RAPID BIO-ASSESSMENT 2004 FINAL REPORT

PREPARED FOR:
Nestucca / Neskowin Watershed Council

PREPARED BY:
Steve Trask
Bio-Surveys,LLC.
Po Box 65
Alsea, Or.
97324

FUNDED BY:
Oregon Watershed Enhancement Board

USDA – Forest Service WY020 and WY2-005

RAPID BIO-ASSESSMENT 2004

INTRODUCTION

A Rapid Bio-Assessment inventory was conducted for the Nestucca / Neskowin Watershed Council (NNWC) during the summer of 2004. This inventory included the Nestucca, Neskowin and Sand Lake basins and marked the final year of a three year project. The intent of the project was to gather information on the status of juvenile salmonid summer distributions and summer rearing densities. The inventory consists of extensive snorkel surveys in each basin that begin at the head of tidal influence and continue to the end of juvenile Coho distribution in each stream and its tributaries (the mainstem Nestucca began at the confluence of Beaver Cr. during 2002 and 2003 and at the confluence of Boulder Cr. during 2004). These surveys were conducted using funds granted to the NNWC by OWEB. The intent of these surveys is to develop base line data for each of three successive cohorts and to eventually identify long term trends in the distribution and abundance of juvenile Coho, Steelhead, Cutthroat and Chinook at the 6^th field level in response to restoration and watershed management issues.

The escapement of adult Coho in all of the surveyed basins during the 2001, 2002, and 2003 brood years has remained insufficient to adequately seed the summer habitat currently available on a watershed scale throughout the four 5^th fields in the NNWC management area. For many of the basins and subbasins, adult escapement is the primary limiting factor for production. The trend in the adult escapement of Oregon Coast Natural (OCN) Coho since 1990 has been positive for all of the NNWC basins with the highest recorded escapement in the last 13 years occurring in 2002. The agreement in trends between the ODFW adult SRS data and the RBA juvenile estimates for the Nestucca basin mutually support the ability of each method to assess inter annual trends. This agreement in methodology is largely a function of appropriate sampling effort for the size of the target basin. Conversely there was a radical divergence in trends within the Sand Lake / Neskowin complex when comparing these two methods. There is a weakness in the SRS sampling effort within small basins that can lead to conclusions in adult abundance and trend analysis that do not appear to be supported by the abundance of summer rearing juveniles (see table 1). This effect is discussed in more detail in the Neskowin Basin introduction.

The 2001-2003 adult Coho estimates exhibit dramatic increases in abundance and are indicators of recent improvements in ocean conditions. ODFW’s long term SRS monitoring of adult Coho escapement suggests that the 14 year trend for the North Coast monitoring area is one of only two statistically significant trends observed in the five coastal monitoring areas. This statistically significant trend was also detected in the more intensive monitoring associated with the Oregon Plan conducted between 1997 and 2001 (E-Map). Both methods suggest that the trend is driven primarily by abundance in the Nehalem River but that a significant positive trend is also quantifiable in the Nestucca.

It is important to recognize the significant role that changes in adult escapement can have on the observed distributions and densities of juvenile salmonids. The resultant distribution data from 2004 still does not describe all of the accessible and suitable spawning and rearing habitats for salmonids because of continued under-escapement.

(Table 1) Adult escapement and normalized summer parr estimates for Coho

Survey Nestucca Basin Neskowin / Sand Lake

Year Adult escapement Summer Parr Adult escapement Summer Parr

2002 3,940 (01) 189,865 71 (01) 10,745

2003 13,003 (02) 353,045 16 (02) 12,700

2004 8,929 (03) 295,320 0 (03) 12,375

The juvenile survey method was designed to look at a sub-sample (20%) of rearing habitats using a Rapid Assay technique that could cover large distances and succeed in describing the current distribution of Coho and quantify the rearing densities of Coho and the relative abundance of Cutthroat, Steelhead, and Chinook in all of the surveyed streams and their tributaries.

The 2004 database contains the results of 187.6 stream miles that were surveyed. This includes the full extent of Coho distribution in Sand Lake (7.1 miles), Neskowin (12.4 miles) and Nestucca basins (161.5miles), except for the segment of the mainstem Nestucca between the head of tidal influence and the bridge just below Boulder Cr., as well as the majority of West Beaver (inadequate visibility). The start point for the mainstem Nestucca survey was moved upstream 5.4 miles from Beaver Cr. in 2004 due to a funding shortfall and the observed low Coho production in this reach during 2002 and 2003. 2.8 miles of the upper Nestucca mainstem, between the Cedar Cr. bridge and the Walker Cr. confluence, were surveyed for the first time in 2004 to assess the effects on adult passage from the channel alterations which took place in the gorge just above Cedar Creek. Walker Cr. was also surveyed. If a stream is not included in the database it was not surveyed. This will occur only in situations where a mapped tributary was dry or where there was a lack of suitable visibility for the survey methodology.

METHODS

The basins and sub-basins surveyed were selected and prioritized by ODFW, BLM, USFS and NNWC technical advisors. Survey crews were concentrated within a basin to complete the sampling activity within a concise window of time. This approach led to transportation efficiency and eliminated any possibility of population shifts in response to changes in flow or temperature. This strategy was altered for the mainstem Nestucca where local knowledge from the technical advisory panel of the NNWC indicated that visibility in the lower mainstem could degrade during the summer months because of temperature driven algal blooms. This resulted in a hiatus of 24 days between surveys on the mainstem Nestucca between the first 10.7 miles surveyed in June above the confluence of Beaver Cr. and the remaining 22.2 miles surveyed in July and August to the end of Coho distribution.

Land owner contacts were made for all of the private, industrial and public ownerships that existed on both sides of every stream reach surveyed. Developing these contacts involved extensive research in the county tax assessor’s office and then a personal contact to describe the survey and request permission for access. The land owner information was recorded (name, contact #, tax lot # and location) and will be available in subsequent years as a byproduct of this contract.

Most surveys were initiated by randomly selecting any one of the first five pools encountered. The protocol however was altered for small tributaries (2^nd order) where Coho presence or absence was undetermined, in these tributaries, the first pool above the confluence was selected as unit number one. This alteration in protocol was adopted to identify minor upstream temperature dependant migrations that may not have extended more than a few hundred feet. The identification of this type of migratory pattern in juvenile salmonids is critical for understanding potential limiting factors within the basin (temperature, passage, etc.). Some surveys were initiated at a point above brackish water influence or above agricultural influence where visibility conditions shifted from poor to good. In these surveys the start point of the survey will be indicated separately on the USGS quads available through the NNWC.

The survey continued sampling at a 20% frequency (every fifth pool) until at least two units without Coho were observed. In addition, pools that were perceived by the surveyor as having good rearing potential (beaver ponds, complex pools, tributary junctions) were selected as supplemental sample units to insure that the best habitat was not excluded with the random 20 percent sample. This method suggests that the data existing in the database could tend to overestimate average rearing density if these non-random units were not removed prior to a data query (the selected units are flagged as non-random in the database).

In subbasins with low rearing densities, there were situations where Coho were not detected for more than two sampled units. These situations were left to the surveyor’s discretion, whether to continue or terminate the survey. There is a possibility that very minor, isolated populations of juvenile Coho could be overlooked in head water reaches of small 2^nd order tributaries. This tributary would have to include a strong beaver population that would impound emergent fry and truncate their normal downstream fry distribution patterns.

Pools had to meet minimum criteria of being at least as long as the average stream width. They also had to exhibit a scour element (this factor eliminates most glide habitats) and a hydraulic control at the downstream end. There were no minimum criteria established for depth. Only main channel pools were sampled. Side channel pools, back waters and alcoves were not incorporated into the surveyed pool habitats. The primary reasons for not including these secondary and off channel pools is that they are typically not highly productive summer rearing locations and they compromise the consistency of measuring, summarizing and reporting lineal stream distances.

The lineal distances represented in the database were estimated by pacing from the beginning of one sampled unit to the beginning of the next sampled unit. The length of the sampled pool is an independent quantity, which was always measured and not estimated. A minimum of three lineal estimates were also measured with a hip chain for each surveyed stream to develop a calibration factor for each surveyors estimate of distance. Total distances represented in the database are consistently greater than map wheeled distances using USGS 1:24,000 series maps. This is related to the level of sinuosity within the floodplain that is not incorporated in mapping. If you are attempting to overlay this database on existing stream layer information there would be a need to justify lineal distances with known tributary junctions (these can be found in the comments column). In addition, the USFS under contract to the NNWC will be producing a digitized stream layer of Coho distribution for incorporation into the current GIS database.

Pool widths were generally estimated. Because pool widths vary significantly within a single unit, a visual estimate of the average width was considered adequate. Pool widths were typically measured at intervals throughout the survey to calibrate the surveyor’s ability to judge distance.

The snorkeler entered the pool from the downstream end and proceeded to the transition from pool to riffle at the head of the pool. In pools with large numbers of juveniles of different species, multiple passes were completed to enumerate by species. (Coho first pass, 0+ trout second pass, etc. ). This allowed the surveyor to concentrate on a single species and is important to the collection of an accurate value. In addition, older age class Steelhead and Cutthroat were often easier to enumerate on the second pass because they were concentrating on locating food items stirred up during the surveyors first pass and appeared to have less of their initial avoidance behavior.

In large order stream corridors (mainstem Nestucca), two snorkelers surveyed parallel to each other, splitting the difference to the center from each bank.

A cover/complexity rating was attributed to each pool sampled. This rating was an attempt to qualify the habitat sampled within the reach. The 1 - 5 rating is based on the abundance of multiple cover components within a sampled unit (wood, large substrate, undercut bank, overhanging vegetation). Excessive depth (>3 ft) was not considered a significant cover component. The following criteria were utilized:

1 0 cover present

2 1-25 % of the pool surface area is associated with cover

3 26-50 % of the pool surface area is associated with cover

4 51-75 % of the pool surface area is associated with cover

5 > 75 % of the pool surface area is associated with cover

A point to consider here is that the frequency of higher complexity pools increases with a decrease in stream order. This inverse relationship is primarily a function of average channel width and the resultant ability of narrow channels to retain higher densities of migratory wood. Channel morphology begins to play a much more significant role in this relationship during winter flow regimes where increases in floodplain interaction and the abundance of low velocity habitat may become as significant as wood complexity.

