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Transcript of Measuring and Modeling Cumulative Watershed...
![Page 1: Measuring and Modeling Cumulative Watershed …bofdata.fire.ca.gov/board_committees/monitoring_study...Measuring and Modeling Cumulative Watershed Effects Lee H. MacDonald, Drew Coe,](https://reader031.fdocuments.net/reader031/viewer/2022022008/5ae3a7ca7f8b9ad47c8e9a6e/html5/thumbnails/1.jpg)
Measuring and Modeling Cumulative Watershed Effects
Lee H. MacDonald, Drew Coe, and Sam Litschert
College of Natural ResourcesColorado State University
Fort Collins, CO
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Acknowledgements
Eldorado National Forest
U.S.D.A. Forest Service
California Department of Forestry
National Council for Air and Stream Improvement
Many others . . . .
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Definition of Cumulative Effects from NEPA
“Cumulative impact is the impact on the environment which results from the incremental impact of the action when added to other past, present, and reasonably foreseeable future actions regardless of what agency (Federal or non-Federal) or person undertakes such other actions. Cumulative impacts can result from individually minor but collectively significant actions taking place over a period of time.”
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“Federal agencies have struggled with preparing cumulative effects analyses since CEQ issued its regulations in 1978…Court
cases…have added little in the way of guidance and direction”
(CEQ, 1997, p.4)
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Overall Goal and Direction
• Use field measurements and existing data to formulate, calibrate, and--to the extent possible--validate procedures for assessing and predicting cumulative watershed effects on small catchments (10-100 km2);
• Concerned with both changes in runoff and changes in sediment production;
• Emphasis is on changes in sediment production because this is believed to be more important and more amenable to study;
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Overall Goal and Direction
• Focus is on measuring and predicting sediment production and delivery at the hillslope scale, as catchment-scale measurements difficult, expensive, and integrate different processes and activities;
• Initial work has concentrated on public and private lands in the Central Sierra Nevada, but now expanding our work to the Sierra and LassenNational Forests;
• Methods, process-based understanding of the controlling factors, and modeling approaches should be more widely applicable.
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Continuum of Approaches for Assessing Cumulative Effects
Qualitative, low cost,
more uncertainty, less explicit
Quantitative, high cost,
less uncertainty, more explicit
Checklists IndicesConceptual/ empirical models
Detailed models (e.g., GeoWEPP, SEDMOD2, DHSVM)
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Reid (1993) noted that:
“When methods originate from management agencies, they tend to be simple, incomplete, theoretically unsound, unvalidated, implementable by field personnel, and heavily used.
Methods developed by researchers are more likely to be complex, incomplete, theoretically sound, validated, require expert operators, and unused.” (p. 35)
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Limitations of Current USFS Region 5 Cumulative Effects Procedure (Equivalent
Roaded Area, or ERA)
• Lumped conceptual model;
• Doesn’t explicitly separate changes in flow from changes in sediment;
• Excessively long recovery curves;
• Little validation at site or watershed scale.
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Methods: Sediment Production
• Using sediment fences to collect and weigh sediment to nearest 0.1 kg;
• Measure site characteristics (contributing area, percent cover, rainfall erosivity, soil type, slope, etc.);
• Develop and test sediment production models.
