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Ash Reduction Model 1" Diameter Class
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Version
1.1a, Tara L.Eberhart, Andrew J. Storer, Linda M. Nagel
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Copyright
Michigan Technological University
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Version 1.1a Input
Requirements
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9/25/2006
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ASH Trees Only
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Trees per Acre
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This information should
be available from stand and stock tables.
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1" Size Class
Increments
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DBH Class "
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No.
Trees/Acre
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% Surface Area
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2
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Retaining Small Trees
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3
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Target Percentages
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4
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Diameter Limit Cut
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5
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99%
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6
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95%
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7
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90%
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8
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75%
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9
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*Cutting all ash down to this size
limit
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10
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11
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12
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Retaining Large Trees
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13
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Target Percentages
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14
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Diameter Limit Cut
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15
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99%
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16
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95%
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17
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90%
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18
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75%
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19
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* Cutting all ash up to
this size limit
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20
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21
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22
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23
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Total
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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 surface area of ash trees in a stand by a
desired amount.
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The bottom
table of Retaining Large Trees is calculated from the same graph as the top
table, with the percent axis reversed.
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580 ash
tree's have had their specific morphology recorded to estimate total surface
area which is a good indicator of total phloem available to emerald ash
borer.
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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. Surface area can be used as an estimate of phloem, a critical
resource, available to
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emerald
ash borer in a stand. Use of this
model in management decisions will reduce the ash resource available to
emerald ash borer
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by a target
percentage and help maintain ash as a component in our forests and its
genetic diversity
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Note:
surface area reduction will reduce the amount of breeding substrate (phloem)
in the stand by a target level,
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thereby
reducing the population potential of eab, not ensuring remaining ash to be
uninfested
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