A numerical rating was given to each sampled unit for the surveyor’s estimate of visibility. The following criteria were utilized:

Visibility

1 excellent

2 moderate

3 poor

This variable delivers a measure of confidence to the collected data. Survey segments with a measure of 1 can assume normal probabilities of detection (the observed is within 20 percent of the actual for Coho). Segments with a measure of 2 suggest that less confidence can be applied to the observed number (uncalibrated) and segments with a visibility rating of 3 suggest that the observation can probably be used for only an assessment of presence or absence.

There was also commentary recorded within each of the surveyed reaches that included information on temperature, tributary junctions, culvert function, the abundance of other species and adjacent land use. This commentary is included in only the raw Access database under the “comments” field and not in the Excel cd.

The database contains fields designed to facilitate the development of a GIS data layer. These are LLID location numbers that are unique for each stream segment and latitude and longitude coordinates collected for unique features. Lat / Long coordinates are reported in degrees, minutes and seconds. Latitude and longitude values were not collected for start points because these values already exist in the actual LLID number used to initiate a surveyed reach.

GENERAL OBSERVATIONS

The distribution and abundance of Coho juveniles observed during the 2004 summer field season in the Nestucca and Neskowin basins was the result of a wide spread decrease in adult escapement during the 2003 brood year. This resulted in general reductions in juvenile abundance when compared to the strong response observed the previous year from the 2002 Coho cohort.

The summation of data from three years of inventory in these watersheds illustrates the relative production significance and spawning location preferences between each of three separate cohorts, or generations, of Coho returning to each basin. The pattern that emerges for the Nestucca clearly shows the 2001 adult brood as the smallest, the 2002 adult brood as nearly twice as large, and the 2003 adult brood in the middle nearer to the size of the larger (table 1). The changes in adult estimates for these years in the Nestucca basin appear to closely match the changes in summer rearing estimates which lends validity to this comparison.

The pattern observed for Coho in the Neskowin / Sand Lake complex is not as clear. The trends observed in adult estimates disagree with the trends observed in juvenile estimates. Adult estimates have been steadily decreasing for these two basins while combined summer parr abundance over three years has increased by 15%. Juvenile abundance patterns in the Neskowin basin appear to follow those from the Nestucca more closely than those from Sand Lake.

Juvenile abundance estimates from Sand Lake appear to stand alone, exhibiting a trend in abundance unique from either the Nestucca or Neskowin basins. The 2002 adult brood appeared to represent the smallest cohort in Sand Lake, based on 2003 summer parr estimates. The 2001 adult brood was approximately 41% larger, and the 2003 adult brood was the largest of the three cohorts, about 72% larger than the 2001 brood. The unique patterns encountered in the Sand Lake basin are in part a function of their depressed and erratic states of production but also may be a function of the specialized adaptations for survival and rearing that the specific Sand Lake habitats dictate through natural selection. More discussion of these factors is included in each basin’s respective introduction.

The above patterns only compare differences (strengths and weaknesses) between the three separate Coho cohorts. In order to follow how each cohort fairs individually at over winter survival, ocean survival, and spawning success another three consecutive years of monitoring would be necessary (i.e. the fourth year of data would reflect the life cycle success of the first year, its “cohort”). A weak or strong cohort may be uniquely affected by a number of factors including yearly differences in ocean conditions, stream flow patterns, catch limits, and hatchery straying.

Most habitats are still not seeded to capacity in the inventoried systems and there remains extensive summer habitat available to salmonids that is currently under-utilized. There were some exceptions - Baxter, Bear, East Beaver, Elk, Louie, Sourgrass, and Trib F / Nestucca (2004) exhibited a fully seeded condition for Coho during both the 2002 and 2003 inventories (Trib F for 2004 also). These tributaries represent important anchor habitats for OCN Coho. For the following review, we are considering 1.5 fish / sq.meter a fully seeded density for Coho. There are concerns from many biologists that this estimate of fully seeded does not represent the production potential that exists in completely functional Coho habitat that is benefiting from the nutrient loading of adult spawning salmonids (eggs, carcasses). There are excellent examples from 2003 in Elk Cr., Baxter Cr., and East Beaver Cr. of stream reaches that far exceeded the level of 1.5 fish/sq.m. of pool surface area (up to 3.0 fish/sq.m. in Baxter and Elk). The intent of establishing this target of full seeding is to provide a platform for comparing stream reaches to each other and to themselves over time. The graphics available in the Nestucca / Neskowin cd utilize this value to normalize scaling.

The average density for a surveyed reach is an excellent measure of trend that can be monitored from year to year. However, it tends to portray only a general description of the current status within a reach. Understanding how each reach is functioning is more accurately interpreted in a review of how the rearing density changes within the reach. The graphics provided in electronic format with this summary are essential for the proper interpretation of this review (refer to 2004 Nestucca / Neskowin cd, NNWC).

Distribution profiles

The distribution of juveniles and their observed rearing densities for each surveyed reach provide a basis for understanding how each reach is functioning in relation to the remainder of the basin or subbasin. These profiles can help identify spawning locations, identify potential barriers to upstream adult and juvenile migration, identify the end point of Coho distribution and they may also indicate how juvenile salmonid populations are responding to environmental variables such as increased temperature. You will find a review of these distribution profiles within this document for each of the major basins and subbasins surveyed during the 2004 field season.

Location of spawning destinations

The approximate locations of spawning pairs was observable in many of the sampled sub basins by the presence of a distinct spike in rearing density that trailed off rapidly just upstream. The physical location of a spawning destination has a range of variance plus or minus 4 pools due to the 20 percent sample methodology. Depending on the average distance between pools, this typically describes a maximum lineal distance that varies between 150 ft. in a small 2nd order tributary to 800 ft. in a fourth order tributary. To utilize the database to identify spawning destinations, an additional precaution is necessary. Surveyed lineal distances are typically longer than calculated distances (map wheel, GIS, etc.) due to the sinuosity of the active channel that is not displayed in the 1:24,000 series USGS maps. To accurately evaluate site specific locations it is important to utilize the digitized map layer that has been justified to known end points and tributary junctions. This layer was developed by the USFS in 2002 and 2003 and is available from the Nestucca / Neskowin Watersheds Council.

The average densities generated represent a snapshot in time of the current condition that can be compared to known levels of abundance that exist in fully seeded and fully functional Coho habitats. These densities also provide a method for quantifying changes in rearing densities by reach or subbasin over time. Average densities utilized as a metric in this analysis are calculated for pool surface areas only. Lower levels of Coho abundance exist in fast water (riffle/rapid) and glide habitats. Replicate surveys conducted in these same reaches in subsequent years will function as an indicator of response to future restoration and enhancement strategies and potential changes in land use. It does not however, provide any indication of actual smolt production because of the distinct relationship between juvenile Coho survival and the abundance of high quality winter habitat.

Adult and Juvenile Barriers

Adult migration barriers are verified by determining that no juvenile production is occurring above a given obstruction (culvert, falls, debris jam, beaver dam, etc.). There are many barriers, both natural and manmade that impact the migration of salmonids in coastal basins. Some are definitive barriers that are obvious obstructions (such as the bedrock falls on the Little Nestucca below the confluence of Fall Cr., which is a migration barrier to juveniles?) Many barriers however, only impede adult salmonid migrations during low flow regimes. Summer juvenile inventories allow us to definitively quantify whether passage was obtained at any point during the season of adult migration.

Juvenile salmonids typically migrate upstream for a variety of reasons (temperature, winter hydraulic refuge, food resources). Hydraulic refuge and food resources are typically fall, winter and spring migrations that would not be detectable during summer population inventories. Temperature however, is probably the most significant driver of upstream juvenile salmonid migrations during summer flow regimes. Juvenile barriers are subjective to the eye of the observer. The trend in juvenile density can be a method of detecting either partial or full barriers to upstream migration. Each of the surveyed reaches contains a comments section in the Access database to note the presence of culverts, jams and other physical factors that may influence the ability of salmonid populations to make full use of aquatic corridors.

Temperature Dependant Migrations

Potential temperature dependant migrations can be observed in the database by looking for densities that decrease significantly as the lineal distance increases from the mouth of the stream or tributary. This is more likely to be observed in the case of low abundance years where tributary habitats that are seeded to capacity are the exception. During years of high abundance there is a more significant potential for density dependant upstream migrations that would be indistinguishable from the distribution pattern mentioned above. The recognition of this migration pattern allows us, during years of low escapement, to identify important sources of high water quality within the basin that may be traditionally overlooked because of some other morphological condition that suggests to us that there is no significant potential for rearing salmonids (i.e. lack of spawning gravel). These stream reaches typically exhibit declining densities with increased distance from the mouth and no indication of a spawning peak (a point near the upper distribution of the population with significantly higher rearing densities). These tributaries may be functioning as important summer refugia for salmonid juveniles threatened by increasing temperatures in the mainstems.

Precautions

The specific location of spawning sites does not infer that the highest quality spawning gravels were targeted by adult salmonids or that there is any relationship between the location of a redd and the quality of the rearing habitat that exists adjacent to these locations.

The location and distribution of juvenile Coho represented in the database is not related to the quality of the rearing habitat that exists in the aquatic corridor adjacent to these sites.

The average densities that can be generated as an end product for each stream reach are the result of a 20 percent sample. Consequently, they probably vary significantly around the true average density. There are many sources of potential variation, start point, number of units sampled within the reach, surveyor variability, etc. The range of variability for at least one of these variables (start point), was documented in the final review of the 1998 Rapid Bio-Assessment conducted by Bio-Surveys for the Midcoast Watershed Council. To facilitate the proper utilization of the data included in this inventory, the 1998 results are included in Table 2. The true average density of a stream reach was retrieved by querying the database from an ODFW survey on East Fk. Lobster where every pool was sampled. Comparisons could then be made between the true average density and a randomly selected 20 percent sub sample (every 5th pool). Only mainstem pools were utilized within the range of Coho distribution to match the protocol for the Rapid Bio-Assessment. Table 2 contains this comparison, exhibiting the variation in average density based on the selection of different starting points.