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0
5
10
15
20
25
30
35
40
Roads Harvest units Harvested zero-order basins
OHV Fire Minimallydisturbed
Fence Type
Num
ber
of F
ence
s M
onito
red
1999-20002000-20012001-2003
Number of Sediment Fences by Land Use and Year (nearly 400 fence-years)
2
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Sediment Production: 1999-2000S
edim
ent P
rodu
ctio
n (k
g/m
2 )
0
1
2
3
4
5
R o a d s H a r v e s t O f f - R o a dV e h ic l e s
F i r e M i n im a l l yD i s t u r b e d
n = 3 0
n = 3 8
n = 7n = 1 8
n = 3
Sed
imen
t Pro
duct
ion
(kg/
m2 )
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Sediment Production from Different Fire Severities: 1999-2000 Wet Season
0
5
10
15
20
25
Low-Severity Prescription Fire 8 Year Old High-Severity Fire 1st Year High-Severity
Fire Severity
Sed
imen
t Pro
duct
ion
(t ha
-1 y
r-1)
n=13 n=2
n=3
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Cumulative Precipitation at Pacific House (1036 m)
0
200
400
600
800
1000
1200
1400
36434 36465 36496 36527 36558 36589 36620 36651 36682
Date
Cum
ulat
ive
prec
ipita
tion
(mm
)
1999-2000
2000-2001
2001-2002
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Snow Water Equivalent for RobbsPowerhouse (1570 m)
0
50
100
150
200
250
300
350
400
450
36434 36465 36496 36527 36558 36589 36620 36651 36682 36713
Date
Sno
w w
ater
equ
ival
ent
(mm
)
1999-20002000-20012001-2002
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Mean Daily Discharge by Wet Season for the Michigan Bar Gage, Cosumnes River
0
50
100
150
200
250
300
350
36434 36465 36496 36527 36558 36589 36620 36651
Date
Mea
n da
ily d
isch
arge
(m3/
s)
1999-2000
2000-2001
2001-2002
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8345610572001-2002
984418902000-2001
25284712901999-2000
Max. Storm Erosiv.(MJ mm ha-1 hr-1)
Annual Erosivity(MJ mm ha-1 hr-1)
Wet Season
Annual Precipitation
(mm)
Erosivity
Annual Precipitation, Annual Erosivity, and Maximum Storm Erosivity for Three Wet Seasons
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Recovery in Sites Burned at High Severity: Pendola Fire
02468
101214161820
1999-2000 2000-2001 2001-2002Wet Season
Sed
imen
t Pro
duct
ion
(t ha
-1 y
r-1)
Fence 88Fence 89
Fence 90
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Sediment Production vs. Area*Slope for Native Surface Roads: 1999-2000 Wet Season
R2 = 0.55p = 0.009
0200400600800
1000120014001600
0 20 40 60 80 100 120 140 160 180 200
Area * Slope
Sed
imen
t Pro
duct
ion
(kg)
Graded Roads
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Sediment Production vs. Area * Slope for Graded and Ungraded Native Surface Roads:
2000-2001 Wet Season
R2 = 0.56p = 0.02
0
100
200
300
400
500
600
0 50 100 150 200
Area * Slope
Sed
imen
t Pro
duct
ion
(kg)
Ungraded
GradedUngraded
Wet Season Traffic
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Sediment Production vs. Area * Slope for Ungraded and Graded Roads: 2001-2002 Wet Season
GradedR2 = 0.42
p < 0.0001
UngradedR2 = 0.65p = 0.003
0100200300400500600700800
0 20 40 60 80 100 120 140 160 180 200
Area * Slope
Sed
imen
t Pro
duct
ion
(kg)
Ungraded
Graded
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0
0.5
1
1.5
2
2.5
3
3.5
4
1999-2000 2000-2001 2001-2002
Sed
imen
t p
rod
uct
ion
(kg
/m2)
Ungraded native surface roads
Graded native surface roads
Insloped native surface roads w ith ditches
Rocked roads
Magnitude and Interannual Variability in Sediment Production Rates by Road Type and Road Surface
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Field-measured Road Sediment Production vs. WEPP Predictions for Insloped and
Outsloped Roads
0
5
10
15
20
25
30
35
Fence 52 (Outsloped) Fence 4 (Outsloped) Fence 11 (Insloped w/Ditch)
Fence 13 (Insloped w/Ditch)
Sed
imen
t Pro
duc
tion
(kg/
m2 )
1999-2000
2000-2001
WEPP (Rain)
WEPP (Snow)
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Does sediment production matter if it doesn’t reach the stream network?
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Road Segment Connectivity Classes
• Connectivity Class 1: no signs of gullying or sediment transport below outlet;
• Connectivity Class 2: gullies or sediment plumes <20 m in length;
• Connectivity Class 3: gullies or sediment plumes >20 m in length, but more than 10 m from stream channel;
• Connectivity Class 4: gullies or sediment plumes to within 10 m of a stream channel.
