1.0 Appendix. Appendix A In-stream LWD Data Collection Sheet In Stream LWD Data Collection Stream Site: Coordinates:x y Crew: Date: Dia-4.
|
|
- Jade Sanders
- 5 years ago
- Views:
Transcription
1 1.0 Appendix Appendix A In-stream LWD Data Collection Sheet In Stream LWD Data Collection Stream Site: Coordinates:x y Crew: Date: Shot ID-1 Shot Id-2 Shot Id-3 Shot Id-4 Tagid LWD Criteria Dia-1 (cm) Dia-2 (cm) Dia-3 (cm) Dia-4 (cm) Decay Submers ion Function Input Mech Stability Species Notes LWD Criteria: L (Log); R (Root); J (Jam); LR (Log and Rootwad) Decay (Decay Class): 1 - Early (new addition / solid); 2 - Medium (Bark Somewhat Intact, Some Moss); 3 - Late (No Bark, Moss, Soft) Sub (Submersion / Burial): 1 - Lower 1/3 of Channel; 2 - Middle 1/3 of Channel; 3 - Upper 1/3 of Channel Funct (Function): P (Pool); R (Riffle); B (Bank Stabil.); S (Sediment); D (Dam); N (None) Input (Input Mechanism): S (Saw); B (Beaver); E (Erosion); F (Fire); D (Disease); W (Wind); T (Transport); LS (Landslide); M (Mortality) Stab (Stability): 1 - greater than bankfull; 2 - Anchored / Buried; 3 - Braced by other pieces; 4 - Greater tham wetted width; 5 - Loose Spc's: Please input species type if identifiable
2 Appendix B Stream Cross-section Data Collection Sheet Channel Characteristics - Measured at every 20m or stream channel change. Distance from Start ID Rip left 30m ID BFW left ID WW left ID Rip right 30m ID BFW right Id WW right ID BFD ID WWD Valley Width (m) Confine ment Valley Type D (cm) Substrate Median Size Thalweg (m) Stream Angle Notes Appendix C Thalweg Profile Data Collection Sheet Segment: Station Thalweg ID Bottom Phab: THALWEG PROFILE & WOODY DEBRIS FORM-STREAMS Channel Unit Codes THALWEG PROFILE Bar Width Increment (m) (PP) Pool, Plunge (PL) Pool, Lateral Scour (PD) Pool, Impoundment Soft/Small Thalweg ID Wetted Width (m) Channel Pool Form Side Channel (X Sediment (X Flag COMMENTS Surface (XX.X) Unit Code Code for Yes) for Yes) X (XX.X) (PT) Pool, Trench (GL) Glide (RI) Riffle (RA) Rapid (CA) Cascade (FA) Falls (DR) Dry Channel Pool Form Codes (N) Not a pool (W) Large Woody Debris (R) Rootwad (B) Boulder or bedrock (F) Unknown, fluvial (O) Other (note in comments)
3 Appendix D LWD Spatial Distribution (a) Bellevue Creek Fire Site
4 (b) Deeper Creek Fire Site
5 (c) Goode Creek Fire Site
6 (d) Greata Creek Old-Growth / Control
7 (e) Jack Creek Old-Growth / Control Site
8 (f) McDougall Creek Old-Growth / Control Site
9 Appendix E Photos of Study Sites (a) Fire Site Goode Creek (b) Fire Site Goode Creek
10 (c) Old-Growth / Control Site Greata Creek (d) Old-Growth / Control Site Jack Creek
11 Appendix F Thalweg Profiles for Fire Sites Bellevue Creek Thalweg Profile Elevation (m) Distance (m) Deeper Creek Thalweg Profile Elevation (m) Distance (m) Goode Creek Thalweg Profile Elevation (m) Distance (m)
12 Appendix G Thalweg Profiles for Old-Growth / Control Sites Greata Creek Thalweg Profile Elevation (m) Distance (m) Jack Creek Thalweg Profile Elevation (m) Distance (m) McDougall Creek Thalweg Profile Elevation (m) Distance (m)
13 Appendix H LWD Attribute Tables for All Six Creeks (a) Bellevue Creek Fire Site Tag_link N2 E2 V2 Tag_ID Lwd_crit Dia1 Dia2 Decay Sub Func Input Stab Spcs Length Volume Avg_dia A001 L N T,F 5 Uk A002 L N T,F 5 Uk A003 L N F 3 Uk A005 L N F 2 Uk A007 L N F 5 Alder A006 L S F 2 Uk A008 L N F 2 Uk A011 L N F,T 5 Fd A012 L N F 1 Ac A014 L N F 1 Uk A016 LR N M,W 1 Dr A018 L N F 5 Uk A019 L N Uk 3 Willow A020 L N F 5 Uk A021 LR N F 3 Fd A023 L N M 3 Alder A024 L N M 3 Alder A022 L S T 2 Uk A026 L N T 5 Uk A027 L N F 2 Fd A029 L SWD M 5 Fd A031 L SWD F 3 Uk A032 L SWD F 3 Uk A033 L N T 3 Uk Field Descriptions: Tag_link The foreign key to attach attribute data to spatial data. N2 Northing (y) Coordinate. E2 Easting (x) Coordinate. V2 Elevation. Tag_ID Tag number of the piece of LWD. LWD_crit The type of LWD. Dia1 Diameter of the first end. Dia2 Diameter of the second end. Decay The decay state of the LWD. Sub The submersion level of the piece of LWD. Func What function the LWD performs. Input How the piece of LWD was inputted in the stream. Stab What the stability is of the piece of LWD. Spcs The species type of the LWD. Length The length of the piece of LWD. Volume The volume of the piece of LWD. Avg_dia The average diameter of the piece of LWD.
