Columbia Basin Fish and Wildlife Program Columbia Basin Fish and Wildlife Program
SOW Report
Contract 73977: 2003-007-00 EXP LWR COL RIVER/EST ECO MONITORING (EP)
Project Number:
Title:
Lower Columbia River Estuary Ecosystem Monitoring
Stage:
Implementation
Area:
Province Subbasin %
Columbia River Estuary Columbia Estuary 50.00%
Lower Columbia Columbia Lower 50.00%
Contract Number:
73977
Contract Title:
2003-007-00 EXP LWR COL RIVER/EST ECO MONITORING (EP)
Contract Continuation:
Previous: Next:
70380: 2003-007-00 EXP LWR COL RIVER/EST ECO MONITORING (EP)
  • 77318: 2003-007-00 EXP LWR COL RIVER/EST ECO MONITORING (EP)
Contract Status:
Closed
Contract Description:
Ecosystem Monitoring Program
BPA Project Number:  2003-007-00
CR- 299896
Performance/Budget Period: October 1, 2016 – September 30, 2017

Technical Contact/Project Lead:  Catherine Corbett
Lower Columbia Estuary Partnership
811 SW Naito Parkway, Suite 410
Portland, Oregon  97204
Phone: (503) 226-1565 Ext. 240
Fax:  (503) 226-1580
ccorbett@estuarypartnership.org

Contracting Contact: Tom Argent
Lower Columbia River Estuary Partnership
811 SW Naito Parkway, Suite 410
Portland, Oregon  97204
Phone: (503) 226-1565 Ext. 242
Fax:  (503) 226-1580
targent@estuarypartnership.org

BPA Project Manager:  Anne Creason-- changing to Siena Lopez-Johnston
KEWL-4, Bonneville Power Administration
905 NE 11th Avenue
Portland, Oregon  97208
Phone:  (503) 230-3859
amcreason@bpa.gov

SUMMARY

Ecosystem Monitoring Program
The Lower Columbia Estuary Partnership (Estuary Partnership) Ecosystem Monitoring Program is an integrated status and trends program for the lower Columbia River. The study area extends from the mouth of the estuary to the Bonneville Dam. The program is designed to provide an inventory of the different types of habitats within the lower river; track trends in the overall condition of these habitats and the ecosystem; provide a suite of reference sites for use as end points in the region’s habitat restoration actions, and place findings from management actions into context with the larger ecosystem. The Program is a collaborative effort with NOAA National Marine Fisheries Service (NOAA Fisheries), Pacific Northwest National Laboratory (PNNL), University of Washington (UW), and Oregon Health & Science University (OHSU).

When the program was created in 2004, most previous research in the lower river had occurred in a small section of the lower, close to the river mouth in Reaches A and B. There was a considerable lack of research and monitoring within the tidal freshwater section of the lower river (Reaches C-H), resulting in little basic understanding of habitats, fish use, and food web dynamics in this region.

The Estuary Partnership and its monitoring partners have focused on providing an inventory of salmon habitats (or “status”) across the lower river stratifying by hydrogeomorphic reach (A–H) and including a growing number of fixed sites for interannual variability (or “trends”). The focus of the EMP has been on minimally disturbed tidally influenced emergent wetland sites. Each year prior to 2013, three to four “status” sites, in a previously unsampled reach, were selected along with the continued sampling of a growing number of “trend” (or fixed) sites. By 2012, there were 6 trend sites.

In 2012, the EMP scope was reduced to monitoring only the 6 trend sites: Campbell Slough in the Ridgefield National Wildlife Refuge (2005–2014), Whites Island (2009-2014), Franz Lake (2008-2009, 2011-2014), Ilwaco (2010-2013), Secret River (2010-2013), and Welch Island (2010-2014). Habitat structure and hydrology data collection began in 2005, fish data collection began in 2007, fish prey data collection began in 2008, and water quality data and food web data collection began in 2010.  Data collection includes:
• Salmonid occurrence, composition, growth, diet, condition and residency
• Habitat structure, including physical, biological and chemical properties of habitats
• Food web characteristics, including rates and composition of primary and secondary productivity, abiotic conditions controlling productivity at floodplain habitats and in the mainstem lower river, and role in juvenile salmon diets and
• Biogeochemistry of tidal freshwater region of the lower river for comparison to the biogeochemistry of the estuary, key for assessing hypoxia, ocean acidification and climate change impacts.