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Percentage of Road Segments by Connectivity Class (n=285 segments)
0
10
20
30
40
50
60
ConnectivityClass One
ConnectivityClass Two
ConnectivityClass Three
ConnectivityClass Four
Per
cent (
%)
n=139
n=81
n=20
n=45
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Sediment Production from Skid Trails by Year and Years Post-harvest
0
1
2
3
4
5
6
1 2 3 9 10 11Years Post Harvest
Sed
imen
t Pro
duct
ion (t
ha-1
yr-1
)
1999-2000
2000-2001
n=18
n=7
n=14
n=20n=2 n=2 n=2
n=3
n=3n=8
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Measured Sediment Production Rates vs. Values Predicted using WEPP:
Burned and Harvested Sites
0
2
4
6
8
10
12
14
16
18
20
Fire 88 (high-severit y) Fire 89 (high-severit y) Fence 67 ( low-severit y) Fence 65 (skid) Fence 1 (skid)
1999-2000
WEPP (Rain)
WEPP (Snow)
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Modeling Goals• Explicitly separate changes in flow from changes
in sediment yields;
• Calculate changes on a catchment scale (approx. 10-100 km2) using spatially-explicit procedures;
• Sum effects from multiple activities;
• Modular approach to allow for additional land uses and different predictive algorithms;
• Allow users to select magnitude of change and rate of recovery;
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Modeling Goals (2)
• Use input data from existing GIS layers (e.g., harvest, fires, roads, streams, DEMs);
• Transparent to user;
• Look-up tables for data from scientific literature;
• Readily usable by forest resource specialists;
• Help users evaluate uncertainty and sensitivity by allowing user to change model coefficients and predictive modules.
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Modules Being Developed
• DELTA-Q: Calculates changes in low, median, and high flows from forest management and fires; now being distributed;
• SEDPROD: Calculates sediment production from forest harvest, roads, and fires; nearly ready for beta testing;
• SEDELIVERY: Calculates sediment delivery to stream network and downstream travel rates to reach of interest.
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Predicting Changes in Flow
• No paired watershed data for the Sierra;
• Analysed changes in selected flow percentiles from 26 paired-catchmentexperiments by comparing pre- and post-treatment flow duration curves;
• Adjusted flow duration curve on treated basin for changes in flow observed from the control basin.
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H.J.Andrews watershed 2 daily hydrograph 1952 - 1954
0
20
40
60
80
100
120
1952100119531001
1954100119551001
Date
Dis
char
ge (c
fs /
sq m
ile)
H.J.Andrews watershed 2 flow duration curve 1952-54
0
5
10
15
20
25
0 10 20 30 40 50 60 70 80 90
%
CFS
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Pre- and Post-treatment FDCs
0.01
0.10
1.00
0% 20% 40% 60% 80% 100% 120%
Percent of time equal to or less than discharge
Dis
char
ge (L
s-1 H
a-1)
A (7 yrs pre)
A (3 yrs post)
B (7 yrs pre)
B (3 yrs post)
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Absolute Change in Flow
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
0 10 20 30 40 50 60 70 80 90 100
Percent of time less than or equal to discharge
Abs
olut
e ch
ange
(L s
-1 H
a-1)
Peak flow data
Median
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Percent Change in Flow
-50
0
50
100
150
200
250
300
350
400
0 10 20 30 40 50 60 70 80 90 100
Percent of time less than or equal to discharge
Per
cent
cha
nge
Peak flow data
Median
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Absolute Change in Flow Over Time
-0.05
0.00
0.05
0.10
0.15
0.20
0.25
0 20 40 60 80 100 120
Percent of time less than or equal to discharge
Abs
olut
e ch
ange
(L s
ha
)
1st interval
2nd interval
3rd interval
4th interval
5th interval
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Percent Change in Flows Over Time
-20
-10
0
10
20
30
40
50
60
70
80
90
0 20 40 60 80 100 120
Percent of time less than or equal to discharge
Perc
ent c
hang
e
1st interval
2nd interval
3rd interval
4th interval
5th interval
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Inputs: Outputs:
“Activity” spatial layer. Required fields include fire severity or harvest type
Absolute or percent changein runoff by activity type
Watershed spatial layer to select area of interest
Number of years to hydrologic recovery
Years to simulate: beginning and ending
DELTA-Q module
Table of runoff changes summarized by year for each layer
Table of cumulative effects by year from multiple activity layers.