14 (b) Deeper Creek Fire Site Tag_link N2 E2 V2 Tag_ID Lwd-criter Dia1 Dia2 Decay Sub Func Input Stab Spcs Length Volume Avg_dia A001 L N F 1 Uk A003 L N T,F 2 Uk A004 L S T,F 2 Uk A005 LR S,PP F 2 Uk A007 L B F 2 Uk A009 L B F,T 3 Uk A010 L S F 2 Uk A011 L N F,T 2 Uk A012 L SWD,LWD,S F 2 Uk A014 L N F,T 5 Uk A015 L N F,T 5 Uk A017 LR N F 2 Uk A019 L N F 3 Uk A020 LR N F 1 Uk A022 LR D F 3 Uk A026 L S,PP F 2 Uk A027 L N F 3 Uk A025 L S,PP F 2 Uk A030 L N F 2 Uk A031 L S,PP F 2 Uk A032 LR N F 2 Uk A035 LR N F 2 Uk A038 LR N F 1 Uk A039 L N F 1 Uk A041 L N F 3 Uk A042 L B F 2 Uk A045 L B F 2 Uk A044 L B F 2 Uk A046 L S,SWD F 2 Uk A052 L N F 5 Uk A052 L N F 5 Uk A052 L N F 5 Uk A053 LR S,PP F 2 Uk A054 L N F 3 Uk A055 LR N F 1 Uk A061 L N F 5 Uk A062 L N F 5 Uk A063 L S,SWD F 2 Uk A065 L S,SWD F 2 Uk A059 L N F 5 Uk A066 L N F 2 Uk
15 (c) Goode Creek Fire Site Tag_link N2 E2 V2 Tag_ID Lwd_criter Dia1 Dia2 Decay Sub Func Input Stab Scs Length Volume Avg_dia A005 LR ,3 SWD F 3 Uk A006 L N F 4 Uk A007 L N T 5 Uk A008 L ,2,3 SWD M 2 Dr A009 L S,SWD F,T 2 Uk A010 L ,3 N F 1 Alder A012 LR ,2 S F 2 Uk A013 L N F 1 Uk A014 L N F 1 Uk A015 L N F,M 2 Dr A016 L SWD Uk 3 Uk A017 L ,2 N F 3 Uk A019 L B F,T 2 Uk A020 L ,3 N F 2 Uk A021 L ,3 S,SWD F 2 Uk A022 L N F 1 Ac A024 L N F 1 Uk A025 LR ,3 N F,E 5 Uk A028 L B F 2 Uk A029 L B F 2 Uk A030 L N F 5 Uk A031 LR N F 1 Fd A032 L ,2,3 SWD F 2 Dr A034 L N F 4 Uk A035 LR ,3 B F 2 Dr A036 L N F 2 Br A038 L N F 2 Uk A040 L ,2,3 S F 2 Uk A042 L ,2,3 S,SWD F 2 Ac A043 L S,SWD F 2 Ac A044 L N F 3 Uk A045 L N F 3 Uk A046 LR ,2 S F 2 Uk A047 LR ,2 S F 2 Uk A048 L N F 5 Uk A049 L ,3 N F 3 Dr A051 L ,2 S,B F 2 Uk A052 L ,2 SWD,S F 2 Uk A053 L ,2 S,B UK 2 Uk A054 L N F 2 Uk A055 L N F 1 Uk
16 (d) Greata Creek Old-Growth / Control Site Tag_link N2 E2 V2 Tag_ID Lwd_criter Dia1 Dia2 Decay Sub Func Input Stab Spcs Length Volume Avg_dia A001 LR N M 1 Dr A003 L N W 2 Dr A005 LR N T,E 3 Uk A006 L B Uk 2 Uk A007 LR S,SWD M 2 Dr A009 L N T,E 2 Dr A010 L N M 1 Dr A012 L N M 4 Dr A014 L S,SWD Uk 2 Uk A015 L S,SWD Uk 2 Uk A015 L S,SWD Uk 2 Uk A016 L B,SWD M 3 Dr A017 L B Uk 2 Uk A018 L S,SWD Uk 2 Uk A019 L S,SWD Uk 2 Uk A020 L S Uk 2 Uk A021 L N T,E 5 Uk A022 L SWD,B Uk 4 Uk A024 L N T 5 Uk A025 LR S Uk 2 Uk A026 L N T 3 Uk A027 L B Uk 2 Uk A028 L N T 5 Uk A029 L B Uk 2 Uk A030 L N T 5 Uk A031 L N T 5 Uk A032 L SWD,B M 3 Dr A033 L S M 2 Dr A034 LR S,SWD Uk 2 Dr A035 LR N M 3 Dr A037 L N M 3 Dr A038 L N M 5 Dr A039 L S Uk 2 Uk A040 L N T 5 Uk A041 L N T 5 Uk A043 L B E 4 Dr A045 L N T 3 Uk A046 L N T 3 Uk A047 L N T 3 Uk A048 L N E,M 5 Dr A049 L N M 1 Dr A050 L N Uk 5 Dr A051 L N M 1 Dr A053 L N M 5 Dr A055 L N M 2 Uk A056 L S T 2 Dr A057 L N Uk 3 Dr A058 L S Uk 2 Uk A059 L B,S Uk 2 Uk A060 L B Uk 2 Uk A061 L S Uk 2 Uk A062 L N M 1 Dr A064 L B T 2 Uk A065 L B Uk 2 Uk A066 L N Uk 2 Uk A068 L N T 3 Uk A069 L S,SWD Uk 2 Uk A070 L S,SWD Uk 2 Uk A071 L SWD Uk 3 Fd
17 (e) Jack Creek Old-Growth / Control Site Tag_link N2 E2 V2 Tag_ID Lwd_criter Dia1 Dia2 Decay Sub Func Input Stab Scs Length Volume Avg_dia A001 LR N M 1 Dr A002 L N T 5 Uk A003 L N Uk 1 Dr A005 L N T 5 Uk A006 L B Uk 2 Uk A007 L B,S Uk 2 Uk A008 L B Uk 2 Uk A009 L B,S Uk 2 Uk A011 L B Uk 2 Uk A012 L B,SWD Uk 2 Uk A013 L LWD Uk 2 Dr A014 L LWD.S M 2 Dr A015 L LWD.S M 2 Dr A016 L S,SWD T 2 Uk A017 L B,S Uk 2 Uk A019 L S,SWD M 2 Bl A020 L S,SWD M 2 Bl A022 L N T 5 Uk A023 L B,SWD Uk 2 Uk A025 L S,B Uk 2 Uk A027 L S,B Uk 2 Ep A028 L S,B M 2 Ep A029 L S,SWD M 2 Ep