Applications of Results to Management – funded under BPA’s Columbia River Estuary Ecosystem Restoration Program (CEERP), a primary goal of the EMP is to collect key information on ecological conditions for a range of habitats in the lower river characteristic of those used by out migrating juvenile salmon and provide information towards implementation of the 2008 FCRPS BiOp. Information collected describes synoptic conditions and changes over time in vegetated floodplain habitats and the opportunity, capacity and realized function (Simenstad and Cordell 2000) they afford juvenile salmonids. These habitats are the targets of regional restoration efforts, which make the program integral for understanding the success of the regional habitat restoration program. The results of the EMP provide information on ambient environmental conditions and insight into the cumulative effects of existing and new management actions and anthropogenic impacts as they occur.

The EMP has provided key information on a suite of 51 reference sites across the lower river. These sites are used as end points for restoration projects and used in combination with the Action Effectiveness Monitoring and Research (AEMR) Program data described below. Data collected through the EMP on vegetation, elevation, and hydrologic patterns from these sites have been used to create regionally specific restoration design considerations for use by restoration practitioners in designing more successful restoration actions. Patterns include 5 vegetation zones and 3-4 hydrologic zones and elevation tolerance of the invasive species, reed canarygrass. Data collected through the EMP have also documented preferential use of regions of the lower river by different salmonid ESUs.  Data are used for completing templates/applications for project evaluation by the Expert Regional Technical Group and others. Data are regularly used in the AEMR Program to provide wider context and a comparison for what’s happening within the larger ecosystem to results we find at restoration sites.  

Importance of this Program and its Future
• Status and trends monitoring of estuary ecosystem condition–important to “keep pulse on the river” – without this program we can only understand conditions at individual restoration sites and cannot roll-up AEMR data and assess benefits of restoration actions without an understanding of what’s also going on across the estuary
• Provides basic information on how estuary functions  – lack of research and monitoring in tidal freshwater section of river still limits basic understanding
• Provides the only inventory of habitats across the estuary-river continuum – still gaps in degraded habitats, tidal tributaries
• Provides the only “long-term” dataset of fish use across tidal freshwater sections – ranging 2-6 years; previous studies were temporally or spatially limited
• Provides only information on inter-annual variability of habitat, instream conditions, food web resources and fish use
• Leverages other key programs for more comprehensive analyses:
1. Only consistent toxic contaminant data collection in lower Columbia. Analysis of juvenile Chinook salmon, Chinook stomach contents and macroinvertebrates at sampling sites are completed by NOAA researchers under this program. If the program changes sufficiently, NOAA will no longer be able to leverage the program or have samples to perform and report out analyses. These provide the only consistent information we have in the lower river on concentrations in juvenile salmon and how salmon are being exposed to contaminants.
2. Only mainstem water quality monitoring station above Beaver Army Terminal Center.  Coastal Margin Observation and Prediction (CMOP) by OHSU. CMOP station installed and maintained through this program provides not only the data collection but our ability to tie into research by OHSU and NANOOS under CMOP. The CMOP station will be important for modeling and predicting mainstem conditions for the Columbia River Treaty. It is the only monitoring station above Beaver Army Terminal and below Bonneville that tracks mainstem water quality conditions.
• Results are used for identifying, designing and monitoring restoration projects – for example:
• Findings on the elevation and inundation period where reed canarygrass thrives (invasive, nuisance species) are used in designing restoration projects by CREST, CLT, WDFW, Estuary Partnership, others to reduce its occurrence at restoration sites
• Results from a focused study on the effects of invasive species (i.e., reed canarygrass) on macroinvertebrate community structure and macrodetrital production indicate the importance of preserving native wetland plant communities.  
• Fish use data are used for ERTG templates by CREST, CLT, WDFW, Estuary Partnership, others and scoring of SBUs by ERTG
• Hydrologic characteristics of estuary regions are used to provide context for inundation anticipated at restoration sites by CLT, WDFW, Estuary Partnership, others
• Sites are used as reference sites for restoration projects by CREST, CLT, WDFW, Estuary Partnership, others. We have done comparisons of reference site conditions with restoration sites action effectiveness data (completed in 2012)
• In stream mainstem conditions used in determining if “greening of river” (macrodetritus versus plankton base of salmon foodweb) is correct and whether system is nutrient limited or nutrient enriched