Repetition of module for different activity layers enables user to calculate changes in flow by aggregation.
Schematic of Delta-Q Module
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where:D(Q) = total change in flow (cfs or percent) in the watershed being
modeled;i = polygon identification number; m = total number of affected polygons;x (i) = years since activity in area i;n = number of years to full hydrologic recovery; A (i) = area (m2) of activity;AWS = area of watershed.d(q) = is the change in runoff in absolute (cfs/mi2) or percentage
terms for each activity or polygon.
)(*)(
*)(
1)(1
qdAWS
iAnix
QDm
i�
= ��
���
� −= )(*)(*)(
1)(1
qdiAnix
QDm
i�
=��
���
� −=
Percent Absolute
Equations for Predicting Absolute and Percent Change in Flow
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Cumulative Effects Model: Delta-Q Module User Interface
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Choose activity item and input values Continue to input form 2
Delta-Q Module: First input form
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Choose activity item and input values
View database for help with input values slide
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View database of 26 paired watershed studies for help with input values
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Delta-Q module: second main
input form
Display results table
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Display Results Table
Accumulate values and show results
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Accumulate Values and Show Results
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Predicted Change in 99th Flow Percentile: Dry Creek, 1980-2000
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.819
80
1982
1984
1986
1988
1990
1992
1994
1996
1998
2000
Years
DG
(cfs
/mi2
)
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Big Hill Watershed : Modeled Change in Peak Flows
0
5
10
15
20
25
1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005
Year
% C
han
ge
in F
low
0
0.5
1
1.5
2
2.5
3
Un
reco
vere
d a
rea
of
acti
vity
(mi2
)
Fire
Harvest
Area oftreatmentsArea of Fire
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“Activity” spatial layer. Required fields include year of activity and type of activity.
Controlling factor spatial layer, (e.g. soil type, fire severity, road and slope)
Watershed spatial layer to select area of interest
Number of years to recovery
Years to simulate: beginning and ending
SEDPROD module
SEDPROD grids for years modeled.
Inputs: Outputs:
Background or undisturbed sediment production rate
Table of sediment production summarized by year
Repetition of module for different activity layers enables user to calculate maximum sediment production. Outputs are grids and summary table.
Schematic of SEDPROD Module
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Creating Activity Layers
• Combining fire, plantation, and all sales layers results in 2,093 polygons for our 14 planning watersheds;
• Layer can be simplified by lumping silviculturaltreatments.
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Soils Are Lumped to Reduce Complexity of Land Cover Layer
Lumping silvicultural treatments and soil types reduces the number of polygons from 30,000 to 1,500.
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where:SP = Total sediment production in the watershed being modeled;Sp_cf = Sediment production for each type of controlling factor,
e.g.soil type. Yrs = Years since activity Yrs_hr = Years to full recovery;
cfsphrYrs
YrsSP _*
_1 �
�
���
� −=
For each raster cell, calculations are based the number of years since the altering activity, the number of years until full hydrologic recovery, and the sediment production by controlling factor.
Equation for SEDPROD Module
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Predicting Road Surface Erosion:GIS-based Approach
• Variety of tools: Empirical models, Road-WEPP, or SEDMOD2;
• Road gradients can be derived by overlapping the roads data layer with a DEM, but this will generate some bias;
• Should adjust for road surface treatments and types (grading, rocking, drainage class), but this requires detailed field data;
• High interannual variability.
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Use of Field vs. GIS-based Data
0
0.2
0.4
0.6
0.8
1
0 50 100 150 200Area * Slope
% F
ew
er
Than
Field surveyed road segments
GIS predicted
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Predicted Sediment Production:Dry Creek, 1980-2000
0500
10001500200025003000350040004500
1980
1982
1984
1986
1988
1990
1992
1994
1996
1998
2000
Years
Sed
imen
t (t/y
r)
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Determining the validity and sensitivity of the predicted CWEs
• Compare predictions with past and current data (where available);
• Conduct a sensitivity analysis;
• Internal and external peer reviews.