(Table 2)

SAMPLE FREQUENCY AVG. COHO DENSITY AVG. SH DENSITY AVG. CUT DENSITY AVG. 0+ DENSITY

100 % 1.07 .03 .04 .13 50 % 1.10 .04 .03 .14

20 % Start Pool 1 0.87 .04 .03 .13

20 % Start Pool 3 1.01 .03 .03 .13

20 % Start Pool 5 1.13 .05 .04 .12

When calculating the average density of juvenile Coho in a particular stream reach, it is important that only the data be utilized that falls within the distribution of Coho. Many stream reaches contain sample sites that extend well above the actual distribution of juvenile Coho. Including these data points significantly underestimates the average rearing density and provides a poor foundation for monitoring trends in subsequent years. There are also many streams surveyed that have a downstream point of Coho distribution that is well above the start of the survey reach. Two factors for each stream reach surveyed are key elements for trend analysis, the extent of the distribution and the average density within that distribution.

SITE SPECIFIC OBSERVATIONS

Site specific observations within this document have been organized in a format that utilizes GIS definitions to describe basins and subbasins. The area within the NNWC management zone includes four 5^th fields. Each of these 5^th fields has been summarized separately. The expanded juvenile salmonid estimates are also broken down into 5^th field estimates (i.e., the mainstem Nestucca does not include the production from the Little Nestucca).

Nestucca

The Nestucca mainstem survey began at the confluence of Beaver Cr. in 2002 and 2003. Habitat downstream of this point exhibited poor visibility resulting from suspended solids and algae. This mainstem start point was moved upstream 5.4 miles to Boulder Cr. in 2004 due to reduced funding and previous observations of low mainstem Coho production between these two tributaries. There is significant juvenile salmonid rearing that occurs in the 14.5 river miles between Pacific City and the confluence of Beaver Cr. (6.6 of these river miles are classified as intertidal, from the boat ramp in Pacific City to the head of tide at the Cloverdale bridge). This potential production has not been accounted for in the 4^th or 5^th field production estimates below.

The following tables represent the contribution in salmonid production (by species) from each tributary to the Nestucca 4^th field Watershed. Table 4 represents total results from 2004 inventories and Table 3 represents production within just the Main Nestucca 5^th field (minus the Little Nestucca subbasin). These production estimates are based on an expansion of the 20% snorkel sample in pools only and therefore do not constitute an entire production estimate for the basin. In addition, production from several streams that were not surveyed during all three years has been omitted from the tables in an effort to normalize the comparisons. These estimates greatly under estimate the standing crop of 0+, Steelhead and Cutthroat because a large component of the basin’s standing crop is summer rearing in riffle / rapid and glide habitats that were not inventoried. In addition, there is also production for these three groups that extends upstream beyond the end point of Coho distribution where the surveys were terminated. This table however, can be utilized to establish a baseline for trend monitoring for subsequent survey years on the basin wide scale and by tributary. The table functions well to establish relative production potentials that can be utilized as a foundation for prioritizing restoration opportunities.

Basin wide Coho production rose 92% in 2003 in response to a surge in adult escapement. That year stands as the largest summer rearing population within our three year inventory, nearly twice as large as the 2002 population and 20% larger than the 2004 population. Highest rearing increases in 2003 were found in Powder Cr. (798%), Moon Cr. (533%), Little Nestucca Mainstem (327%), Niagara Cr. (265%), Mainstem Nestucca (91%), Three Rivers (70%), Elk Cr. (58%), and Bear Cr./Nestucca (40%). Habitat reaches seeded to capacity that year were found in Elk Cr., Bear Cr./Nestucca, and East Beaver Cr.

In response to a 31% drop in adult escapement estimates 2004 summer rearing estimates fell 16.4%. The top five subbasins have changed little from year to year except for the continuous rise of Niagara Cr. to the #1 producing tributary. The Nestucca mainstem has remained the largest component of basin wide Coho production during all years. Moon Cr. rose to the second largest tributary producer in 2004 leaving Beaver Cr. in third, Bear Cr. in fourth, and Elk Cr. in fifth. Highest average rearing densities for Coho were observed again in Trib F/Nestucca/2004 (1.5fish/sq.m.), Niagara (1.1 fish/sq.m.), Elk (1.0 fish/sq.m.), and Bear/Nestucca (0.94 fish/sq.m.). These density levels all display decreases from 2003 figures. Trib F of the Nestucca appeared to represent the only habitat within the basin that was seeded to capacity in 2004. Table 3 clearly illustrates the changes in abundance between these subbasins from year to year.

(Table 3) Coho production trends in the Nestucca 5^th field.

Stream	2002 Expanded Estimate	% 5^th Field	2003 Expanded Estimate	% 5^th Field	2004 Expanded Estimate	% 5^th Field
Nestucca Main	82,385	52.0	148,800	51	131,715	54
Bear	9,155	5.7	12,780	4.4	14,590	5.9
Beaver	28,115	17.6	32,110	11.0	16,445	6.7
Elk	14,970	9.4	23,610	8.1	11,470	4.7
Moon	3,140	2.0	19,990	6.7	19,170	7.8
Niagara	4,940	3.1	18,035	6.2	20,985	8.6
Powder	545	0.3	4,895	1.7	6,955	2.8
Testament	5,535	3.5	5,910	2.0	3,890	1.6
Three Rivers	995	0.6	1,695	0.6	1,685	0.7
Trib. F	3,565	2.2	3,845	1.3	3,150	1.3

-Mainstem figures and % totals in Table 3 above have been normalized to include identical habitats

Decreases in Coho production were noted throughout most reaches in 2004 with most notable losses recorded in the Nestucca mainstem (down 11.5%), the Little Nestucca mainstem (down 54%), Beaver (down 49%), Elk (down 51.4%), and Wolfe (down 61%). Exceptions to this trend included Bear Cr. of the Nestucca (up 14%), Niagara (up 16.4%), and Powder (up 42%). These three streams alone displayed continued production growth for two consecutive years. Notably, almost every tributary to the Little Nestucca showed an increase in 2004 despite basin wide reductions led by a dramatic reduction in mainstem rearing. Also worth noting were the greatly depressed populations seen this year in Elk Cr. and Beaver Cr., two primary producers of Coho and the only two subbasins to display a smaller summer rearing population in 2004 than in 2002 (the lowest year of the three year inventory for Coho abundance). These comparisons are drawn from a total of 161.5 miles of Coho distribution within the Nestucca basin.

These shifts in populations may be influenced by a number of factors ranging from differences in habitat accessibility based on winter stream flow regimes, to behavioral mechanisms that dictate which tributary will receive the bulk of the adult escapement. For example, 2004 summer rearing patterns (a year of moderate abundance compared to 2003) appeared to reflect more spawning focus in tributary reaches as compared to 2003’s higher mainstem Nestucca, Little Nestucca, and Beaver Cr. focus. Tributary distributions in general were also greater for most reaches in 2004 while rearing densities decreased. The most important trend to emerge for Coho out of all three years is the continued spawning focus on the upper basin tributaries, including Elk Cr., Bear Cr., Niagara Cr., Moon Cr., East Beaver Cr., Louie Cr., Sourgrass Cr., and the South Fork Little Nestucca, in addition to the extremely high rearing densities observed in the upper reaches of the Nestucca mainstem.

Overall 1+Steelhead rearing within surveyed reaches has dropped two years in a row by 11%. This emerges as a conspicuous negative trend that may reflect something as serious as a substantial loss of wild smolt production. 0+trout abundance displayed a 44% decline basin wide in 2003 then rose by 37% in 2004. The final basin-wide population size of 95,955 (normalized) in 2004 remained substantially lower than the 2002 population of 130,405 (normalized). This trend supports the observation that a decrease in production is occurring.

Increases in 1+Steelhead rearing were observed in Bear Cr./Nestucca (53%) and the Little Nestucca subbasin (26%) in 2003, while the largest reductions in abundance were recorded in Moon Cr. (-44%), Mainstem Nestucca (-26%), and East Beaver Cr. (-18%). 2004 surveys observed more widespread losses to this population in the Mainstem Nestucca (-27%), the Little Nestucca subbasin (-42%), Three Rivers (-42%), Beaver Cr. (-13%), and Bear Cr./Nestucca (-21%). Notable increases were observed this year in Bays Cr. (+235%, artificially supported by a large release of hatchery smolts within the tributary), Moon Cr. (+42%), Horn Cr. (+63%), and Bear Cr./Little Nestucca (+185%). The top five Steelhead producers remained similar during all three inventoried years – the Nestucca mainstem, Beaver Cr., Three Rivers, Moon Cr., and the Little Nestucca mainstem. A large 62% reduction in 1+Steelhead abundance in the Little Nestucca mainstem in 2004 coupled with the artificial surge in the Bays Cr. population from hatchery releases has switched the 5^th place ranking between these two reaches

(Table 4) 2004 Basin Wide Inventory (Includes Nestucca, Little Nestucca and Nestucca Bay 5^th fields)

Stream	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
Nestucca (main)	131,830*	44.5	28,890*	29.8	3,765*	19.1	2,570*	12.1
Alder	890		935	1.0	160		265	1.3
Bays	1,640		1,295	1.3	1,490*	7.6	915	4.3
Bear	14,590	4.9	4,655	4.8	870	4.4	875	4.1
Beaver	16,445*	5.5	9,805*	10.1	3,040*	15.5	2,225*	10.5
Bible	2,945	1.0	400		14		285	1.3
Boulder	1,360		725		390		285	1.3
Cedar	855		55		5		10
Clarence	220		75		0		80
Clear	1,115		500		65		205	1.0
Elk	11,470	3.9	4,920	5.1	490	2.5	365	1.7
Fan	35		25		5		125
Farmer	865		980	1.0	645	3.3	445	2.1
Foland	450		1,010	1.0	150		345	1.6
Ginger	45		45		10		30
Horn	1,705		840		350	1.8	380	1.8
Limestone	820		630		105		355	1.7
Little Nestucca	50,105*	16.9	9,265*	9.6	1,270	6.6	3,640*	17.2
Moon	19,170*	6.5	10,605*	10.9	2,385*	12.1	1,555	7.3
Niagara	20,985*	7.1	8,260*	8.5	700	3.6	1,665*	7.9
Powder	6,955	2.3	2,095	2.2	220	1.1	940	4.4
SlickRock	1,535		175		45		175
Smith	0		30		0		70
Testament	3,890	1.3	2,365	2.4	505	2.6	435	2.1
3 Rivers	1,685		6,290	6.5	2,515*	12.8	1,805*	8.5
Tony	30		185		125		195
Trib A	80		50		10		65
Trib C	10		45		0		10
Trib F	3,150	1.1	635		25		95
Walker	0		15		0		55
West	1,040		220		40		130
Wolfe	375		520		170		305	1.4

Basin Total	296,290	99.9	96,540	99.6	19,564	99.4	20,900	98.6

* Highlighted estimates represent the top 5 producers by species and age class for 2004

(1) % contributions are indicated for only those subbasins that contributed greater than 1% of the total.

