and Development of Sapwood and
Heartwood
• Sapwood is new wood and is like a pipeline which
moves water through the tree up to the leaves.
• The sapwood is lighted colored and formed of living
cells associated with vessels and fibers.
• Sapwood commonly ranges from 4 to 6 cm (1-1/2 to 2
in.) in radial thickness.
• Many second-growth trees of merchantable size
consist mostly of sapwood.
5. • Heartwood consists of inactive cells that do not function in
either water conduction or food storage.
• The compounds (including resins, phenols, and terpenes,
sometimes referred to as extractives) not only help make
heartwood more resistant to attack by insects and decay
organisms but also tend to give this inner portion of the stem
a distinctive darker color.
• The proportion of heartwood to sapwood in the main stem
does vary with species. Black locust, for example, usually
has a very narrow band – often less than an inch – of
functioning sapwood, whereas maple stems often can have
many inches of sapwood and relatively narrow cores of
heartwood.
7. • Sapwood is formed due to the cambial activity of the
secondary xylem.
• Heartwood is formed due to accumulation of different
compounds, such as oils gums, and resins, etc.
• The oils, resins and colouring materials infiltrate the walls,
and gums and resins may fill the lumina of the cells in heart
wood.
• During the transformation a number of changes occur – all
living cells lose protoplasts; water contents of cell walls are
reduced; food materials are withdrawn from the living cells;
tyloses are frequently formed which block the vessels, the
parenchyma walls become lignified; oils, gums, tannins, resins
and other substances develop in the cells.
9. Functions of Sapwood and Heartwood
• Sapwood performs the physiological activities, such as
conduction of water and nutrients, storage of food, etc.
• The function of heartwood is no longer of conduction, it
gives only mechanical support to the stem.
• The heartwood part of a tree is also far more susceptible to
fungus than the centre of the trunk.
• Heartwood contains far less moisture than sapwood and
will have far less shrinkage when it’s dried.
• The sapwood in the centre of the tree dies, forming
heartwood, and as the cells die they release chemicals that
change the colour of the wood, as well as making the wood
stronger and more resistant to attack by insects.
10. Economic Importance of Heartwood and
Sapwood
• Heartwood, as timber, is more durable than sapwood,
because the reduction of food materials available for
pathogens by the absence of protoplasm and starch.
• The haematoxylin is obtained from the heartwood
of Haematoxylin campechianum. Because of the
absence of resin, gums and colouring substances.
• Sap wood is preferred for pulpwood, and for wood to
be impregnated with preservatives.