Past Results - From fiscal years 2004 through 2014, with funding from NPCC/BPA, EMP partners have accomplished the following major tasks: 1) developed a statistically valid, ecosystem-based monitoring plan for the estuary (focusing on juvenile salmon habitats); 2) developed and published a hierarchical estuarine ecosystem classification system (CREEC) in which to base sampling designs and habitat restoration strategies; 3) mapped over 19,000 acres of high and medium priority shallow water bathymetry gaps; 4) mapped land cover of the lower river floodplain in 2000 and 2010; 5) collected water chemistry data and juvenile salmonids to support the creation of three models related to salmonid uptake, transport, and ecological risk of toxic contaminants; 6) collected habitat structure data at 28 sites and comprehensively monitored 22 sites throughout the lower river for habitat structure; salmon occurrence, diet, condition, stock, and growth; prey availability and preference, providing in some areas the only contemporary juvenile salmon use data available; 7) initiated the characterization of the salmon food web at six “trend” sites representing the estuarine-tidal freshwater gradient; 8) collected abiotic environmental/water column condition data at trend sites annually; 9) installed and maintained a CMOP Land Ocean Biogeochemical Observatory (LOBO) platform above the Willamette River confluence with the Columbia to better understand influence of Willamette biogeochemistry on mainstem conditions; 10) provided technical assistance to the USACE in creation of a terrain model of the lower river, resulting in a seamless bathymetry/topography map which will be invaluable in mapping salmon habitat opportunity in combination with river flow data; and 11) provided results for a comparison of macroinvertebrate prey availability, plant biomass, and detrital production at sites dominated by the invasive reed canarygrass versus sites dominated by native vegetation.  

In addition, NPCC/BPA funding  provides leverage that allowed the Estuary Partnership to accomplish these additional estuary RME-related activities: 1) convened five technical workshops for researchers and managers on topics of interest such as land cover, bathymetry, toxic contaminants, and restoration; 2) provided monitoring coordination for entities involved in monitoring the lower river, exemplified by the estuary RME coordination meetings in spring 2010, 2011, 2012 and 2015 involving NMFS, PNNL, CREST, USACE, BPA, LCRFB and others; 3) compiled information and presented overviews of on-going monitoring activities at various events, including the Estuary and Ocean Subgroup, EPA Toxics Reduction Working Group; and regional and national conferences; 4) played a key role in efforts supporting regional monitoring coordination, including Pacific Northwest Aquatic Monitoring Partnership’s Integrated Status and Trends Monitoring group, an inventory of on-going effectiveness monitoring at restoration sites, and refinements to standardized protocols for restoration effectiveness monitoring; 5) acted as a central clearinghouse for GIS and monitoring data while developing mapping website to house monitoring data collected in estuary; 6) supported on-going regional toxic contaminants reduction efforts, such as preparing the State of the River Report, presenting monitoring information at the workshops, developing a basin-wide contaminant monitoring strategy with EPA's Toxics Reduction Workgroup, and supporting the institution of an Oregon Drug Take Back Program; 7) presented monitoring efforts at several regional and national conferences, including the Coastal and Estuarine Research Federation and National Conference on Ecosystem Restoration, 2012 National Water Quality Monitoring Conference, 2015 American Fisheries Society Annual Meeting, and the 2012, 2014, 2016 Columbia River Estuary Conferences; 8) chaired an all-day session on monitoring and restoration efforts in Pacific Northwest estuaries at the 2009 Coastal and Estuarine Research Federation conference with co-chairs, PNNL and South Slough National Estuarine Research Reserve and 9) participated in regional forums, such as Pacific Estuarine Research Federation (PERS), NANOOS, American Fisheries Society, and Pacific Joint Venture, to share information and coordinate RME and restoration efforts. Information exchanged and gained and networking with other researchers doing related work during these events provides invaluable insight and guidance for future RME and restoration efforts in the lower river.