(2) The Beaver Cr. estimates do not include the additional production available in West Beaver because of the lack of visibility for conducting the snorkel inventory.

(3) Data not normalized to 2002 and 2003 inventories

(Table 5)

Expanded Nestucca (5^th field) Estimates of Juvenile Salmonid Production

Survey Year Coho 0+ Sthd Cut

2002 159,420 122,895 22,680 19,570

2003 291,265 61,360 19,795 15,150

2004 245,215 86,690 18,280 17,030

Table 5 above deletes the production occurring in the Little Nestucca and facilitates a comparison within a single 5^th field.

Table 5 and individual stream comparison tables below also delete production occurring in the Nestucca mainstem below the Boulder Cr. Bridge (2002, 2003) and above the Cedar Cr. bridge (2004), in Alder Cr. (2003, 2004), in Bower Cr. (2002, 2003), in George Cr. (2002, 2003), in Sailing Cr. (2002, 2003), in Sanders Cr. (2002, 2003), in Turpy Cr. (2003), in Town Lake (2002, 2003), and in Walker Cr. (2004) since survey efforts in these habitats were not consistent for all three years.

Mainstem Nestucca

(Table 6)

Expanded Mainstem Nestucca Estimates of Juvenile Salmonid Production and Percent Contribution to the 5^th field

Survey Year Coho 0+ Sthd Cut

2002 82,385 (52%) 33,275 (27%) 6,780 (30%)* 4,630 (24%)*

2003 148,800 (51%) 17,280 (28%) 5,140 (26%)* 3,275 (22%)*

2004 131,715 (54%) 28,730 (33%) 3,750 (21%)* 2,370 (14%)*

The 5^th field percent contributions would be significantly higher if the rearing occurring in the

lower 14 miles of mainstem were included.

Data from the Mainstem has been normalized in Tables 5 and 6 to represent only habitat between the Boulder Cr. and

Cedar Cr. bridges.

The Nestucca mainstem, from the bridge just below Boulder Cr. to the end of Coho distribution just below confluence of Walker Cr., was again the single most productive component of the entire 5^th field for all species of juvenile salmonids. 2004 Coho abundance in this reach fell slightly 11.5% after the radical 91% rise observed in 2003. This loss closely matches the basin-wide 15.8% drop in Coho abundance. Combining the three years of data, however, still indicates an overall positive growth trend in the Coho population here. This mainstem population was 164% larger than the production from the entire Little Nestucca basin and estimates from just this reach alone accounted for more than half of the total Nestucca 5^th field production. This segment of mainstem rearing habitat encompassed approximately 33.1 lineal miles and exhibited by far the greatest production potential in the basin. 5.4 miles of low production habitat between Beaver Cr. and Boulder Cr. were truncated in 2004 due to a lack of funds while 2.8 miles of flat meadow habitat between Cedar Cr. and Walker Cr. were added to the upper endpoint. This reach was opened to anadromous migration during the summer of 2003 by blasting within the narrow boulder gorge just above the Cedar Cr. bridge. It is estimated that dropping the lower 5.4 miles of mainstem from the inventory reduced the mainstem Coho production estimate by approximately 5 percent based on historical abundances observed in this reach. 1+Steelhead and Cutthroat totals may have been reduced by as much as 20% and juvenile Chinook totals by as much as 30%. Data used in the above tables and in the discussion below have been normalized between years to facilitate an accurate comparison of trends.

Many of the smaller order tributaries that contribute flow to the mainstem truncate fish distribution with definitive anadromous barriers, steep gradients or elevated summer temperatures. The maintenance of the water quality (summer flows, temperature, DO) in the mainstem is therefore paramount to preserving and optimizing the production potential of the system as a whole because of the vast abundance of habitat it provides. Because diminishing water quality has been identified in the NNWC Watershed Assessment of 1998 as a primary issue in the management and restoration of the basin, it is important to understand that for salmonids to flourish on a scale that mimics historical conditions, the final goal is to attain quantifiable improvements in mainstem water quality parameters (see recommendations).

The distribution of summer rearing Coho juveniles during the last three years of inventories has remained nearly identical. Most production appears to be concentrated above the confluence of Boulder Cr. and below the confluence of Elk Cr. High counts continue for an additional two miles above Elk Cr. where a final spike in abundance was observed. Peak Coho numbers occur in the vicinity of the Niagara Cr. confluence and in the zone just upstream from the Elk Cr. confluence. This year’s results display a productive corridor of approximately 32.7 miles in length from Boulder Cr. to the end of distribution just below Walker Creek. Some of the mainstem pools in this reach were summer rearing up to 1,800 Coho juveniles each. The average Coho rearing density for all mainstem pool habitats dropped slightly from 0.52 fish/sq.m. in 2003 to 0.4 fish/sq.m. in 2004, with a peak density of 2.14 fish/sq.m. occurring just below Cedar Creek. The six mile zone below Cedar Cr. was the only reach where individual pools displayed Coho rearing densities at or above a level of full seeding at 1.5 fish/sq.m. Average rearing density across this zone, however, remained below this level at 0.7 fish/sq.m. Coho throughout the mainstem were relying heavily on the shallow cobble margins in the absence of complex wood. In habitats with some level of wood roughness densities were double the adjacent pools with none. Indications are that wood complexity is a very important component of even summer habitats in these large stream corridors for providing protection from predation. The high level of juvenile densities above the confluence of Elk Cr. indicates that the mainstem spawning of adult Coho in this reach is significant. The restoration projects observed in this reach, including sill-logs used to create dam pools and plunge pools, appear to have been very successful and well placed in areas of ideal gravel size, significant juvenile abundance and extensive floodplain interaction.

The 2.8 miles of habitat appended to the inventory between Cedar Cr. and Walker Cr. revealed minor colonization of this new habitat. The presence of a small population of juvenile Coho in the middle of this meadow indicated that the successful spawning of at least one pair of adult Coho occurred in 2003. Adult passage through the boulder gorge still appears difficult under moderate winter flow conditions. An expanded estimate of 115 juvenile Coho was observed above the gorge in a low rearing density of 0.01 fish/sq.m. Habitat in this reach was characterized by long slow grassy pools with a silt covered bottom and a low abundance of gravel or in-stream wood. Distribution ended below the main highway bridge and gauging station just downstream of the Walker Cr. confluence. Habitat conditions began to change about 0.8 miles below this bridge with an increase in clean gravel and larger angular rock on the stream bottom along with the beginnings of a solid alder canopy and small in-channel wood jams. An expanded estimate of 15 1+Steelhead was also reported in this reach.

1+Steelhead distribution during all three years remains distinctly different than Coho distribution with peak numbers occurring lower in the surveyed section and dropping off rapidly above survey mile 21 (just below Elk Cr.). This contrast in distribution is identical to the patterns observed in Cutthroat and Chinook juveniles during all three years. Because of the increasing size of the pool surface areas progressing downstream from the headwaters the lower densities of Steelhead observed actually represent higher production. In 2004 there were no pools above the 21 mile mark (from the bridge below Boulder Cr.) with more than 10 Steelhead observed. In comparison, some pools just above the confluence of Boulder Cr. were rearing between 30 and 40 older age class Steelhead. This year’s inventory exhibited a continued decline in abundance throughout the mainstem reaches. A loss of 27% of 1+Steelhead was observed in 2004, closely matching last year’s 24% decline. Proportionately more 1+Steelhead were noted upstream of Niagara Cr., however, during 2004 and moderate counts extended approximately 10 miles further upstream (to RM 21) compared to 2003. This 1+Steelhead distribution closely resembles the pattern observed in 2002 when the total population size was almost twice that of 2004. A similar 28% decline was noted in Cutthroat trout abundance in the mainstem during the 2004 survey. The 48% drop in 0+trout abundance observed in 2003 stands out as the most dramatic change among these species and a similar decline in 1+trout abundance had been predicted for 2004. The 0+trout population in 2004 appears to be on the rebound with an observed growth of 66%, almost up to the level seen in 2002. The obvious long term concern is for the continued declining trend in the abundance of adult steelhead.

Indications are that large numbers of Steelhead may be summer rearing in the mainstem well below the confluence of Boulder Cr. with a steady decline in the number/pool as the distance increases upstream. This same pattern can be seen in the last two years of surveys in an amplified version which includes downstream habitats extending to the Beaver Cr. confluence. The methodology employed during these snorkel inventories only portrays a picture of pool habitats and even larger numbers of Steelhead juveniles were present in each riffle and rapid habitat type. The significant observation here is the increasing importance of the mainstem for summer Steelhead rearing in a lineal progression downstream from the headwaters. Because none of the surveys included the mainstem below the confluence of Beaver Cr. it was not possible to assess whether this trend of increasing abundance would have continued.

