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Compartmentalization of Decay in Trees

Published byPatience Owens Modified over 7 years ago

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Presentation on theme: "Compartmentalization of Decay in Trees"— Presentation transcript:

1 Compartmentalization of Decay in Trees
CODIT Compartmentalization of Decay in Trees

2 Outer BARK Bark is all the tissue from outer edge of cambium
Protects tree Seals out oxygen Saturates moisture levels in cambium

3 Heartwood Heartwood is chemically altered, nonliving wood in a static state Inner xylem Decay resistant elements are deposited through dying sapwood into heartwood Phenols in angiosperms Resins and terpenes in conifers Not all species form heartwood Some maples have living cells in the center of 3 foot diameter tree

4 heartwood Some species heartwood is not resistant to fungi
Heartwood has no biological function and limited structural Strength primarily comes from outer sapwood

5 CODIT Compartmentalization of decay in trees
Requires energy Discoloration of wood response to microorganisms Decay breakdown of tissue by fungi

6 CODIT Trees is low energy state have diminished capacity to compartmentalize Requires energy

7 CODIT Large cuts expose increased heartwood and sapwood
Pruning reduces photosynthetic tissue In addition to the additional loss of energy to compartmentalize

8 FOUR WALLS OF COMPARTMENTALIZATION
Tree surrounds injury with chemical boundaries Translocates sugars to seal

9 FOUR WALLS OF COMPARTMENTALIZATION
Resists vertical spread by plugging xylem

10 FOUR WALLS OF COMPARTMENTALIZATION
Resists inward spread by depositing chemicals in cells

11 FOUR WALLS OF COMPARTMENTALIZATION
Inhibits lateral spread by activing ray cells to resist decay

12 FOUR WALLS OF COMPARTMENTALIZATION
Forms along the edge of outermost growth increment when tree injured Referred to as barrier zone

13 FOUR WALLS OF COMPARTMENTALIZATION
Reaction zone Walls 1, 2 and 3 Barrier zone Wall 4 The strongest of all four walls

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15 Wall 4 Tree can’t use sugars for new growth
Sugars have difficulty moving across Trap starches and other energy inside tree Can feed organisms that get inside

16 Wall 4 Structurally brittle Ring crack may follow wall 4 around trunk
Radial cracks can form along ray Cracks can become direct pathways into tree

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18 Best Management Practices
Avoid excessive pruning that weakens tree and opens wounds Removing large limb could cause more damage than reducing length Remove the least amount of live branches possible Reduces sugar production and storage capacity

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