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Pool Infill Volume vs. Predicted Sediment Production
R2 = 0.47p = 0.002
R2 = 0.62p = 0.004
0
5
10
15
20
25
30
35
40
0 50 100 150 200 250 300
Annual sediment production (t)
Poo
l inf
ill v
olum
e (m
3 )
Less than 20% graniticMore than 20% graniticLess than 20% graniticMore than 20% granitic
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Most assessment procedures are more useful on a relative than absolute scale due to:
• Imperfect landscape knowledge;
• Problems of quantifying cause-and-effect relationships;
• Inability to validate complex models.
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Constraints on CWE Modeling
• Limited amounts of data from Sierra Nevada (and elsewhere!);
• Will never have data to calibrate all anthropogenic and natural disturbances on all sites;
• Generally will need to aggregate activities and site characteristics for modeling;
• Difficult to characterize non-linearities in processes, and the many interactions among site factors and management activities;
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Constraints on CWE Modeling - 2
• Limited understanding of sediment delivery from hillslopes and through stream networks;
• Completeness of GIS layers;
• Accuracy of GIS layers;
• Changes in flow and sediment need to be related to designated beneficial uses and water quality standards (which in turn may be controversial or uncertain);
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Constraints on CWE Modeling - 3
• Modeling changes in sediment much more complex than changes in flow due to problems of delivery as a function of channel morphology, discharge, particle size, etc.;
• Developing robust, user-friendly interface more time consuming than developing model algorithms.
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Alternative to Modeling isAdaptive Management
• Basic idea is that one monitors past and current activities;
• Problems are identified, and management changes are initiated to prevent similar problems in future;
• Suggested as a more flexible, cost-effective alternative to “excessive” regulation.
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Adaptive Management: Limitations
• Requires regular monitoring and rapid feedback to management decisions;
• Requires ability to rapidly detect change;
• Resource must be highly responsive to changes in management;
• Minimal persistence of adverse effects.
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Next Steps
• Collect existing data from published and unpublished USFS studies in Region 5;
• Initiate studies in other areas using sediment fences to document sediment production and delivery rates;
• Evaluate road connectivity in other areas (e.g., higher rainfall, steeper vs. flatter terrain, different soil/geologic types);
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Next Steps• Evaluate sediment production and delivery
from fires (Cesium-137? increase in channel density and size? sediment fences?);
• Construct sediment budgets for several small watersheds in conjunction with the Kings River Watershed Project, Sierra N.F.;
• Complete and distribute SEDPROD;
• Add/modify DELTA-Q in response to users;
• Develop and disseminate SEDDELIVERY model.
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Help Needed!!
• Construct and monitor sediment production from landslides, roads, etc. (we can help install sediment fences, but can’t monitor);
• Evaluate connectivity between roads, harvest units, and fires (OR suggest sites for us to evaluate);
• Provide feedback on Delta-Q.
(do I really want to get involved on the North Coast??)
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Conclusions
• Management-induced changes in sediment usually more important than changes in flow;
• Unpaved roads, high-severity fires, and mass movements are dominant sources of sediment in forested areas;
• Very high variability between sites and between years;
• Most roads are not connected to streams except at stream crossings;
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Conclusions (2)
• Relatively few sites contribute most of the sediment to the stream network;
• Need improved models to assess and predict cumulative watershed effects;
• Model calculations and predictions are just that; empirical models sensitive to the data set used for model development;
• Model validation difficult at both site and watershed scale;
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Conclusions (3)• Adaptive management may not be a viable
approach for cumulative watershed effects because of long lags in response, long recovery periods, difficulty of detecting change, and difficulty of relating observed change(s) to specific management actions;
• Implication is that we should focus on minimizing the effects of each action at the local scale;
• Monitoring is essential to evaluating the effect of management actions and ensuring sound resource management.
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My question to you:
If we’re not monitoring the effects of our actions (or inactions), can we really claim to be managing the resources of concern?
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Questions?