18 (f) McDougall Creek Old-Growth / Control Site Tag_link N2 E2 V2 Tag_ID Lwd_criter Dia1 Dia2 Decay Sub Func Input Stab Scs Length Volume Avg_dia A001 L N T 5 Uk A002 L S,PP Uk 2 Cw A003 LR B E 2 Uk A004 L N Uk 2 Uk A005 LR S,SWD T 2 UK A006 L S,SWD M 1 Cw A008 L B Uk 3 Uk A009 L SWD,S T 2 Uk A010 L SWD,S M 2 Cw A011 L S,B T 2 Birch A012 L SWD T 5 Uk A013 L SWD T 3 Uk A014 L B Uk 2 Uk A015 L N Uk 2 Uk A017 LR B E 2 Uk A B E 2 Uk A019 L N Uk 2 Uk A021 L B Uk 2 Uk A022 L S S 2 Uk A023 L S Uk 2 Uk A024 L S U 2 Uk A025 L N M 3 Birch A027 LR B E 2 Uk A028 L S,B Uk 2 Uk A029 L S Uk 2 Uk A030 L N Uk 3 Birch A033 L N Uk 3 Uk A034 L N Uk 3 Birch A035 L S,B F 2 Cw A037 L S Uk 2 Uk A038 L S Uk 2 Uk A039 L S T 3 Uk A040 L B E,S 2 Cw A041 L B Uk 2 Uk A042 L N Uk 1 Cw A043 L B Uk 2 Uk A044 L B Uk 2 Uk A045 L S Uk 2 Dr A046 L N S 3 Uk A047 L S,SWD Uk 2 Uk A048 L S,SWD Uk 2 Uk A050 L N Uk 3 Uk A051 L N Uk 3 Uk A052 L B,S Uk 2 Uk A053 L S Uk 2 Uk A054 L N Uk 4 Cw A055 L N Uk 3 Uk A057 L N Uk 3 Cw A058 L B,S E 2 Uk A059 L S Uk 2 Uk A060 LR S Uk 2 Uk A061 L S,LWD,B Uk 2 Uk A062 L B Uk 2 Uk A064 L B Uk 2 Uk A066 L N T 3 Uk A067 L N T 3 Uk A068 L S,LWD T 2 Uk A069 L N T 3 Uk A070 L D Uk 2 Uk A071 L D Uk 2 Cw
19 (f) McDougall Creek Old-Growth / Control Site cont d Tag_link N2 E2 V2 Tag_ID Lwd_criter Dia1 Dia2 Decay Sub Func Input Stab Scs Length Volume Avg_dia A072 L N T 5 Fd A073 L B Uk 2 Uk A074 L S,B Uk 2 Uk A075 L D Uk 3 Uk A076 L D Uk 2 Uk A077 L D M 2 Cw A078 L N T 5 Uk A079 LR D E,T 3 Uk A080 L D T 3 Uk A081 L D T 3 Uk A082 L D T 3 Uk A083 LR S,D F 2 Uk A084 L D Uk 2 Uk A085 L D T 3 Uk A086 L S,SWD T 3 Uk A087 LR B,S E 2 Uk A088 L B Uk 2 Uk A089 LR B E,M 2 Uk A090 L B Uk 2 Uk A091 L S,B Uk 1 Cw A093 L N Uk 1 Uk A095 L B Uk 2 Uk A096 L B Uk 2 Uk A097 LR N M 1 Cw A099 L B Uk 2 Uk A103 L S,SWD M 3 Cw A104 L N M 3 Cw A107 L S,B E 2 Cw
DETAILED DESCRIPTION OF STREAM CONDITIONS AND HABITAT TYPES IN REACH 4, REACH 5 AND REACH 6.
DETAILED DESCRIPTION OF STREAM CONDITIONS AND HABITAT TYPES IN REACH 4, REACH 5 AND REACH 6. The Eklutna River was divided into study reaches (figure 1) prior to this site visit. Prominent geologic or
More informationODFW AQUATIC INVENTORY PROJECT OREGON PLAN FOR SALMON & WATERSHEDS STREAM RESTORATION HABITAT REPORT
ODFW AQUATIC INVENTORY PROJECT OREGON PLAN FOR SALMON & WATERSHEDS STREAM RESTORATION HABITAT REPORT STREAM: BASIN: SURVEY TYPE: Munson Creek (NC-342) Tillamook River Post-Tx DATE: February 2, 28 SURVEY
More informationODFW AQUATIC INVENTORY PROJECT OREGON PLAN FOR SALMON & WATERSHEDS STREAM RESTORATION HABITAT REPORT
ODFW AQUATIC INVENTORY PROJECT OREGON PLAN FOR SALMON & WATERSHEDS STREAM RESTORATION HABITAT REPORT STREAM: BASIN: SURVEY TYPE: South Sister Creek (U-5) Smith River Pre-Tx DATE: January 7, 4 SURVEY CREW:
More informationREACH 1 T37S-R14W-S07NW
OREGON DEPT. FISH AND WILDLIFE HABITAT INVENTORY Report Date: 3//3 Survey Date: 7/3/ REACH T37S-R4W-S7NW REACH Valley and Channel Summary Narrow Valley Floor Steep V-shape Moderate V-shape Open V-shape
More informationAppendix E Rosgen Classification
Appendix E Stream Type s Using the morphometric parameters described above, stream reaches are classified into 7 major stream types (Aa+ through G) based on s (1996) criteria. The relevant stream classifications
More informationODFW AQUATIC INVENTORY PROJECT RESTORATION MONITORING STREAM HABITAT REPORT. Peggy Kavanagh, Trevan Cornwell TOLEDO SOUTH Coast Range Lora Tennant
ODFW AQUATIC INVENTORY PROJECT RESTORATION MONITORING STREAM HABITAT REPORT STREAM: GCG: 2-MC SITE ID: 489 BASIN: YAQUINA TREATMENT DATE: 24 SURVEY DATE: 2/27/24 SURVEY CREW: USGS MAPS: ECOREGION: REPORT
More informationODFW AQUATIC INVENTORY PROJECT STREAM REPORT
ODFW AQUATIC INVENTORY PROJECT STREAM REPORT STREAM: BASIN: South Fork Mill Creek Mill Creek / Columbia River DATES: September 7 9, 5 SURVEY CREW: REPORT PREPARED BY: Brian Bangs / LaNoah Babcock Staci
More informationODFW AQUATIC INVENTORY PROJECT STREAM REPORT
ODFW AQUATIC INVENTORY PROJECT STREAM REPORT STREAM: BASIN: Basin Creek Willow Creek DATE: July 9 3, 9 SURVEY CREW: REPORT PREPARED BY: USGS MAPS: ECOREGION: Nicole Bushey / Emily Zimmermann Staci Stein
More informationGeomorphic Importance of Winter Peak Flows and Annual Snowmelt Hydrographs in a Sierra Nevada Boulder-Bedrock River