Cutthroat distribution very nearly mimicked the pattern observed for Steelhead with a steady decrease in abundance observed with the lineal progression above the confluence of Boulder Cr. Cutthroat populations declined 29% throughout the mainstem survey reach in 2003 and another 28% in 2004. A significant loss such as this repeated over two years is an alarming trend and in conjunction with the notable declines observed in Steelhead abundance deserves additional monitoring. The distribution of older age class Cutthroats may be closely linked with the seasonal distribution of Chinook fry in their steady progression towards the estuary. The close resemblance between 2002, 2003, and 2004 1+trout and juvenile Chinook distribution patterns continues to support this hypothesis.

There was an expanded estimate of 43,040 juvenile Chinook observed in the 2003 inventory above the confluence of Beaver Cr., a 34% decrease in abundance from 2002. Only 29,565 of these were rearing above Boulder Cr. Their distribution closely matched the same pattern seen in Steelhead and Cutthroat with decreasing abundance above the confluence of Beaver Creek. 2004 surveys found an expanded estimate of 45,620 juvenile Chinook above the Boulder Cr. bridge. This accounts for more than the entire surveyed mainstem population of 2003 and stands as a 54% gain in a normalized comparison (only counting upstream from Boulder Cr. for both years). This level of summer rearing remains 14% below the 2002 juvenile Chinook population in a normalized comparison. Most juvenile Chinook were observed below the confluence of Niagara Cr. during all three years with distribution continuing up to RM 27.5 (from Boulder Cr.) in 2004. The Elk Cr. confluence, for reference, was at RM 21 of the 2004 survey. This represents an increase of 6.5 miles from the 2003 Chinook distribution and remains 3 miles further than the 2002 distribution. The changes in juvenile Chinook abundance may be insignificant because of their life history pattern that programs them to steadily migrate toward the estuary after emergence. This migration may vary from year to year based on the timing of spawning events, spring rains and mainstem temperatures. A mainstem survey 2 weeks later would likely observe a decline in abundance. Adult Spring Chinook, Summer Steelhead, and Chum Salmon were also observed within the mainstem inventory.

Alder Cr.

Alder Cr. was a minor producer of Coho during both 2003 and 2004 surveys. Summer parr abundance increased by 11% between these two years and average rearing density increased from 0.4 fish/sq.m. to 0.6 fish/sq.m. Peaks in rearing density reached just over 1.0 fish/sq.m. during each year. A significant Coho distribution of 2.3 miles was observed each year despite the low abundances. All of the Coho in Alder Cr. appear to be the result of in-stream spawning. Alder Cr. presents abundant habitat for temperature refugia from the Nestucca mainstem though little evidence of this type of migration was seen. High flows, low temperatures, and easy juvenile passage were observed throughout the survey length. Most of Alder Cr. is dominated by larger rock and boulder substrates.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	No survey	-	-	-	-	-	-	-
2003	805	0.3	880	1.4	100	0.5	325	2.1
2004	890	0.4	935	1.1	160	0.9	265	1.6

Bays Cr.

Coho numbers fell 38 % in Bays Cr. this year after a dramatic increase of 573% in 2003. A strong positive trend for Coho in the subbasin remains apparent. Summer rearing density averaged 0.23 fish/sq.m., falling from 0.7 fish/sq.m. in 2003. A peak density of 1.0 fish/sq.m. was observed at RM 1.3, approximately 0.4 miles downstream from the 2003 peak. Distribution increased in the subbasin for the second consecutive year. An additional 0.7 miles was gained to reach 3.2 miles total.

Much of the reduction to the 2004 Bays Cr. Coho production may be related to the surge in 1+Steelhead abundance noted this year and the resulting density dependant migration pressure applied to Coho by the added competition. The 1+Steelhead population in the subbasin was up 235% in 2004 from the previous year from the tributary release of hatchery smolts that appeared to have residualized. In addition, Cutthroat abundance was up 177% from the 2003 inventories. Extremely high 1+Steelhead counts were encountered in the first mile of survey, out-numbering the abundance of Coho in the same pool. The total 2004 population sizes for these two species in Bays Cr. were nearly the same. Most Cutthroat were observed in this same zone. There were no Chinook observed in the 2004 survey and neither Coho abundance or rearing density were noted as unusually high.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	395	0.2	1,765	1.4	435	1.9	235	1.2
2003	2,660	0.9	905	1.4	445	2.2	330	2.1
2004	1,640	0.7	1,295	1.5	1,490	8.0	915	5.3

Bear Cr.

Bear Cr. exhibited a continued rise in its summer rearing estimate for Coho despite observed reductions in the majority of the Nestucca basin. This subbasin was one of only 3 (including Niagara and Powder) to experience increases in Coho production for both 2003 and 2004. An increase of 14% in 2004 followed an increase of 40% in 2003. Coho production here stands as the 5^th highest contribution in the Nestucca 5^th field for 2004. Average rearing density decreased from 1.4 fish/sq.m. to 0.94 fish/sq.m. as distribution spread to 3.7 total miles in the subbasin (0.5 miles further than 2003). There were two observed peaks in spawning activity separated by a steep boulder incline and narrow bedrock gorge at RM 1. The lower zone appears more heavily used and Coho rearing densities here peaked at 2.0 fish/sq.m. (down from 3.0 fish/sq.m. in 2003). 50% of Bear Creek’s Coho were observed in this first mile. Above the narrow gorge a large supply of fine gravels and sand is retained and nearly 2 miles of excellent floodplain interaction exists. An older stand of conifers is present along much of the left side of the canyon. Rearing densities in this upper reach peaked over 2.0 fish/sq.m. in 2003 and again at 1.4 fish/sq.m. at the same location - RM 2.1. Three years of data suggest a consistent preference in spawning for these two sites. Trib. B, a low gradient canyon branching off to the left at RM 2.5, supported the greatest rearing densities of the Bear Cr. tributaries. 0.2 miles of small pools here averaged 3.6 fish/sq.m. Bear Cr. and neighboring Elk Cr. represent key anchor habitats for Coho in the mainstem Nestucca. Coho production in Bear Cr. exceeded Elk Cr. this year (by 27.2%) for the first time in the three year inventory. 2004 Coho distribution in Bear Cr. ended above a long stretch of bedrock chutes at a well established 15 foot high debris jam.

1+Steelhead populations dropped 21% this year in Bear Cr. after a gain of 53% in 2003. Their distribution was even throughout the survey. The occurrence of white mucous (potentially the parasite Apiosoma) was again noted on most 1+Steelhead and about half as many Cutthroat in Bear Cr. A radical decline in 0+trout was noticed in 2003 in Bear Cr. and, while the population rebounded slightly this year, abundance was only 61% of 2002 levels.

Year	Coho	% Total 5^th Field	0+	% Total 5th Field	Sthd	% Total 5^th Field	Cut	% Total 5th Field
2002	9,155	5.7	11,810	9.6	715	3.1	755	3.9
2003	12,780	4.4	3,300	5.3	1,095	5.5	730	4.6
2004	14,590	5.9	4,655	5.3	870	4.7	875	5.1

Beaver Cr.

East Fk. Beaver is listed in the NNWC Assessment as exceeding the DEQ standards for summer water temperature. The West Fk. of Beaver remains below the minimum standard for temperature listing. The West Fk. of Beaver was not surveyed due to poor visibility. This included Tiger Cr., NF West Beaver and Trib A. The surveyor’s notes from 2002 indicate that juvenile salmonids were present and abundant (observations were common of fish disturbing the surface). This condition is believed to be caused by the extensive dunal forest habitats to the west which are drained by these tributaries. This is a unique geology within the Nestucca Basin and closely resembles conditions in the nearby Sand lake basin. The Access database treats the Beaver Cr. subbasin different than most other basins. By following the USGS naming protocols established on the 1:24,000 scale, Beaver Cr. terminates at the junction of West and East Beaver. To completely understand the current distribution profile of juvenile salmonids in the subbasin, the user will need to append the East Fk. data to the top end of the Beaver Cr. data set.

Beaver Cr. was the fourth highest producer of Coho in the Nestucca 5^th field in 2004. There was a dramatic reduction in Beaver Cr. Coho production in 2004 compared to the previous cohort (49%). An expanded estimate of 3,040 1+Steelhead were observed in the subbasin (13% decrease from the previous cohort). The Beaver Cr. and Elk Cr. subbasins are the only two Nestucca tributaries to exhibit lower Coho abundance in 2004 than in 2002, both registering reductions in abundance about three times greater than the 2004 basin-wide reduction of 15.8%. Cutthroat summer rearing continues to be on the rise (up 21%).

For the mainstem of Beaver Cr. from it’s confluence with the mainstem Nestucca to the confluence of the East and West Fk. (3.0 miles) there was an expanded estimate of just 415 summer rearing Coho parr and 705 1+Steelhead. This represents a significant and continued negative trend for both species in this reach when compared to 2003 totals - 1,930 Coho and 1,140 1+Steelhead, and 2002 totals - 2,940 Coho and 1,385 1+Steelhead. It should be noted that poor visibility through this reach under-estimates actual population sizes and complicates comparisons. This condition and its effects, however, have remained consistent during each year of survey. Most Coho spawning occurs upstream in East Beaver with the mainstem of Beaver Cr. supplying surplus rearing habitat for density dependant summer migrants as well as important winter rearing habitat. Density dependant migrants out of East Beaver were probably minimal this year due to the greatly reduced fry production and summer parr densities observed there. Distribution patterns for all species indicate that Beaver Cr. is not being utilized as upstream temperature refugia from the mainstem. This tracks well with the temperature data that suggests elevated stream temperatures may be a factor limiting water quality in Beaver Cr.

East Fk. Beaver and its tributaries were producing an estimated 15,570 Coho in 2004, down from 30,180 in 2003. This accounts for 97% of the total Coho observed in the Beaver Cr. subbasin (understanding that the West Fk. was not surveyed). This quantifiable decrease in abundance is one of two large reductions in Coho escapement observed in the Nestucca basin in 2004 (Elk is the other). Average rearing density dropped from 1.5 fish/sq.m. to 0.54 fish/sq.m. with little change in distribution, a total of 10.1 miles (from the junction with mainstem Beaver). 2002 rearing densities increased from beginning to end of survey indicating a narrow (2.3 mile) distribution of adult spawners between RM 7.2 and 9.5. This zone expanded to 3 miles in 2003 with a few pools exhibiting rearing densities over 5 fish/sq.m., a fully seeded condition. 2004 density profiles exhibit a similar preference for this reach, a 1.1 mile zone with peak densities reaching 1.7 fish/sq.m. and the highest individual pool counts occurring just downstream. It is believed that most of this year’s loss in production was due to a lack of adult escapement.