Current Work -
In 2017 PNNL will collect data on wetland vegetation species, elevation, peak macrophyte biomass, and water stage at the six trend sites. NOAA Fisheries will monitor salmon and salmon prey, and collect foodweb resources at these sites to provide information on juvenile salmon use of the vegetated and shallow water habitats of the lower Columbia River. NOAA Fisheries will process salmon samples for stock, growth rates, stomach contents, and fish condition and send zooplankton samples to OHSU for processing and identification. OHSU will collect food web data at the six “trend” sites to characterize conditions supporting juvenile salmonids, specifically rate and composition of primary and secondary productivity, abiotic conditions that limit productivity, and stable isotope analysis of salmon tissue and mucous. OHSU will send benthic cores to UW for processing and taxonomic identification. NOAA will send samples from macroinvertebrate tows and juvenile salmon stomach contents to UW for processing and taxonomic identification. NOAA will continue to operate and maintain a PIT tag array at Campbell Slough to assess salmon residency in floodplain habitats. Additionally, OHSU will continue to maintain the CMOP LOBO Platform in the tidal freshwater section of the lower river for another year. Through this project, CMOP researchers will track and report on 1) seasonal primary production biomass and taxonomy for lower river from Bonneville to plume; 2) sources of dissolved organic carbon, turbidity and nutrients in tidal freshwater and estuarine sections of lower river; and 3) water temperatures, pH, dissolved oxygen levels in tidal freshwater and estuarine (except pH) sections of lower river. The Estuary Partnership Science Work Group will review the data on a periodic basis and recommend possible research studies to address key questions as they arise. All data are analyzed annually and reported to BPA.

The Estuary Partnership is currently developing an estuarine condition index to provide a framework for illustrating and reporting ecosystem conditions, how they are changing over time, and management implications to the public, scientists and managers. This indicator system will use the US Environmental Protection Agency’s Biological Condition Gradient (BCG) framework (Davies and Jackson 2006). As this indicator system and numeric management targets are developed, they will be integrated into the Greater Ecosystem Restoration Program, including the monitoring design of the EMP.

Action Effectiveness Monitoring and Research Program
The Action Effectiveness Monitoring and Research program (AEMR) was transferred from the Habitat Restoration Program contract (2003-11-00) to this contract in fiscal year 2013. Since summer 2008 the Estuary Partnership and partners have implemented action effectiveness monitoring based on recommendations from the plan for “Research, Monitoring, and Evaluation for the Federal Columbia River Estuary Program” (Johnson et. al 2008). The Estuary Partnership, with input from the Estuary and Oceanic Subgroup (EOS) and Science Work Group, identified four pilot sites (Mirror Lake, Sandy River Delta, Scappoose Bottomlands, and Fort Clatsop). Sites were chosen to represent different restoration activities (culvert enhancement to improve fish passage; large wood installation; re-vegetation and cattle exclusion; and culvert removal for tidal reconnection), different habitats (bottomland forest, riparian forest, emergent wetland, and brackish wetland), and different geographic reaches of the river (reaches H, G, F, and A, ranging from tidal freshwater in reach H, the Columbia River Gorge, to saltwater intrusion in reach A, Astoria area). Action effectiveness monitoring partners began implementing the Roegner et al. (2009) protocols, which were designed for estuary-wide action effectiveness research, and collected data on parameters such as water quality, sediment accretion, channel cross-sections, vegetation cover, vegetation planting success, salmon, and salmon prey. Action effectiveness monitoring occurred at these sites from 2007-2013, except for the Scappoose Bottomlands site, which was not repeated in 2013 as a result of access issues with the private landowner. Also, NOAA Fisheries installed a pit tag array at the Horsetail Creek restoration site for baseline data collection in 2013; construction at this site occurred in summer 2013. The pit tag array collected post construction AEM data through 2016.

Applications of Results to Management –
The AEMR Program provides information about the efficacy of restoration actions in the tidally influenced areas of the lower Columbia River and estuary.  AEMR data shows a quantifiable change in ecosystem condition related to specific restoration actions and helps determine if restoration actions are meeting project sponsors objectives and goals.  The standardization of monitoring metrics allows the ecological impact of restoration actions to be compared across the landscape to help determine the cumulative effects of restoration efforts.  