Geomorphic Importance of Winter Peak Flows and Annual Snowmelt Hydrographs in a Sierra Nevada Boulder-Bedrock River Scott McBain and Bill Trush McBain & Trush, Inc. Clavey River and Cherry Creek vicinity
More informationAppendix G. Meso-Habitat Surveys. DRAFT Annual Technical Report
Appendix G Meso-Habitat Surveys DRAFT Annual Technical Report Draft March 2010 1.0 Introduction 1 2 3 4 5 6 1.0 Introduction The following appendix includes a report provided by the California Department
More informationChannel Morphology in Carnation Creek: 2009 Survey Results
Research Branch BC Ministry of Forests Channel Morphology in Carnation Creek: submitted to: Dan Hogan BC Ministry of Forests Rm 315 2202 Main Mall Vancouver B.C. V6T 1Z4 prepared by: Stephen Bird White
More information7.1 COMPONENTS OF THE HABITAT CHARACTERIZATION 7.2 HABITAT SAMPLING LOCATIONS WITHIN THE SAMPLING REACH 7.3 LOGISTICS AND WORK FLOW 7
7 PHYSICAL HABITAT CHARACTERIZATION...97 7.1 COMPONENTS OF THE HABITAT CHARACTERIZATION...101 7.2 HABITAT SAMPLING LOCATIONS WITHIN THE SAMPLING REACH...103 7.3 LOGISTICS AND WORK FLOW...105 7.4 THALWEG
More informationCR AAO Bridge. Dead River Flood & Natural Channel Design. Mitch Koetje Water Resources Division UP District
CR AAO Bridge Dead River Flood & Natural Channel Design Mitch Koetje Water Resources Division UP District Old County Road AAO Bridge Map courtesy of Marquette County Silver Lake Basin McClure Basin
More informationMISSION CREEK WATERSHED (2002 Report Year 4)
Stream Channel Monitoring Program for the MISSION CREEK WATERSHED (2002 Report Year 4) (Penticton Forest District) Prepared for RIVERSIDE FOREST PRODUCTS LTD. Prepared by DOBSON ENGINEERING LTD. #4, 1960
More informationState of the River: Geomorphic Structure. Josh Wyrick, Ph.D. UC Davis
State of the River: Geomorphic Structure Josh Wyrick, Ph.D. UC Davis 1 Geomorphic Structure Methodology Data Collection (topography, rating curve, hydraulics, substrate, vegetation & cover) GIS-Based Analyses
More informationWhy Geomorphology for Fish Passage
Channel Morphology - Stream Crossing Interactions An Overview Michael Love Michael Love & Associates mlove@h2odesigns.com (707) 476-8938 Why Geomorphology for Fish Passage 1. Understand the Scale of the
More informationMay 7, Roger Leventhal, P.E. Marin County Public Works Laurel Collins Watershed Sciences
May 7, 2013 Roger Leventhal, P.E. Marin County Public Works Laurel Collins Watershed Sciences Background Funded in 2009 under EPA 2100 Grant for $30k and managed by SFEP Project Goals: Update original
More informationODFW AQUATIC INVENTORY PROJECT STREAM REPORT. Jennifer Bock / Eric Evans / LaNoah Babcock HUC NUMBER: LLID:
ODFW AQUATIC INVENTORY PROJECT STREAM REPORT STREAM: BASIN: South Fork Dixie Creek Burnt River DATES: July 6, September 3-7, SURVEY CREW: REPORT PREPARED BY: Jennifer Bock / Eric Evans / LaNoah Babcock
More informationRapid Geomorphic Assessments: RGA s
Establishing Current Reference Conditions Rates and concentrations of suspended-sediment transport vary over time and space due to factors such as precipitation characteristics and discharge, geology,
More informationYUBA COUNTY WATER AGENCY
YUBA COUNTY WATER AGENCY Representative Site Selection Above Englebright Reservoir Stream Fish, Aquatic BMI, Aquatic Mollusks Yuba County Water Agency Yuba River Development Project FERC Project No. 2246
More informationRiparian Assessment. Steps in the right direction... Drainage Basin/Watershed: Start by Thinking Big. Riparian Assessment vs.
Riparian Assessment vs. Monitoring Riparian Assessment What is a healthy stream? Determine stream/riparian health Determine change or trend, especially in response to mgmt Classification = designation
More informationMay Creek Canyon LWD Stream Restoration Project. Helicopter Placement of LWD in an Urban Stream. By Kathryn Neal, P.E.
