Post on 11-Jan-2016
description
Use of FVSfor a
Forest-wide Inventory
SPOKANE INDIAN RESERVATION
What I will cover
• Introduction to the Spokane CFI
• Summary data: overall trends• Analysis methods• FVS method• Results of FVS projections• Comparison of methods
Spokane Reservation CFI System
• Established in 1957• Remeasured 5 times since initiated• Last remeasurement done 1998 –
1999• Includes 994 one-fifth(1/5) acre
plots• Commercial forest area of
reservation is about 104,000 acres
Comparison of Measurements: Stocking per acre
Inventory Year
Number of Plots
Basal Area (sq.ft./ac)
Cubic Volume (cu.ft./ac)
Board Volume (bd.ft./ac)
1957 897 NA 1,324 4,478 1963 894 59 1,488 4,995 1969 666 64 1,600 5,509 1974 666 64 1,442 4,840 1985 946* 71 1,758 6,850 1998 991 71 1,856 8,053
Volumes Are Increasing Overall
Stocking Trends: Total Volume, 11" DBH +
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
1974 1985 1998
CFI measurement year
Vo
lum
e p
er a
cre
Cubic -foot volume
Board-foot volume
Stocking Changes 1985 to 1998
Basal Area / acre remained the same
Cubic-foot vol / acre increased 9%
Board-foot vol / acre increased 22%(based on 257-plot sort)
Trends in Board-foot Growth, Harvest & Mortality
0
50
100
150
200
250
300
1974 - 1985 1985 - 1998
Bo
ard
-fe
et/
ac
re/y
ea
r
Growth
Harvest
Mortality
Growth Rates are Slowing, Mortality Increasing
Board-ft Growth, Harvest, and Mortality Changes, 1985 to 1998
Growth rate has decreased 18%
Harvest has increased 31%
Mortality has increased 103%(based on 257-plot sort)
Growth & Mortality by Species, 1985 - 1998
0
20
40
60
80
100
120
140
160
180
Ponderosa Pine Douglas-fi r Lodgepole Pine Western Larch Grand Fir
Bo
ard
-fee
t/ac
re/y
r
Mortality
Net grow th
Growth & Mortality by Species, 1974 - 1985
0
20
40
60
80
100
120
140
160
180
Ponderosa
Pine
Douglas-fi r Lodgepole Pine Western Larch Grand Fir
Bo
ard
-fee
t/ac
re/y
r
Mortality
Net grow th
Trends in Mortality as It Impacts Net Growth
Stand Age Conditions
Distribution of CFI Plots by Stand Age
0
5
10
15
20
25
30
0-19 20-39 40-59 60-79 80-99 100-119 120-139 140+
Stand Age in Years
Pe
rce
nt
of
Plo
ts
Stratification of the Inventory Data
Data were sorted into four groups based on site quality
• Dry Pine: Dry ponderosa pine climax types
• Pine-fir: Ponderosa pine/snowberry & dry Douglas-fir climax types
• Ninebark: Douglas-fir & grand fir /ninebark types
• Wet grand fir: Grand fir/twinflower and wetter
Inventory StrataSpokane Indian Reservation
ANNUAL ALLOWABLE CUT CALCULATIONS
• Austrian Formula – used in 1985 • Area Volume Check Method – used in 1985• Forest Vegetation Simulator Model (FVS) – New method
Austrian Formula Method
Three different alternatives were tried which varied the
target future volumes
Austrian FormulaNo target future volume used
Gross Net
1998 2008 1998 Yr 2045 Volume Per acre Per acre Stratum Net
Analysis Stratum I meas I proj V meas Vpred Adjust AAC AAC Acres AAC
(bf/ac/yr) (bf/ac/yr) (bf/ac) (bf/ac) (bf/ac) (bf/ac/yr) (bf/ac/yr) (MBF/yr)
Dry Pine 68.7 68.3 3,445.5 3,445.5 0.0 68.5 62.0 26,958 1,671.1
Pine-fir 177.9 156.8 8,494.6 8,494.6 0.0 167.3 152.0 41,790 6,354.1
Ninebark 249.8 232.9 11,967.4 11,967.4 0.0 241.3 216.8 16,915 3,667.3
Wet Grand fir 313.7 261.5 12,612.1 12,612.1 0.0 287.6 260.1 17,685 4,600.1
Sum of All Strata 103,348 16,293
Area-Volume Control
Check Method
Summary of results
Stratum Gross AAC
MBF/year Defect %
Net AAC MBF/year
Dry Pine 1,825 9.51 1,651 Pine Fir 6,717 9.13 6,103 Ninebark 3,616 10.17 3,248 Wet Grand Fir 4,601 9.56 4,161 All Strata 17,698 9.57 15,163
FVS Projections
Questions to address through FVS
• What yields are produced simulating current management practices over the next 40 to 50 years?