Past Results-
AEMR conducted from 2007-2013 demonstrated the need for standardized monitoring metrics, a site prioritization strategy, and an increase in the amount of sites monitored.  The development of “Protocols for Monitoring Habitat Restoration Projects in the Lower Columbia River and Estuary” (Roegner et al. 2009) in 2007 and revised in 2009 provided a framework for the when, where, why, and how of action effectiveness monitoring.  In addition, the Estuary Partnership added the Roegner et al. protocols to monitoringmethods.org to promote access and sharing.  In 2009, researchers from PNNL, Estuary Partnership, NOAA, USACE and CREST, compiled AEMR data from multiple restoration sites in a pilot meta-analysis for the USACE Cumulative Effects of Restoration project.  Also, the standardization of AEMR methods allowed data collected at restoration and EMP sites to be compared (Borde et al. 2012).  Based on lessons learned, the Estuary Partnership with BPA, USACE, and PNNL developed “A Programmatic Plan for Restoration Action Effectiveness Monitoring and Research in the Lower Columbia River and Estuary” (Johnson et al. 2013) to improve and standardize AEMR site selection, create different levels of monitoring effort (Standard, Core, and Intensive) for AEMR, and designate how AEMR levels will be determined.  
  
In 2013 the Estuary Partnership began implementing the new programmatic AEMR plan. The Estuary Partnership, BPA and US Army Corps of Engineers (USACE), used the programmatic AEMR prioritization process in Johnson et al. (2013) to identify four sites (Kandoll Farm Phase 2, Steamboat Slough, Sauvie Island North Unit, and Dibblee Point) for Level 2 monitoring in 2013. In 2014, we collected Level 2 AEMR data at 5 sites (Kandoll Farm Phase 2; Sauvie Island North Unit Phases 1 and 2; Wallacut Slough; Sandy River Delta). In 2015, we collected Level 2 AEMR data at 4 sites (Wallooskee-Youngs, La Center Bottoms, Steamboat Slough, Sauvie Island North Unit 2). Along with these restoration sites, nearby reference sites were identified and monitored to create a pair of sites to ensure the requirements for a Before After Control Impact (BACI) statistical design were met. AEMR monitoring at restoration and reference sites included characterizing vegetation, sampling macroinvertebrate communities, and collecting channel cross sections and was preformed prior to restoration actions to capture pre-restoration ecological conditions. AEMR project partners CREST and PNNL conducted monitoring using the Roegner et al. (2009) protocols, which are designed for estuary wide action effectiveness monitoring and research. Standardized data collection also ensures data collected for the AEMR program is compatible with data collected under the Ecosystem Monitoring Program.

In addition to Level 2 monitoring, the Estuary Partnership coordinated with project sponsors collecting Level 3 AEMR to ensure standardized protocols in sampling design and metrics are being used (water elevation, water temperature, sediment accretion, and photo points) at all restoration sites receiving BPA funding. This coordination role included hosting a 2-day workshop with project sponsors in 2014 and working with them to develop site sampling plans for each site.

Current work-
The Estuary Partnership continues to build upon previous AEMR efforts by continuing the collection of Level 2 AEMR data at four to six sites, which are identified by the AEMR Steering Committee (Estuary Partnership, BPA and USACE). The Estuary Partnership will also continue coordinating Level 3 data collection efforts of restoration project sponsors, including undertaking field quality assurance audits. The Estuary Partnership compiles and quality checks all Level 3 data, and ensures they are in the correct format for uploading to the USACE Oncor database, when the database becomes available. The Estuary Partnership analyzes all Level 2 data and provides results to BPA in an annual report. A subset of the Level 3 data is included within this report as well.

In addition to on the ground work relevant to the EMP and AEMR and coordinating activities of lower Columbia partners, we will coordinate with the researchers for the USACE Anadromous Fish Enhancement Program (AFEP), Northwest Power and Conservation Council Ocean subgroup, Pacific Northwest Aquatic Monitoring Program (PNAMP), and the states’ recovery programs to ensure coordination, build monitoring efficiencies, and to increase the consistency of monitoring and sampling protocols used in the LCRE. We will also participate in the AFEP work to build a central RME database for the LCRE so that our data is accessible and usable to interested parties.