Helicopter Placement of LWD in an Urban Stream By Kathryn Neal, P.E. May Creek Canyon LWD Stream Restoration Project By Kathryn Neal, P.E. Project proponents: King County City of Renton City of Newcastle
More informationLong Valley Meadow Restoration Project
Long Valley Meadow Restoration Project USDA Forest Service Mogollon Rim Ranger District Coconino National Forest Coconino County, Arizona T13N, R9E, Section 12 and T13N, R10E, Sections 6 and 7 Gila and
More informationLittle Blackfoot TPA 2009 Sediment and Habitat Assessment QAQC Review March 9, 2010
Little Blackfoot TPA 2009 Sediment and Habitat Assessment QAQC Review March 9, 2010 1.0 PROJECT OVERVIEW Sediment and habitat monitoring in the Little Blackfoot TPA was conducted in July of 2009 as outlined
More informationStream Classification
Stream Classification Why Classify Streams? Communication Tool Describe Existing Conditions & Trends Describe Restoration Goals Research Tool Morphologic Stream Classification Systems Schumm (1977) Alluvial
More informationFish Passage at Road Crossings
Fish Passage at Road Crossings 1 Crossing Design Workshop Outline 1:00 to 2:00 Intro, Design Overview, Channel Width 2:00 to 2:15 Break 2:15 to 3:15 No-Slope, Stream Simulation Design 3:15 to 3:30 Break
More informationAppendix F Channel Grade Control Structures
Stream Simulation Appendix F Channel Grade Control Structures This appendix briefly describes permanent grade control structures that are sometimes needed in the upstream and/or downstream reaches adjacent
More informationVermont Stream Geomorphic Assessment. Appendix J. Vermont Regional Hydraulic Geometry Curves
Vermont Stream Geomorphic Assessment Appendix J Vermont Regional Hydraulic Geometry Curves River Management Program Vermont Water Quality Division November, 2001 Natural Resources - J0 - VT Agency of Background
More informationPolyMet NorthMet Project
RS 26 Draft-01 December 8, 2005 RS26 Partridge River Level 1 Rosgen Geomorphic Survey Rosgen Classification Partridge River from Headwaters to Colby Lake Prepared for PolyMet NorthMet Project December
More informationNORTHUMBERLAND COUNTY, PA
QUAKER RUN Stream and Wetland Restoration As-Built Completion Report and First Year Monitoring Data Coal Township NORTHUMBERLAND COUNTY, PA Upstream Before Upstream After Prepared for: COAL TOWNSHIP 805
More informationAssignment 1. Measuring River Characteristics- Vernon Creek. Applied Fluvial Geomorphology Field Techniques EESc 435
Assignment 1 Measuring River Characteristics- Vernon Creek Applied Fluvial Geomorphology Field Techniques EESc 435 Amanda Jardine 30100093 Jaime McDonald 14177083 Erica Massey 50870088 April 28, 2012 Introduction
More informationFluvial Driven Alluvial Fans
Fluvial Driven Alluvial Fans Restoration Project Evaluations - Examples from the Russian and Napa River Watersheds Mia Docto Masters Thesis UC Berkeley 1. Basic Fan Description 2. Fluvial Driven Fan Characteristics
More informationHabitat Assessment. Peggy Compton UW-Extension Water Action Volunteers Program Coordinator
Habitat Assessment Peggy Compton UW-Extension Water Action Volunteers Program Coordinator Adapted from a presentation by Jean Unmuth, Water Quality Biologist, WI DNR dnr.wi.gov www.uwex.edu erc.cals.wisc.edu
More informationGeomorphic Assessment of City Center Athletic Club Development Impacts on Existing Stream Channel Stability, Lenexa, KS.
Ozarks Environmental and Water Resources Institute (OEWRI) Geomorphic Assessment of City Center Athletic Club Development Impacts on Existing Stream Channel Stability, Lenexa, KS. Final report to Olsson
More informationStep 5: Channel Bed and Planform Changes
Step 5: Channel Bed and Planform Changes When disturbed, streams go through a series of adjustments to regain equilibrium with the flow and sediment supply of their watersheds. These adjustments often
More informationADDRESSING GEOMORPHIC AND HYDRAULIC CONTROLS IN OFF-CHANNEL HABITAT DESIGN
ADDRESSING GEOMORPHIC AND HYDRAULIC CONTROLS IN OFF-CHANNEL HABITAT DESIGN Conor Shea - Hydrologist U.S. Fish and Wildlife Service Conservation Partnerships Program Arcata, CA Learning Objectives Examine
More informationhttp://water.usgs.gov/waterwatch/ Stream Flow Measurement: Velocity-Area method Stream discharge = Q = U * A Q = volumetric flow rate in [L 3 T -1 ] U= average stream velocity [L 2 T -1 ] A = cross sectional
More informationGeomorphic Assessment of the Middle and Lower Swan Lake Watershed, Calhoun Division of Two Rivers National Wildlife Refuge.