• Does FVS forecast an increase in mortality that might significantly impact yields?
• Will the current age-class distribution of the forest result in a future down-cycle in harvest yields?
• Can FVS be used to identify the more vulnerable components of the forest as a means to focus harvest in the coming decade?
• Does FVS indicate differing yields on a long-term basis using other alternatives to current management?
Model calibration and adjustments
• Large tree diameter growth (READCORD) • Large tree height growth (FIXHTG) • Regeneration inputs• Mortality (BAMAX)• Mortality (MORTMULT)• Mortality (Western Root Disease Model)
Stratum summary data
Dry Pine Pine-fir Ninebark Wet Grand fir
Habitat Types
Pipo/Stco Pipo/Syal Psme/Phma Psme/Vaca
Pipo/Agsp Psme/Syal Abgr/Phma Abgr/Libo
Pipo/Feid Psme/Caru Abgr/Clun
Pipo/Putr Thpl/Clun
FVS HabTypes
130 170, 310, 320 260 250, 520, 530
Number of 227 390 217 160
Plots 92 GF / 68 LP
Commercial 26,954 41,788 16,914 GF: 10,169
Forest Acres LP: 7,517
FVS Base Parameters by Stratum Dry Pine Pine-fir Ninebark Wet Grand fir
Species Preferences
PP: -2.0 PP: -2.0 PP: -2.0 PP:-2.0
DF: +1.0 WL: -3.0 WL:-2.0 WL:-3.0
WL: -3.0 DF: +1.0 DF:+1.0 DF:+2.0
LP: +3.0 LP:+4.0 LP: 0
GF:+8.0 GF:+6.0
READCORD PP: 0.367 PP: 0.519 PP: 0.651 PP: 0.749
DF: 0.714 WL: 1.084 WL: 0.853 WL: 0.828
DF: 0.946 DF: 0.966 DF: 1.077
LP: 0.566 LP: 0.551 LP: 0.656
GF: 0.793 GF: 0.888
Maximum BA from 1998 CFI
156 245 246 247
BAMAX used 160 220 250 280
MORTMULT PP: 0.55 PP: 1.17 PP: 1.25 PP: 1.142
used WL: 0.35 WL: 0.35 WL: 0.73 WL: 0.551
DF: 0.79 DF: 0.41 DF: 0.51 DF: 0.468
LP: 1.24 LP: 0.74 LP: 1.204
GF: 2.00 GF: 2.00 GF: 1.454
Condition statement criteria• Stand age • Total basal area per acre• Sawtimber basal area per acre• Total number of trees per acre• Number of trees per acre of
saplings and/or pole sizes• Ratio of cubic-foot mortality to
cubic-foot stocking• Stand mistletoe rating • Quadratic mean diameter
Management activities invoked
• Initial input of regeneration • Overstory removal• Precommercial thinning, alt. 1 & 2• First commercial thinning, alt. 1 &
2• Second commercial thinning• Regeneration: Low volume stocking• Regeneration: High mortality• Regeneration: High mistletoe rating • Mature stand maintenance thin
Management options considered
• Regeneration unit size (uneven-aged vs. even-aged)
• Regeneration type, Natural vs. Planted *
• Regeneration density• Precommercial thinning
Combining the FVS projections
• CFI plots were grouped by stratum but projected individually
• Plot projections were combined in the FVSSTAND post-processor to produce a summary for each stratum
• FVSSTAND output tables were read into spreadsheets and expanded by acreages to produce “All Strata” summaries
Results of FVS Projections
Projected changes in board-foot stocking
Dry Pine Stratum
Dry Pine Stratum: FVS Board-foot Stocking
0
2,000
4,000
6,000
8,000
10,000
12,000
1998 2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Bo
ard
-fee
t p
er a
cre
Projected changes in board-foot stocking
Pine-fir Stratum
Pine-Fir Stratum: FVS Board-foot Stocking
0
2,000
4,000
6,000
8,000
10,000
12,000
14,000
1998 2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Bo
ard
-fee
t p
er a
cre
Projected changes in board-foot stockinNinebark Stratum
Ninebark Stratum: FVS Board-foot Stocking
0
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
1998 2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Bo
ard
-fo
ot
Vo
lum
e
Option 1
Option 2
