Ash Reduction Model (Metric)
1 cm Diameter Class
Version 2.0, Tara L.Eberhart, Andrew J. Storer, Linda M. Nagel
Copyright Michigan Technological University
Version 2.0 Input Requirements
4/24/2007
ASH Trees Only
Trees per Hectare
This information should be available from stand and stock tables.
Note: this model version is in METRIC units
1 cm Size Class Increments
DBH Class cm
No. Trees/Hectare
% Surface Area
5
Retaining Small Trees
6
Target Percentages
7
Diameter Limit Cut
8
99%
9
95%
10
90%
11
75%
12
*Cutting all ash down to this size limit
13
14
15
16
17
Retaining Large Trees
18
Target Percentages
19
Diameter Limit Cut
20
99%
21
95%
22
90%
23
75%
24
* Cutting all ash up to this size limit
25
26
27
28
29
30
Summary
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This version of the model serves to show what diameter limit cut would be needed in order to reduce the total of ash phloem basal area in a stand.
32
Over 500 ash trees were measured to find the average phloem width and calculated phloem basal area by diameter class.
33
Phloem is the food source and breeding substrate used by emerald ash borer in ash trees.
34
This model only works with the ash component of a stand regardless of total stand size, other tree species presence, or how much ash there is present.
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Depending on management goals, this model can be used to determine a lower diameter limit cut to retain small trees,
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and an upper diameter limit cut to retain large trees.
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Use of this model in management decisions will reduce the ash resource available to emerald ash borer
39
by a target percentage and help maintain ash as a component in our forests.
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Note: basal area reduction will reduce the amount of phloem in the stand by a target level,
42
thereby reducing the population potential of eab, not ensuring remaining ash to be uninfested.
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48
49
50
51
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53
54
55
56
57
58
Total
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