Geomorphic Assessment of the Middle and Lower Swan Lake Watershed, Calhoun Division of Two Rivers National Wildlife Refuge Report Figures 33 34 Figure 1. Location of Middle and Lower Swan Lake watersheds
More informationDan Miller + Kelly Burnett, Kelly Christiansen, Sharon Clarke, Lee Benda. GOAL Predict Channel Characteristics in Space and Time
Broad-Scale Models Dan Miller + Kelly Burnett, Kelly Christiansen, Sharon Clarke, Lee Benda GOAL Predict Channel Characteristics in Space and Time Assess Potential for Fish Use and Productivity Assess
More informationFlood and Stream Restoration
2 3 4 Pedestrian bridge under construction 3 CSPs perched on DS side Large area of sand deposition Bottom layer of gabions has been scoured out large bar of gabion stone Gabions slumping bank slope failure
More informationAPPENDIX 4B FOOTHILL YELLOW-LEGGED FROG SURVEY DATASHEETS AND STANDARD OPERATING PROCEDURES (BASED ON SELTENRICH AND POOL,
APPENDIX 4B FOOTHILL YELLOW-LEGGED FROG SURVEY DATASHEETS AND STANDARD OPERATING PROCEDURES (BASED ON SELTENRICH AND POOL, 2002) February 2004 PacifiCorp Foothill Yellow-Legged Frog Klamath River Visual
More informationFluvial Geomorphology
Geomorphic Components of Riparian Ecosystems W. Barry Southerland, Ph.D. Fluvial Geomorphologist, CPESC #514 West National Technology Support Center Water Quality and Quantity Technology Development Team
More informationField Methods to Determine/ Verify Bankfull Elevation, XS Area & Discharge
Module # 6 Field Methods to Determine/ Verify Bankfull Elevation, XS Area & Discharge Iowa s River Restoration Toolbox Level 1 / Base Training Overview of Basic Field Data Collection Site Map Cross Sections
More informationUpper Mississippi River Basin Environmental Management Program Workshop
Presentation to the Upper Mississippi River Basin Environmental Management Program Workshop by Michael Rodgers River Engineer US Army Corps of Engineers, St. Louis District August 17, 2007 Engineering
More informationAppendix E Methods for Streambed Mobility/Stability Analysis
Stream Simulation Appendix E Methods for Streambed Mobility/Stability Analysis This appendix provides background on the use and limitations of several sediment entrainment equations that are the most practical
More informationSite Card Field Guide
Of British Columbia Reconnaissance (1:20,000) Fish and Fish Habitat Inventory Site Card Field Guide March 1999 Authority: Reconnaissance (1:20,000) Fish and Fish Habitat Inventory: Standards and Procedures,
More informationAddressing the Impact of Road-Stream Crossing Structures on the Movement of Aquatic Organisms
Scott Jackson University of Massachusetts Amherst Addressing the Impact of Road-Stream Crossing Structures on the Movement of Aquatic Organisms Dams Sub-standard Culverts Excessive Velocities Inlet Drop
More informationReconnaissance (1:20,000) Fish and Fish Habitat Inventory: Site Card Field Guide
Reconnaissance (1:20,000) Fish and Fish Habitat Inventory: Site Card Field Prepared by Ministry of Environment Ecosystems Branch for the Resources Inventory Standards Committee April 2008 Version 2.0 Acknowledgments
More informationRosgen Classification Unnamed Creek South of Dunka Road
Rosgen Classification Unnamed Creek South of Dunka Road Prepared for Poly Met Mining Inc. September 2013 Rosgen Classification Unnamed Creek South of Dunka Road Prepared for Poly Met Mining Inc. September
More informationDesign and Construction
Design and Construction Stream Simulation With power point slides shamelessly stolen from: Forest Service AOP Training Course Bob Gubernick Paul Anderson John Kattell USDA Forest Service Interim Directive
More information!"#$%&&'()*+#$%(,-./0*)%(!
8:30 Sign in Hoosic River Revival Coalition!"#$%&&'()*+#$%(,-./0*)%(! 12-#30+4/#"5-(60 9:00 Welcome and Introductions 9:15 Goals for Today s Program: A Description of the Planning Process 9:30 First Session:
More informationAPPENDIX A REACH DECRIPTIONS. Quantico Creek Watershed Assessment April 2011
APPENDIX A REACH DECRIPTIONS Basin 615, South Fork of Quantico Creek - Project Reach Descriptions Reach Name: 615-A Coordinates (NAD 83, Virginia State Plane North): 11796510.57, 6893938.95 to 11801555.79,
More informationAppendix 5 Fluvial Geomorphological Detailed Information
Appendix 5 Fluvial Geomorphological Detailed Information PARISH geomorphic Date: 3-Jun-8 Site: VG-R2 Crew: Location: Richmond, Ottawa Weather Description: rain Recorder: FORM / GEOMORPHIC INDICATOR PRESENT?
More informationAlluvial Stratigraphy in Otsego County
Alluvial Stratigraphy in Otsego County Butternut Creek, 10/1/2010 A view from the river Les Hasbargen October 14, 2010 Overview Acknowledgements: Damon Matteson, Emily Carroll, Cindy Klink, Emmon Johnson
More informationGravel Transport Study Report for Energy Northwest's Packwood Lake Hydroelectric Project FERC No Lewis County, Washington
Final Gravel Transport Study Report for Energy Northwest's Packwood Lake Hydroelectric Project FERC No. 2244 Lewis County, Washington Submitted to P.O. Box 968 Richland, Washington 99352-0968 Submitted
More informationHAW CREEK, PIKE COUNTY, MISSOURI-TRIB TO SALT RIVER ERODING STREAM THREATHENING COUNTY ROAD #107, FOURTEEN FT TALL ERODING BANK WITHIN 4 FT OF THE
HAW CREEK, PIKE COUNTY, MISSOURI-TRIB TO SALT RIVER ERODING STREAM THREATHENING COUNTY ROAD #107, FOURTEEN FT TALL ERODING BANK WITHIN 4 FT OF THE ROAD, PROJECT CONSTRUCTED IN 1 DAY, MARCH 10, 2009 BY
More informationAttachment D. Technical Memorandum, Susitna River Large Woody Debris Reconnaissance (March 2013)
Attachment D Technical Memorandum, Susitna River Large Woody Debris Reconnaissance (March 2013) Technical Memorandum Susitna River Large Woody Debris Reconnaissance Susitna- Watana Hydroelectric Project
More informationThe how, why, and lessons learned
The how, why, and lessons learned emulates natural river systems integrates fluvial processes over temporal and spatial scales of self-formed and self-maintained natural rivers reestablish the physical,
More informationAppendix III-A Descriptions of Channel Habitat Types
Appendix III-A Descriptions of Channel Habitat Types Table of Contents Channel Habitat Typing Background... 3 Small Estuarine Channel (ES)... 7 Large Estuarine Channel (EL)... 9 Low Gradient Large Floodplain
More informationPR206 NARRATIVE Updated 16 June 2015
PR206 NARRATIVE Updated 16 June 2015 Cross section PR206 was established in 1977 in a fairly straight reach of Powder River about a kilometer downriver of the Highway 212 bridge at Broadus. The section
More informationImportant Copyright Information
Important Copyright Information The following content is provided for educational purposes by the workshop presenter. This content may or may not have been peer reviewed. Information, opinions and recommendations
More informationGLG598 Surface Processes and Landform Evolution K. Whipple Fall 2012 VERDE RIVER: FLOW MECHANICS, ROUGHNESS, AND SHEAR STRESS
VERDE RIVER: FLOW MECHANICS, ROUGHNESS, AND SHEAR STRESS This lab will introduce you to some common field techniques and some general understanding of the geomorphic processes operating in a stream. The
More informationSquaw Creek. General Information
General Information is a tributary to the Salmon River. It enters the north side of the river about 0 miles downstream of North Fork, Idaho. The study reach is about a 30 ft length of stream about 2 miles
More informationSusitna-Watana Hydroelectric Project (FERC No ) Geomorphology Study Study Plan Section Study Implementation Report.