2016-2017 OBJECTIVES FOR THE ECOSYSTEM MONITORING and ACTION EFFECTIVENESS MONITORING AND RESEARCH PROGRAMS INCLUDE:
1. Monitor habitat, abiotic environmental conditions, food web resources, and salmonids at “trend” sites within tidally influenced wetlands of the LCRE.
2. Continue maintenance and data collection at the CMOP LOBO Platform in the tidal freshwater section of the LCRE as well as annual reporting of food web conditions within the entire mainstem LCRE.
3. Collect pre and post construction Level 2 AEMR data at priority restoration sites, identified in summer 2016 by the AEMR Steering Committee, and, as funding allows, expand collection (pre-construction) to new priority restoration sites.
4. Coordinate Level 3 AEMR data collection and management with project sponsors (CREST, CLT, Cowlitz Indian Tribe, WDFW), including field quality assurance audits.
5. Develop Annual Reports detailing methods, results, and recommendations.
6. Continue to identify methods of collaborating sampling, data analyses and reporting with USACE-funded RME researchers.
Account Type(s):
Expense
Contract Start Date:
10/01/2016
Contract End Date:
09/30/2017
Current Contract Value:
$1,085,505
Expenditures:
$1,085,505

* Expenditures data includes accruals and are based on data through 30-Sep-2020.

BPA CO:
Env. Compliance Lead:
Work Order Task(s):
Contract Type:
Coop
Pricing Method:
Cost Reimbursement (CNF)
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Viewing of Work Statement Elements

Deliverable Title WSE Sort Letter, Number, Title Start End Complete
Environmental Compliance Completed B: 165. Produce Environmental Compliance Documents 10/01/2016 10/01/2016
All administrative tasks fulfilled with timely quality products C: 119. Project Administration 09/30/2017 09/29/2017
Monthly Check-In Meetings D: 191. Regular Coordination with Action Agencies on Monitoring and Research Efforts 09/30/2017 09/26/2017
AEMR Coordination with AAs and Restoration Partners E: 191. AEMR: AEMR Coordination 09/30/2017 09/29/2017
Data Collection and Analysis F: 157. AEMR: NOAA AE Salmon PIT Tag Measurement at Horsetail Creek restoration site 09/30/2017 09/30/2017
Level 2 AEMR Data Collection G: 157. AEMR: PNNL Level 2 Habitat Structure Monitoring Technical Support for AEMR Program 09/30/2017 09/30/2017
Collection of site habitat structure and hydrologic data H: 157. EMP: PNNL Habitat Monitoring Data Collection and Lab Analysis 09/30/2017 09/30/2017
Data Analysis and Report Contribution I: 162. EMP: PNNL Habitat Monitoring Data Analysis and Reporting 04/24/2017 05/01/2017
Salmon and Prey Data Collection and Reporting J: 157. EMP: NOAA Salmon and Prey Sampling 09/30/2017 09/30/2017
Data and Analysis for Annual Report K: 157. EMP: NOAA PIT Tag Measurements for Juvenile Salmonid Residency 09/30/2017 09/30/2017
Graphs and Data Tables Detailing Otolith Results L: 162. EMP: NOAA Otolith Analyses, Biochemical Measures of Fish Growth, and Genetic Stock Identification 09/30/2017 09/30/2017
Data Analysis and Report Contribution M: 162. EMP: NOAA Fish Data Analysis and Reporting 04/14/2017 03/14/2017
Collect Primary and Secondary Production Data to Characterize Juvenile Salmon Food Web N: 157. EMP: OHSU Primary and Secondary Production to Characterize Salmonid Food Web 09/30/2017 09/30/2017
Mainstem lower Columbia River conditions O: 157. EMP: OHSU CMOP Station in tidal freshwater section 09/30/2017 09/30/2017
Data Analysis and Report Contribution P: 162. EMP: OHSU Food Web Data Analysis and Reporting 04/14/2017 03/10/2017
Analysis of Macroinvertebrate Prey Samples to Characterize Prey Availability and Chinook Diet Q: 162. EMP and AEMR: UW Salmonid Food Web Secondary Production Analysis 09/30/2017 09/30/2017
EP Monitoring Field Sampling Support R: 157. EMP and AEMR: EP Monitoring Sampling Support 09/30/2017 09/30/2017
Completed Annual Report S: 132. Submit RME 2016 Report for EMP and AEMR 05/01/2017 05/18/2017
Submit BiOp RPA Report in Taurus T: 202. BiOp RPA Report for CY2016 03/15/2017 03/16/2017
Submit to EP Summary Report of Data Collection U: 157. (CCR-38809) *CREST--AEMR Level 2-- Habitat and Prey Availability Monitoring for AEMR Program 09/30/2017 09/30/2017
Ensure accurate data sheets for habitat structure data V: 157. (CCR-38809) *ETG--AEMR Level 2-- Habitat Structure Monitoring for AEMR Program 09/30/2017 09/30/2017