The larger pool surface areas just above the confluence with mainstem Beaver retained the majority of the subbasin’s production of Steelhead and Cutthroat. This distribution has remained identical through all three years. A potential parasitic infestation (resulting in spots of white mucous on the dorsal surface) was noted on most 1+Steelhead. Juvenile Chinook distribution ended by RM 4.2. No Access was granted by landowners between RM 1.3 and RM 2.5, therefore a portion of each species’ production has not been quantified for the subbasin (mileage was included in distribution graphics). A distinct lack of in-stream wood and streamside cover was noted throughout East Beaver until well into its upper reaches. Fish distribution ends in a series of steep boulder/debris jams.

Bear Cr. and Trib C appear to be the most important tributaries in the subbasin. Coho distribution in Bear Cr. extended for 2.4 miles in 2004 and the population here (785 expanded) accounted for 4.8% of the subbasin total. Coho rearing density here averaged 0.4 fish/sq.m. and peaked near RM 1 at 1.1 fish/sq.m. Good flows in this tributary, cold water temps., and adequate gravel reserves suggest a much higher production potential here for Coho. Population profiles suggest that Bear Cr. is providing important cold water temperature refuge for the mainstem of East Beaver. Low flows and small pools limit production in Trib C East Beaver. Production here in 2004 appeared minimal compared to 0.33 miles of moderate Coho rearing during the summer of 2003.

Year	Coho	% Total 5^TH Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	28,115	17.6	25,915	21.1	3,925	17.3	632	3.2
2003	32,110	11.0	6,425	10.2	3,480	17.4	1,835	11.7
2004	16,445	6.7	9,805	11.2	3,040	16.5	2,225	12.9

Bible Cr.

Bible Cr. contained Coho to a point 0.9 miles above the confluence with the mainstem where adult passage is terminated at a 30’ waterfall. The expanded summer rearing estimate for Coho here has risen consecutively for all three years of the inventory, most notably between 2002 and 2003. Average rearing density has increased from 0.16 fish/sq.m. in 2002 to 0.8 fish/sq.m. in 2003 to 0.9 fish/sq.m. in 2004. Temperature dependent upstream migrations from the Nestucca mainstem appear to be the main source of summer rearing juveniles. The 63% loss in 0+trout abundance over the three year period appears also to be a noteworthy trend.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	165	0.1	1,080	0.9	145	0.6	200	1.0
2003	2,340	0.8	500	0.8	115	0.6	150	1.0
2004	2,945	1.2	400	0.5	140	0.01	285	1.6

Boulder Cr.

Boulder has a number of stream crossings that all appear to be negotiable to both adult and juvenile salmonids. Coho distribution over three years has increased by 0.7 miles on the mainstem to reach 3.0 miles total. Average rearing density rose from 0.24 fish/sq.m. in 2002 to 0.42 fish/sq.m. in 2003 and 0.45 fish/sq.m. in 2004. Juvenile Coho abundance here showed little change between 2003 and 2004 after a substantial growth of 163% between 2002 and 2003. Preferred spawning locations for Coho seem to be centered between RM 1.4 and RM 2.0. Turpy Cr. and the remaining tributaries could not be surveyed in 2004 due to a lack of funding and have not been included in this comparison. A distinct lack of in-stream wood and pool development is apparent in Boulder Cr. Fish distribution ends in steep boulders. Steelhead and Cutthroat numbers have shown little change through the three years of data while 0+trout have been on a steady decline, along with several streams in the basin, decreasing in abundance 74.4% since 2002.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	560	0.4	2,830	2.3	230	1.0	395	2.0
2003	1,470	0.5	970	1.5	220	1.1	380	2.4
2004	1,360	0.5	725	0.8	390	2.1	285	1.6

Cedar Cr.

Cedar Cr. enters the mainstem very near the end point of Coho distribution in the mainstem Nestucca. Cedar contains only Coho that were upstream migrants from the mainstem seeking temperature refugia from the elevated stream temperatures in the upper mainstem. There is a boulder gorge in the mainstem just above the confluence of Cedar Cr. that has been opened to adult Coho migrants for the first time this year. Based on surveyor notes, it is doubtful that this gorge could be negotiated by juvenile Coho under low summer flow regimes. There are distinct water quality concerns in the headwater reaches that involve establishing a minimum summer flow for the Nestucca ecosystem and the current and quantifiable issue of elevated summer stream temperatures that are visible in the juvenile salmonid response in Cedar Cr. Cedar Cr. was contributing 30% of the mainstem flow at its confluence. There is a 5ft diameter culvert on the main Hwy with a 4ft. summer perch. This pipe is terminating upstream juvenile salmonid migrations that are very significant because of the poor water quality in the upper mainstem above the confluence of Cedar. Unfortunately the maintenance of this crossing would only result in an additional 500 ft. of accessible habitat because of a 20 ft falls just upstream that terminates all anadromous distribution. Summer juvenile Coho rearing density averaged 2.2 fish/sq.m. in 2004, 0.5 fish/sq.m. in 2003, and 1.2 fish/sq.m. in 2002. The few pools available in this short 0.26 mile reach appear to be greatly preferred to the mainstem by most juveniles in the area.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	545	0.3	145	0.1	0	0	45	0.2
2003	245	0.08	95	0.2	20	0.1	45	0.3
2004	855	0.3	55	0.06	5	0.03	10	0.06

Clarence Cr.

Coho distribution in Clarence Cr. for 2004 was the shortest of all three survey years – 0.33 miles. Totals for other species would likely have been greater had the survey continued further upstream. Coho production and density was again minor. It is probable that Coho spawning is occurring in Clarence Cr. as habitat conditions appear healthy. Upstream migration from the Nestucca mainstem is also likely. There was a definitive anadromous barrier (bedrock / boulder falls) 0.88 miles above the highway crossing. The survey began at the hwy crossing because access was denied in the stream segment from the hwy to the mainstem Nestucca. Physical barriers to fish passage in this segment are unknown. The hwy culvert was passable for juveniles and adults. Lineal distance is measured from the confluence with the Nestucca mainstem. It is not clear why the production potential present in Clarence Cr. has not been achieved. A steady decline in Steelhead is apparent through three years of data.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	85	0.05	295	0.2	50	0.2	260	1.3
2003	305	0.1	25	0.04	20	0.1	15	0.1
2004	220	0.09	75	0.09	0	0	80	0.5

Clear Cr.

The Clear Cr. survey began at the Jenks rd. crossing because access was denied from this crossing downstream to the mainstem Nestucca. Coho production here rose dramatically in 2003 from a greatly depressed condition in 2002 and decreased in 2004 by 26%. The distribution of summer rearing Coho has changed little in three years remaining between 0.84 miles in 2002 and 1.2 miles in 2003. Lineal distance is measured from the Jenks rd. culvert (easy passage). Average rearing density fell from 0.65 fish/sq.m. in 2003 to 0.3 fish/sq.m. in 2004. Flows in Clear Cr. were noted as clear and cold and gravel supplies abundant both below and above a narrow boulder/debris gorge, which has been passable each survey year. This data suggests that a much higher production potential for juvenile Coho could be realized from Clear Cr. The lower end of Clear Cr. would be extremely valuable distribution data if access could be sequestered because of the potential for significant upstream temperature dependant migrations of juveniles from the lower mainstem. 1+Steelhead numbers have dropped back to 2002 levels after a substantial increase in 2003.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	140	0.09	570	0.5	65	0.3	665	3.4
2003	1,505	0.5	380	0.6	510	2.6	110	0.7
2004	1,115	0.4	500	0.6	65	0.4	205	1.2

Elk Cr.

This 2.6 mile reach of prime habitat ranked 3^rd in Coho production for the entire 5^th field during 2002 and 2003 surveys. Results from the 2004 inventory found Elk Cr. Coho production falling from 3^rd largest to 6^{th largest}, with Niagara Cr., Moon Cr., and Bear Cr. each out producing Elk Cr. Coho abundance in 2004 dropped to the lowest level of these three years, falling 51.4% from 2003 (more than three times the basin-wide 15.8% loss) and remaining 23.4% lower than 2002. Coho losses here in 2004 closely match the 49% decrease seen in the Beaver Cr. population lower in the basin, another one of the Nestucca’s most important tributaries for Coho production. In addition, Beaver Cr. stands as the only other subbasin besides Elk Cr. to record a lower Coho abundance in 2004 than in 2002. Coho abundance in Bear Cr., meanwhile, the subbasin directly adjacent to Elk Cr. and another major Coho producer historically, continued to rise by 14% and surpassed Elk Cr. abundance by 27.2%. 2004 declines in Elk Cr. are attributed mainly to a lack of adult escapement.

Coho production in Elk Cr. during 2003 reached levels above those commonly classified as seeded to capacity. Production increased by 58% over an already notable 2002 population and exhibited a remarkable average rearing density throughout the entire 2.6 mile distribution of Coho of 3.0 fish/sq.m. (peak density of 7.6 fish/sq.m.). Average rearing density during the 2004 survey dropped to 1.0 fish/sq.m. with a major spawning peak observed at RM 2.2 and a smaller peak resulting from upstream temperature dependant migrations from the Nestucca mainstem near the mouth. Rearing density during the 2002 survey averaged 1.4 fish/sq.m.

The lower Elk Cr. channel exhibits abundant boulders with little wood and gradually transitions to include finer gravels and debris jams. Several log structure sites are noted in the upper half that are continuing to function as high quality plunge pool habitats (summer) while effectively trapping mobile gravels. The lower gradients and fine gravel reserves surrounding RM 2 appear to be the main destination of adult spawners through all three years and the pools with structures retain large number of the offspring. In addition, the abundance and accessibility of cold water habitats available in lower Elk Cr. appear to be very attractive to juvenile Coho seeking temperature refuge from the mainstem Nestucca.