(FERC No. 14241) Geomorphology Study Study Plan Section 6.5 2014-2015 Study Implementation Report Prepared for Prepared by Tetra Tech Watershed GeoDynamics October 2015 TABLE OF CONTENTS 1. Introduction...
More informationFine sediment in pools: an index of how sediment is affecting a stream channel
R-5 Fish Habitat Relationship Technical Bulletin Number 6 December 1991 O Fine sediment in pools: an index of how sediment is affecting a stream channel Tom Lisle Sue Hilton Redwood Sciences Laboratory
More informationEstimating Stream Gradient Using NHD Stream Lines and DEM Data
Estimating Stream Gradient Using NHD Stream Lines and DEM Data David Nagel, John M. Buffington, and Daniel Isaak U.S. Forest Service, Rocky Mountain Research Station Boise Aquatic Sciences Lab Boise, ID
More informationCase Study 14. Rocky Creek Vented Box Culvert Ford
Case Study. Rocky Creek Vented Box Culvert Ford Location West Central Arkansas. Ouachita National Forest; Oden Ranger District. Rocky Creek crossing on Forest Road 887 (Muddy Gibbs Road). Crossing Description
More informationElevation (ft) Slope ( ) County CONDITION CATEGORY. Parameter Natural Condition Slightly impacted Moderately Impacted Heavily Impacted
Version: 8/25/14 Meadow Name Date : / / MM DD YYYY GPS Location:. N. W GPS Datum (e.g., WGS 84, NAD 27) Elevation (ft) Slope ( ) County Watershed (HUC8) Landowner USGS Quad Name Observers: 7.5 or 15 (circle
More informationBusiness. Meteorologic monitoring. Field trip? Reader. Other?
Business Meteorologic monitoring Field trip? Reader Other? Classification Streams Characterization Discharge measurements Why classify stream channels? Why Classify Stream Channels? Provides a common language
More informationHydrologic hazards can be considered in three categories; An indication of flooding potential for areas located
4.0 General Hydrologic Design Critera 4.1 Hydrologic Hazards Hydrologic hazards can be considered in three categories; flooding, channel migration, and tributary stajility. An indication of flooding potential
More informationStream Geomorphology. Leslie A. Morrissey UVM July 25, 2012
Stream Geomorphology Leslie A. Morrissey UVM July 25, 2012 What Functions do Healthy Streams Provide? Flood mitigation Water supply Water quality Sediment storage and transport Habitat Recreation Transportation
More informationGLG598 Surface Processes and Landform Evolution K. Whipple VERDE RIVER: FLOW MECHANICS, ROUGHNESS, AND SHEAR STRESS
VERDE RIVER: FLOW MECHANICS, ROUGHNESS, AND SHEAR STRESS This lab will introduce you to some common field techniques and some general understanding of the geomorphic processes operating in a stream. The
More informationWhy Stabilizing the Stream As-Is is Not Enough
Why Stabilizing the Stream As-Is is Not Enough Several examples of alternatives to the County s design approach have been suggested. A common theme of these proposals is a less comprehensive effort focusing
More informationBlack Gore Creek Total Maximum Daily Load Sediment Source Monitoring 2007 Vail Pass, Colorado
Black ore Creek Total Maximum Daily Load Sediment Source Monitoring 2007 Vail Pass, Colorado The photograph above shows the Black ore Creek channel at Mile Marker 183.5 Prepared for: Eagle River Watershed
More informationA Guide To Interpreting Stream Survey Reports. Scott C. Foster Charles H. Stein Kim K. Jones. Edited by Patricia A. Bowers
A Guide To Interpreting Stream Survey Reports Scott C. Foster Charles H. Stein Kim K. Jones Edited by Patricia A. Bowers Aquatic Inventories Project Natural Production Program Oregon Department of Fish
More informationBlack Gore Creek Total Maximum Daily Load Sediment Source Monitoring 2008 Vail Pass, Colorado. Prepared for: Eagle River Watershed Council
Black Gore Creek Total Maximum Daily Load Sediment Source Monitoring 2008 Vail Pass, Colorado Prepared for: Eagle River Watershed Council Prepared by: RiverRestoration.org I. Introduction This document
More informationAPPENDIX E Geomorphic Channel Surveys. October 2004
APPENDIX E October 2004 Tessera Consulting Gretchen E. Hayes In association with Sonoma Ecology Center Elisabeth Micheli Cynthia Rossi Rebecca Lawton Contents Objective... E-1 Methods... E-1 Preparation...
More informationStream Simulation: A Simple Example
Stream Simulation: A Simple Example North Thompson Creek, CO Paul T. Anderson U.S.D.A. Forest Service Here s How We Started May 2011 2-1 USDA-Forest Service Here s How We Finished Forest Service Aquatic
More informationGeomorphology Studies
Geomorphology Studies Technical Workgroup Meeting February 14, 2012 Prepared by: Tetra Tech Prepared for: Alaska Energy Authority Overall Goal Geomorphology Studies Two studies Geomorphology Study (RSP
More informationUPPER KETTLE CREEK FISH HABITAT CONSERVATION PLAN TRIBUTARIES ADDENDUM
UPPER KETTLE CREEK FISH HABITAT CONSERVATION PLAN TRIBUTARIES ADDENDUM For: Kettle Creek Watershed Association and Trout Unlimited March 2005 1000 Commerce Park Drive Williamsport, PA 17701 Phone (570)
More informationSession C1 - Applying the Stream Functions Pyramid to Geomorphic Assessments and Restoration Design
University of Massachusetts - Amherst ScholarWorks@UMass Amherst International Conference on Engineering and Ecohydrology for Fish Passage International Conference on Engineering and Ecohydrology for Fish
More informationSECTION G SEDIMENT BUDGET
SECTION G SEDIMENT BUDGET INTRODUCTION A sediment budget has been constructed for the for the time period 1952-2000. The purpose of the sediment budget is to determine the relative importance of different
More informationTenmile Lakes Delta Building Study
Tenmile Lakes Delta Building Study Since the late 1940 s, Tenmile Lakes has seen a sharp increase in sediment accumulation at the mouths of the tributaries that feed the lake. To monitor this sediment
More informationSALMONID HABITAT ASSESSMENT UPPER MILLER CREEK
SALMONID HABITAT ASSESSMENT UPPER MILLER CREEK GRADY RANCH, MARIN COUNTY, CALIFORNIA July 2011 Prepared for: Skywalker Properties Ltd. 5858 Lucas Valley Road Nicasio, California 94946 Prepared by: WRA,
More informationImplementing a Project with 319 Funds: The Spring Brook Meander Project. Leslie A. Berns
Implementing a Project with 319 Funds: The Spring Brook Meander Project Leslie A. Berns "...to acquire... and hold lands... for the purpose of protecting and preserving the flora, fauna and scenic beauties...
