Tree Rings: Wood Anatomy
VivekChauhan183
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17 slides
Apr 29, 2020
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About This Presentation
wood anatomy: tree rings and their formation.
formation and their anatomy.
Slide Content
“Wood Anatomy of Tree Rings”
VIVEK CHAUHAN
(16091)
VIVEK CHAUHAN
(16091)
Tree growth begins with photosynthesis to produce new
wood when the growing season begins.
wood when the growing season begins.
Trees grow upward and outward (including root tips), but…
… tree growth actually
begins in the crown and
moves downward due to the
growth regulator, auxin.
Like
“melting
wax” !!
… tree growth actually
begins in the crown and
moves downward due to the
growth regulator, auxin.
Like
“melting
wax” !!
Like
“melting
wax” !!
“melting
wax” !!
Meristems:
apical and
lateral
growth
D: cell
division
E: cell
elongation
M: cell
maturation
apical and
lateral
growth
D: cell
division
E: cell
elongation
M: cell
maturation
Meristems:
annual
growth can
also be seen
in the
branching
patterns of
many tree
species (esp.
conifers)
annual
growth can
also be seen
in the
branching
patterns of
many tree
species (esp.
conifers)
When we
dissect the
trunk, we can
see this
annual
incremental
growth, both
upward and
outward.
STEM
ANALYSIS
dissect the
trunk, we can
see this
annual
incremental
growth, both
upward and
outward.
STEM
ANALYSIS
Rings may be locally
absent along the
length of the tree.
absent along the
length of the tree.
Cells leading into the
false ring will
gradually decrease in
size and then
gradually increase
back to earlywood
cells.
false ring will
gradually decrease in
size and then
gradually increase
back to earlywood
cells.
Viewing wood: tangential, radial, and transverse planes. We are
only interested in which of these?
only interested in which of these?
Definitions:
Cambium: the growing (generative) layer between the xylem and phloem.
Xylem: principle strengthening and water conducting tissue of the stem,
roots, and branches.
Phloem: inner bark, principal function to distribute manufactured
foodstuffs.
Bark:dead, outer tissue that protects the cambium from the external
environment and exposure to pathogens and physical injury.
Vessel: the composite, tube-like structure found in hardwoods from the
fusion of cells in a longitudinal column.
Fiber: an elongated cell with pointed ends and a thick or infrequently thin
wall.
Rays: ribbon-shaped tissue extending in a radial direction across the grain
of the wood.
Cambium: the growing (generative) layer between the xylem and phloem.
Xylem: principle strengthening and water conducting tissue of the stem,
roots, and branches.
Phloem: inner bark, principal function to distribute manufactured
foodstuffs.
Bark:dead, outer tissue that protects the cambium from the external
environment and exposure to pathogens and physical injury.
Vessel: the composite, tube-like structure found in hardwoods from the
fusion of cells in a longitudinal column.
Fiber: an elongated cell with pointed ends and a thick or infrequently thin
wall.
Rays: ribbon-shaped tissue extending in a radial direction across the grain
of the wood.
Note the five major portions of the tree trunk.
Phloem (inner bark)
Xylem (wood)
Cambium
Xylem (wood)
Cambium
Role of
heartwood
is…?
Role of
sapwood
is…?
heartwood
is…?
Role of
sapwood
is…?
The Wood Cell:
1. Holocellulose
a. alpha-cellulose (40-50%) = non-soluble =
long-chain polymers (glucose)
b. hemicellulose (20-35%) = readily soluble =
short-chain polysaccharides
2. Lignin (15-35%) –non-carbohydrate materials in
cell wall, very complex chemical structure.
3. Numerous Extractives –can be removed!
a. tannins
b. oils and resins
c. other complex organic compounds
1. Holocellulose
a. alpha-cellulose (40-50%) = non-soluble =
long-chain polymers (glucose)
b. hemicellulose (20-35%) = readily soluble =
short-chain polysaccharides
2. Lignin (15-35%) –non-carbohydrate materials in
cell wall, very complex chemical structure.
3. Numerous Extractives –can be removed!
a. tannins
b. oils and resins
c. other complex organic compounds
Cell
lumen
Cell wall
lumen
Cell wall
THANK YOU..!
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