1+Steelhead and Cutthroat populations have remained moderate throughout the inventory, somewhat surprising considering the abundance of emergent Coho fry as an available food source. An estimated 75% of all 1+Steelhead observed, displayed signs of skin infection (mucous response) that may be indicative of a parasitic infestation. A mild occurrence was also noted in neighboring Bear Cr. 0+trout abundance in the subbasin has remained stable compared to many steep declines observed in nearby tributary habitats.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	14,970	9.4	4,780	3.9	575	2.5	375	1.9
2003	23,610	8.1	3,915	6.2	485	2.4	415	2.6
2004	11,470	4.7	4,920	5.6	490	2.7	365	2.1

Fan Cr.

During 2002 and 2003 surveys Coho juveniles extended to the culvert crossing at RM 0.3 and terminated. The surveyor described the culvert crossing as excellent placement and no barrier to juvenile distribution. The last Coho, however, were observed in the pool below the culvert during both survey years. In 2004 Coho abundance in Fan Cr. dropped by 87% and distribution ended below the road crossing at RM 0.2. Indications are that Coho in Fan are mostly the result of upstream temperature dependant migrations from the mainstem.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	135	0.1	115	0.1	10	0.04	40	0.2
2003	275	0.1	195	0.3	10	0.05	60	0.4
2004	35	0.01	25	0.03	5	0.03	125	0.7

Farmer Cr.

Farmer Cr. was an excellent contributor of cold water to the mainstem Nestucca. There is probably significant temperature maintenance provided to the mainstem from this tributary. There is a 2 ft. concrete dam at RM 0.44 that may be terminating the upstream distribution of juvenile salmonids from the Nestucca mainstem. This effect is strongly visible in the 2003 distribution data. Expanded estimates for Coho in Farmer Cr. remain well below potential, with a mix of spawning and upstream temperature dependant migrations from the mainstem taking place. A long reach of mixed species forest canopy, frequent debris jams, fine sandstone gravels, and deep pools extends from the last private residence to the multiple junction of tributaries above the last bridge (RM 2.8). Despite a minor decline in 2004, a positive trend in Coho abundance is apparent when compared with the 2002 population. This trend is supported by the 100% increase in lineal distribution observed in 2004, up from 1.4 miles to 2.8 miles. Highest counts for Coho in 2004 were observed in the lowest 1.8 miles of stream.

The dam did not appear to influence 1+Steelhead migrants to any significant degree during the surveys. The positive trend (98%) observed in 1+Steelhead abundance between 2002 and 2004 is complicated by the difference in lineal distance between the two years. It is likely that if the 2002 survey extended the full 2.8 miles of the 2004 survey that more 1+Steelhead would have been observed. An expanded estimate of 1+Steelhead found within the first 1.4 miles of the 2004 survey totals 425, still a 31% increase over the three year period. The 2003 survey extended 1.3 miles and the 45% decline observed in 1+Steelhead that year is regarded as a fairly accurate comparison. Most 1+Steelhead displayed signs of skin/mucous infection. There was a road culvert at RM 0.67 that had an 8 inch drop that also may have impacted upstream juvenile distribution. There was Japanese Knot weed observed along the stream corridor that could still be controlled (its abundance was limited).

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	295	0.2	1,345	1.1	325	1.4	345	1.8
2003	945	0.3	965	1.5	180	1.0	245	1.6
2004	865	0.3	980	1.1	645	3.5	445	2.6

Foland Cr.

2002 Coho distribution in Foland Cr. was limited to the first 0.26 miles and was believed to have originated solely from the upstream migration of juveniles from the Nestucca mainstem. It appears that spawning, in addition to upstream migration, may have occurred in 2003 and 2004 within Foland Cr. Surveys in 2003 observed a dramatic increase in population size – 1.5 miles of distribution (including the beginning of Trib. A) and a low average rearing density of 0.4 fish/sq.m.. Surveys in 2004 observed a significant 62.5% decline in Coho abundance while lineal distribution increased by 1 mile in Trib. A to reach a total of 2.4 miles within the subbasin. Average rearing density remains extremely low – 0.06 fish/sq.m. in the mainstem and 0.23 fish/sq.m. in Trib. A. This appears to be the maximum lineal distance available to anadromous migration at present within Foland Cr. as distribution in the mainstem ended at a large log/debris jam and at a permanently impassable 30’ falls in Trib. A. The consistent rise in abundance for trout species is again complicated by the increases in survey length for each year.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	40	0.03	260	0.2	40	0.2	95	0.5
2003	1,200	0.4	385	0.6	90	0.5	120	0.8
2004	450	0.2	1,010	1.2	150	0.8	345	2.0

Ginger Cr.

Maximum distribution for Coho in Ginger Cr. occurred in 2002 and was recorded as 368 feet. The small population here has shown little change in size and is probably the result of an upstream temperature dependant migration. There is a 6 ft falls just up from the mouth that probably truncates anadromous distribution. In addition, the culvert at the mouth of Ginger has a 1 ft. pour that probably terminates juvenile migrations.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	40	0.03	190	0.2	0	0	5	0.03
2003	30	0.01	50	0.08	0	0	5	0.03
2004	45	0.02	45	0.05	10	0.05	30	0.2

Horn Cr.

Coho have been broadly distributed in Horn during each survey year. Maximum lineal distance for each year’s population was recorded as 2.8 miles (2002), 4.4 miles (2003), and 3.4 miles (2004). Expanded summer rearing estimates dropped 41.4 % in 2004 after a gain of 88% in 2003, back to a level almost identical to 2002. Average rearing density has remained near 0.3 fish/sq.m. with peaks reaching 1.3 fish/sq.m.. Peak densities occur near the survey endpoint although most of the volume of the rearing population appears to center around the midpoint of the reach, approximately RM 1.4. Several excellent sites for spawning exist throughout Horn Cr. with easy access to the Nestucca tidewater. All the observed culverts were passable for both adults and juveniles. Coho production potential in Horn Cr. appears to be much higher than presently realized and to be limited mainly by adult escapement. 1+ Steelhead abundance here has been on a steady climb from the greatly depressed condition observed in 2002.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	1,545	1.0	1,860	1.5	10	0.04	510	2.6
2003	2,910	1.0	1,025	1.6	215	1.1	775	5.0
2004	1,705	0.7	840	1.0	350	1.9	380	2.2

Limestone Cr.

No Coho were present here in 2002. Surveys in 2003 revealed dramatic improvement in Coho escapement within the steep boulder habitat of this tributary. Coho distribution that year extended 2.2 miles in the mainstem and a total 0.6 miles up two side tributaries. Distribution then fell in 2004 down to 1.6 miles in the mainstem and 0.23 miles combined for Trib. A and Trib. B. Coho abundance likewise fell by 23%. Rearing density averaged 0.5 fish/sq.m. in the mainstem and 0.7 fish/sq.m. in Trib A for both years Peak density appeared low in the mainstem, 2.2 fish/sq.m. at RM 0.25, during 2003, and moved upstream to RM 0.7 (1.7 fish/sq.m.) in 2004. Some of the abundance in this reach is probably the result of upstream migration from the Nestucca mainstem. In Trib. A peak density dropped from 2.0 fish/sq.m. (RM 0.15) in 2003 to 1.2 fish/sq.m. (RM 0.04) in 2004. Distribution in Trib. A (16.5% of subbasin total) ends after 900 feet at an impassable waterfall. Distribution ends in the mainstem and Trib. B in steep boulders.

Expanded Coho estimates in Limestone Cr. exhibit a positive trend over three years. A mix of spawning and upstream temperature dependent migration appears to be occurring. Spawning habitat appears poor to moderate throughout the subbasin with deep pools, steep gradients, and large rocks and boulders dominating the substrate. Rearing conditions for juvenile migrations out of the Nestucca mainstem appear excellent for similar reasons. The mainstem culvert appears to be in good shape and the cement steps easily passable.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	0	0	390	0.3	50	0.2	115	0.6
2003	1,065	0.4	515	0.8	85	0.4	195	1.2
2004	820	0.3	630	0.7	105	0.6	355	2.1

Moon Cr.

Moon Cr. enters the Nestucca near Blaine and contains the major fourth order tributary East Cr. This subbasin has been the site of extensive long term aquatic research and restoration conducted by the BLM and ODFW. The two streams were the site of a paired treatment and control study that evaluated the impacts of changes in winter habitat on smolt production. The historical abundance observed in the subbasin indicates that relatively low adult escapement of Coho has occurred during all three survey years. This statement is based mainly on the low average rearing densities recorded - 0.8 fish/sq.m. in 2003 and 2004. Adult escapement here appears to be on a steady increase, however, and has resulted in a positive three year trend in expanded Coho rearing estimates, despite minor reductions in 2004 (4%). Coho estimates rose 537% in 2003 from drastically low levels in 2002 and showed little change from this level during the 2004 survey. These increases have left Moon Cr. ranking third in the Nestucca 5^th field for 2004 Coho production. Moon Creek’s percent contribution to the 5^th field total Coho production has risen steadily from 2% to 7.8% and Coho abundance here in 2004 was equal to 14.6% of the Nestucca mainstem Coho population.

Coho distribution in the subbasin continued to increase in both forks reaching 5.3 miles in Moon Cr. and 5.9 miles in East Cr. (compared to 4.7 miles in Moon and 5.4 miles in East Cr. in 2003). Moon Cr. densities remained at an average of 0.8 fish/sq.m. during the 2004 survey while East Cr. densities fell 44% to an average of 0.45 fish/sq.m.. Coho abundance fell 9% in mainstem Moon Cr. while East Cr. showed a 2% increase. The rise in abundance seen in East Cr. coupled with an increase in lineal distribution and a drop in rearing density was observed in several other streams throughout the basin in 2004. These figures appear to be well below the production potential existing in the subbasin. The aquatic habitats available in Moon and its tributaries indicate that Coho abundance could be substantially larger at full adult seeding. Subbasin totals for Coho appear to favor East Cr. with increasing tendency during all years (accounting for 56% of total subbasin production in 2004).