Projected changes in board-foot stocking
Wet Grand fir Stratum
Wet Grand Fir Stratum: FVS Board-foot Stocking
0
5,000
10,000
15,000
20,000
25,000
1998 2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Bo
ard
-fee
t p
er a
cre]
Option 1
Option 2
Projected changes in board-foot stocking
Lodgepole Stratum
Lodgepole Stratum: FVS Board-foot Stocking
0
5,000
10,000
15,000
20,000
25,000
1998 2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Bo
ard
-fo
ot
Vo
lum
e
Option 1
Option 2
All Strata: FVS Board-foot Stocking
0
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
1998 2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Bo
ard
-fee
t p
er a
cre
Option 1
Option 2
Projected changes in board-foot stockingAll strata
Harvest Levels Simulated for All Strata, Option 1
0
1,000
2,000
3,000
4,000
5,000
6,000
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Bo
ard
-fee
t p
er a
cre
All StrataDry PinePine-firNinebarkGrand FirLodgepole
Harvest trends for all strata
Projected changes in harvest yieldsAll strata
All Strata: FVS Projected Harvest Yield
0
5,000
10,000
15,000
20,000
25,000
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Har
vest
in M
BF
Option 1
Option 2
Projected changes in mortality
Dry Pine stratum
Dry Pine Stratum: FVS Projected 10-year Mortality as Percent of Stocking
0
1
2
3
4
5
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Per
cen
t M
ort
alit
y
Projected changes in mortality
Pine-fir stratum
Pine-fir Stratum: FVS Projected 10-year Mortality as Percent of Stocking
0
1
2
3
4
5
6
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Per
cen
t M
ort
alit
y
Projected changes in mortality
Ninebark stratum
Ninebark Stratum: FVS Projected 10-year Mortality as Percent of Stocking
0
1
2
3
4
5
6
7
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Per
cen
t M
ort
alit
y
Option 1
Option 2
Projected changes in mortality
Wet Grand Fir stratum
Wet Grand Fir Stratum: FVS Projected 10-year Mortality as Percent of Stocking
012345678
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Per
cen
t M
ort
alit
y
Option 1
Option 2
Projected changes in mortality
Lodgepole stratum
Lodgepole Stratum: FVS Projected 10-year Mortality as Percent of Stocking
0
2
4
6
8
10
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Per
cen
t M
ort
alit
y
Option 1
Option 2
Projected changes in mortalityAll strata
All Strata: FVS Projected 10-year Mortality as Percent of Stocking
0
1
2
3
4
5
6
2008 2018 2028 2038 2048 2058 2068 2078 2088 2098
Per
cen
t M
ort
alit
y
Option 1
Option 2
Comparison of Methods
Overview of the results
Method AAC (MBF)
Austrian, high target future volume 11,574
Austrian, mid target future volume 13,573
Austrian, future volume unchanged 16,072
Area-volume Check 15,163
FVS, 20-yr average yield 15,368
FVS, 100-yr average yield, Opt. 1 16,797
FVS, 100-yr average yield, Opt. 2 17,527
Conclusions
• FVS estimated a harvest level for the first 20 years that was in line with other AAC computation methods
• FVS estimated a harvest level for the long term that was much higher
• FVS indicated that the dynamic trends of the individual strata may neutralize one another during the transition period to a regulated forest
Conclusions
• FVS projected that wetter sites are prone to increased mortality in the next two decades
• FVS projected higher yields for planting pine & larch vs. natural regen on disease prone sites
I do not change the underlying processes
of growth, and nature’s grip
is tightened on the site
where I have worked.
-Andy Goldsworthy