More informationWoodstock, Route 26 Stream Relocation Project
MAINE DEPARTMENT OF TRANSPORTATION 2006 POST - CONSTRUCTION MONITORING REPORT: Woodstock, Route 26 Stream Relocation Project Year 1 of 5 Compensation for the Woodstock, Route 26 Highway Reconstruction
More informationTom Glass, B.S. Whitman College Sarah Wasssmund, B.S. Humboldt State University Edgar Verdin, B.S. Portland State University Kelsi Lakey, B.S.
Tom Glass, B.S. Whitman College Sarah Wasssmund, B.S. Humboldt State University Edgar Verdin, B.S. Portland State University Kelsi Lakey, B.S. Washington State University Overview 1. Background 2. History
More informationTom Ballestero University of New Hampshire. 1 May 2013
Tom Ballestero University of New Hampshire 1 May 2013 1 Hydrology 2 Basic Hydrology Low flows most common Flows that fill the stream to the banks and higher are much less common Filling the stream to the
More informationQUANTIFICATION OF STREAM CHANNEL MORPHOLOGICAL FEATURES: Recommended Procedures For Use In Watershed Analysis and TFW Ambient Monitoring
89 TFW-AM9-96-006 QUANTIFICATION OF STREAM CHANNEL MORPHOLOGICAL FEATURES: Recommended Procedures For Use In Watershed Analysis and TFW Ambient Monitoring Prepared by: Carlos Ramos Department of Geology
More informationChapter Five. Synopsis
Chapter Five Synopsis .0 Proposed Level Assessments. Prioritization of Level Assessments. Recommended Level P Locations.3 Level RAPP Locations 5 & Mosley Creek & RA.0 Proposed Level Assessments Based on
More informationBackground of project Project objective Quartz Creek Probability of movement Accumulations OSU Streamwood Conclusion Acknowledgement
Wood in Streams Jon Gillick, Greg Reeb, Vu Do Outline Background of project Project objective Quartz Creek Probability of movement Accumulations OSU Streamwood Conclusion Acknowledgement Wood is Dynamic
More informationBlack Gore Creek Sediment Source Monitoring and TMDL Sediment Budget
Black Gore Creek 2012 Sediment Source Monitoring and TMDL Sediment Budget Prepared for: The Eagle River Watershed Council Prepared By: RiverRestoration.org - I. Introduction Interstate 70 is a major highway
More informationValley Segments, Stream Reaches, and Channel Units
Elsevier US 0mse02 24-2-2006 6:21p.m. Page No: 23 CHAPTER 2 Valley Segments, Stream Reaches, and Channel Units Peter A. Bisson, John M. Buffington, and David R. Montgomery Pacific Northwest Research Station
More informationChannel Assessments of Selected Watersheds within TFL 52
Channel Assessments of Selected Watersheds within TFL 52 prepared for: West Fraser Mills Ltd. Quesnel, BC prepared by: John Berry, M.Sc., R.P.F. Victoria, BC Channel Assessments TFL 52 Summary SUMMARY
More informationSELBY CREEK STREAM HABITAT RESTORATION AND RIPARIAN REVEGETATION PROJECT: GEOMORPHIC ANALYSIS AND REVIEW
SELBY CREEK STREAM HABITAT RESTORATION AND RIPARIAN REVEGETATION PROJECT: GEOMORPHIC ANALYSIS AND REVIEW Submitted to Bioengineering Institute P.O. Box 1554 Laytonville, CA 95454 By Matthew O Connor, PhD,
More informationBlack Gore Creek 2013 Sediment Source Monitoring and TMDL Sediment Budget
Black Gore Creek 2013 Sediment Source Monitoring and TMDL Sediment Budget Prepared for: Prepared By: - I. Introduction The Black Gore Creek Total Maximum Daily Load (TMDL) was developed in collaboration
More informationAttachment A: I. Background and Analysis
Attachment A: I. Background and Analysis A. Existing Land Use and Existing and Ultimate Development Hydrology Figure 1: Vicinity Map Figure 1A: Location Map Table 1: Summary of Watershed Land Use Areas
More informationField Observations and One-Dimensional Flow Modeling of Summit Creek in Mack Park, Smithfield, Utah
Intermountain Center for River Rehabilitation and Restoration, Utah State University 31 July 2018 Field Observations and One-Dimensional Flow Modeling of Summit Creek in Mack Park, Smithfield, Utah I.
More informationBest Management Practices for Coldwater Fisheries Enhancement and Restoration
Best Management Practices for Coldwater Fisheries Enhancement and Restoration MACC Annual Environmental Conference 2017 March 3, 2017 Tim Dexter, MassDOT Highway Division 1 Leading the Nation in Transportation
More informationCFD Modeling for Structure Designs in Environmental Impacts Mitigation
CFD Modeling for Structure Designs in Environmental Impacts Mitigation June 05 Navid Nekouee, Hugo Rodriguez and Steven Davie Environmental Impact Mitigation Design Savannah Harbor Expansion Project (SHEP)
More information