Viewing of Implementation Metrics
Viewing of Environmental Metrics

Primary Focal Species Work Statement Elements
Chinook (Oncorhynchus tshawytscha) - All Populations
  • 10 instances of WE 157 Collect/Generate/Validate Field and Lab Data
  • 5 instances of WE 162 Analyze/Interpret Data
Chum (Oncorhynchus keta) - Columbia River ESU (Threatened)
  • 9 instances of WE 157 Collect/Generate/Validate Field and Lab Data
  • 5 instances of WE 162 Analyze/Interpret Data
Coho (Oncorhynchus kisutch) - Lower Columbia River ESU (Threatened)
  • 10 instances of WE 157 Collect/Generate/Validate Field and Lab Data
  • 5 instances of WE 162 Analyze/Interpret Data
Cutthroat Trout, Coastal (O. c. clarkii) - Southwest Washington/Columbia River ESU
  • 1 instance of WE 157 Collect/Generate/Validate Field and Lab Data
Sockeye (Oncorhynchus nerka) - All Populations
  • 1 instance of WE 157 Collect/Generate/Validate Field and Lab Data
  • 2 instances of WE 162 Analyze/Interpret Data
Sockeye (O. nerka) - Snake River ESU (Endangered)
  • 5 instances of WE 157 Collect/Generate/Validate Field and Lab Data
  • 2 instances of WE 162 Analyze/Interpret Data
Steelhead (Oncorhynchus mykiss) - All Populations
  • 7 instances of WE 157 Collect/Generate/Validate Field and Lab Data
  • 4 instances of WE 162 Analyze/Interpret Data
Steelhead (O. mykiss) - Lower Columbia River DPS (Threatened)
  • 3 instances of WE 157 Collect/Generate/Validate Field and Lab Data
  • 1 instance of WE 162 Analyze/Interpret Data

Sort WE ID WE Title NEPA NOAA USFWS NHPA Has Provisions Inadvertent Discovery Completed
A 185 Periodic Status Reports for BPA 10/01/2016
B 165 Produce Environmental Compliance Documents 10/01/2016
C 119 Project Administration 10/01/2016
D 191 Regular Coordination with Action Agencies on Monitoring and Research Efforts 10/01/2016
E 191 AEMR: AEMR Coordination 10/01/2016
F 157 AEMR: NOAA AE Salmon PIT Tag Measurement at Horsetail Creek restoration site 10/01/2016
G 157 AEMR: PNNL Level 2 Habitat Structure Monitoring Technical Support for AEMR Program 10/01/2016
H 157 EMP: PNNL Habitat Monitoring Data Collection and Lab Analysis 10/01/2016
I 162 EMP: PNNL Habitat Monitoring Data Analysis and Reporting 10/01/2016
J 157 EMP: NOAA Salmon and Prey Sampling 10/01/2016
K 157 EMP: NOAA PIT Tag Measurements for Juvenile Salmonid Residency 10/01/2016
L 162 EMP: NOAA Otolith Analyses, Biochemical Measures of Fish Growth, and Genetic Stock Identification 10/01/2016
M 162 EMP: NOAA Fish Data Analysis and Reporting 10/01/2016
N 157 EMP: OHSU Primary and Secondary Production to Characterize Salmonid Food Web 10/01/2016
O 157 EMP: OHSU CMOP Station in tidal freshwater section 10/01/2016
P 162 EMP: OHSU Food Web Data Analysis and Reporting 10/01/2016
Q 162 EMP and AEMR: UW Salmonid Food Web Secondary Production Analysis 10/01/2016
R 157 EMP and AEMR: EP Monitoring Sampling Support 10/01/2016
S 132 Submit RME 2016 Report for EMP and AEMR 10/01/2016
T 202 BiOp RPA Report for CY2016
U 157 (CCR-38809) *CREST--AEMR Level 2-- Habitat and Prey Availability Monitoring for AEMR Program 04/24/2017
V 157 (CCR-38809) *ETG--AEMR Level 2-- Habitat Structure Monitoring for AEMR Program 04/24/2017