Multiple peaks in spawning activity appear in each fork. A gradually increasing density trend toward the end of distribution has been observed in Moon Cr. where rearing density peaked at 3.9 fish/sq.m. (RM 4.3) in 2003 and at 3.2 fish/sq.m. (RM 3.8) in 2004. Rearing density averaged 1.5 fish/sq.m. (full seeding) from between RM 3.7 and RM 5.2 in 2004. Average rearing density in East Cr. fell to 0.45 fish/sq.m. in 2004 and the Coho population here was observed more evenly distributed in the lowest 4.2 miles of survey. A peak of 1.4 fish/sq.m. was observed in 2004 at RM 3.1 compared to the 2.6 fish/sq.m. observed in this zone last year. Trib. G (Trib. C in 2003 data) appears to be the most productive of the many East Cr. tributaries with a 2004 expanded estimate of just 140 Coho (90 in 2003), 1000 feet of lineal distribution (605 feet in 2003), and an average rearing density of 1.4 fish/sq.m. (2.2 fish/sq.m. in 2003). This low gradient stream joins East Cr. at RM 3.8 and accounted for 78% of all tributary Coho in the East Cr. subbasin for 2004 (90% for 2003). Pools resulting from habitat restoration logs accounted for most of the summer rearing population in upper East Cr. Coho Distribution in Moon Cr. was terminated by a series of debris jams while an increasing abundance of bedrock terminated distribution in East Cr. Coho production in the Moon Cr. subbasin continues to be limited mainly by adult escapement.

Both Steelhead and Cutthroat production has remained significant in this subbasin throughout the three year inventory, despite significant reductions in 2003. The majority of each species has occurred in the lowest two miles of each branch during the surveys. The dramatic reduction in 0+trout abundance observed in 2003 showed little correlation to the increases seen in 2004 1+Steelhead and Cutthroat populations. The increases in lineal distance for each survey is relatively insignificant in this case since the large majority of these species is consistently found in the lower reaches of each stream. This data suggests significant migration of 1+trout into Moon Cr. from other areas of the basin. A mild occurrence of skin infections on many 1+Steelhead and Cutthroat, similar to other upper Nestucca tributaries, was observed in Moon Cr.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	3,140	2.0	16,465	13.4	3,015	13.3	2,525	13.0
2003	19,990	6.7	5,830	9.3	1,675	8.4	1,335	8.5
2004	19,170	7.8	10,605	12.1	2,385	13.0	1,555	9.0

Niagara Cr.

Niagara exhibits tremendous salmonid production potential with easy access to high quality spawning substrates for 4.3 miles in the mainstem to a potential barrier at a bedrock falls and another 2.1 miles in Beulah Cr. to a major fork where gradients become limiting. Adult escapement is blocked early in Pheasant Cr. by a bedrock falls after 0.6 miles and multiple log jams. In 2002 Coho were only utilizing 2.4 miles of mainstem habitat, with distribution terminating just above the confluence of Pheasant Cr., and only 0.7 miles of Beulah Cr. During the 2003 survey Coho abundance rose substantially (265%) and distribution extended through the remaining 1.9 miles of mainstem habitat up to the falls and through the total 2.1 miles of productive habitat in Beulah Cr. 2004 surveys found a decrease in summer rearing distribution, down to 3.8 miles in the mainstem and 1.6 miles in Beulah Cr., while expanded estimates continued to climb by 16.4%. Niagara Cr. was one of only 3 subbasins (including Bear and Powder) within the 5^th field to experience two years of continuous growth in Coho production. Its rise in percent contribution to 5^th field total Coho production, from 3.1% in 2002 to a notable 8.6% in 2004, has left this subbasin as the second largest Coho producer in the Nestucca 5^th field (following only the Nestucca mainstem). Indications are that potential carrying capacity for this system remains substantially higher.

About 85% of the subbasin Coho population was found in the mainstem during each survey year. Average rearing density there climbed from 0.44 fish/sq.m. in 2002 to 1.1 fish/sq.m. in 2003 and showed little change in 2004. A peak density of 1.9 fish/sq.m. was achieved in multiple locations throughout the lower 2 miles of mainstem in 2003. Peak density in 2004 climbed to 3.3 fish/sq.m. and moved upstream slightly to RM 2.6. The bulk of the subbasin population during these two years was found downstream of these peak mainstem density readings. Average rearing density and lineal distribution for Coho here indicate a strong opportunity in mainstem Niagara for continued production increases. The only limiting factor to summer production appears to be adult escapement.

Beulah Cr. exhibited two spawning peaks in 2003, the first at RM 0.6 (1.3 fish/sq.m.) and the second at RM 1.4 (2.5 fish/sq.m..). Rearing density averaged 0.9 fish/sq.m. throughout 2.1 miles of distribution, an increase of 1.4 miles over 2002. Coho production in Beulah Cr. rose 309% in 2003 and accounted for 13% of the subbasin total. Average rearing density dropped to 0.55 fish/sq.m. in 2004 and expanded estimates here fell 32% (accounting for 7.5% of the subbasin total). Peak density reached 1.4 fish/sq.m. at RM 0.25.

Most of the increase within the subbasin for the 2004 summer Coho population occurred in the lower Niagara mainstem and in Pheasant Cr. There appears to have been a spawning event all three years in the lower few hundred feet of Pheasant Cr. and a log jam barrier with a small bedrock falls just above this point currently terminates upstream distribution of adult Coho (Steelhead were observed above this jam). Upstream temperature migration out of mainstem Niagara Cr. also appears to be contributing to the high densities found in this stream. An average rearing density of 3.4 fish/sq.m. was observed here in 2003 and another high reading of 3.5 fish/sq.m. was repeated here in 2004. The expanded estimate of 560 juvenile Coho for 2003 grew 223% in 2004 to reach 1,810 juvenile Coho. The 2004 Coho population here was 2% larger than in Beulah Cr. with only 1/3 of the lineal habitat and the average rearing density for Coho here was larger than any individual peak density in the rest of the subbasin. Summer rearing in Pheasant Cr. accounted for 8.6% of the subbasin total.

1+Steelhead abundance in the subbasin appears similar between all three surveyed years. Cutthroat abundance showed little change between 2002 and 2003 considering this increase in survey distance then doubled between 2003 and 2004 while survey distance in the subbasin decreased by 1 mile total. Mild skin infection was noted on several 1+Steelhead during all years of inventory.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	4,940	3.1	5,360	4.4	835	3.7	510	2.6
2003	18,035	6.2	3,500	5.7	705	3.6	855	5.6
2004	20,985	8.6	8,260	9.5	700	3.8	1,665	9.8

Powder Cr.

Powder Cr. contained Coho that extended to a point 2.8 miles above the confluence with the mainstem. This represents a continued increase of 0.2 miles of distribution in the mainstem as well as an additional 0.4 miles in the Left Branch where distribution totaled 1 mile. No Coho were seen in the Left Branch in 2002. Shueble Cr. supported 0.5 miles of summer Coho rearing for the first time in the three year inventory while the Dahl Fork contained no Coho for the third straight year. Expanded estimates for summer rearing Coho were extremely low here in 2002, totaling just 545 Coho for the entire subbasin. This figure increased by 798% in 2003 and again by 42% in 2004, the greatest increase seen in the Nestucca 5^th field during a year when Coho numbers fell 16.4% basin-wide. Powder Cr. was one of only 3 subbasins (including Bear and Niagara) to experience continued growth in its Coho population this year.

The average rearing density in the mainstem rose from 0.14 fish/sq.m. in 2002 to 0.86 fish/sq.m. in 2003 and fell slightly to 0.7 fish/sq.m. in 2004. An average rearing density of 0.7 fish/sq.m. in the Left Branch during 2003 showed no change in 2004. Two peaks in spawning density were observed in the mainstem during the 2003 survey, the first at RM 1.1 (1.7 fish/sq.m.) and the second at RM 1.8 (1.1 fish/sq.m.). High numbers of upstream migrants from the mainstem Nestucca were seen in the lowest pools. During 2004 surveys, upstream temperature dependant migrations from the mainstem were observed for at least 1600 feet of stream and averaged 1.8 fish/sq.m., a spawning peak was observed at RM 1. Rearing density in the Left Branch peaked at 1.4 fish/sq.m. at the end of distribution (RM 0.6) in 2003 and at 1.3 fish/sq.m. at RM 0.45 and RM 0.9 in 2004. Coho production in the left branch accounted for 6% of the subbasin total in 2003 and 12.4% in 2004. Coho distribution in the mainstem ends in a series of steep waterfalls and in low flows and wood jams in the Left Branch.

It looks as though some Coho spawning may have taken place in Shueble Cr. this year along with a small occurrence of upstream migration out of Powder Cr. A small population of juvenile Coho (375 expanded) were observed here in an average rearing density of 1.1 fish/sq.m. that extended a total of 0.5 miles. Density peaked at 1.9 fish/sq.m.. Distribution in this stream ended in steep gradients after multiple divisions of flow among tributaries. The Dahl Fork of Powder Cr. appears to be limited by an immediate occurrence of large boulders and steep gradients.

In spite of dramatic improvements in the system, rearing densities remain below capacity throughout all of the reaches in the Powder Cr. subbasin. A noticeable lack of fine spawning gravel in the system may be a significant limiting factor in Powder Cr. 1+Steelhead have maintained a low but stable abundance in the system while Cutthroat have exhibited a continuous increase. There was a white mucous observed on both Steelhead and Cutthroat in Powder Cr. throughout the inventory that appeared similar to the infections sighted in several other upper Nestucca tributaries. These occurrences appeared to decrease substantially during the 2004 survey.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	545	0.3	1,130	0.9	180	0.8	335	1.7
2003	4,895	1.7	1,415	2.3	210	1.1	515	3.4
2004	6,955	2.8	2,095	2.4	220	1.2	940	5.5

Slickrock Cr.

The one mile survey here continued to a 60 ft. bedrock falls classified as a definitive anadromous barrier. Coho distribution actually terminated 0.3 miles downstream of the falls at a series of 6ft. bedrock slides during all survey years. The expanded summer rearing estimate for Coho in Slickrock has shown almost no change throughout the inventory. Average rearing density remained healthy at 1.1 fish/sq.m. with spawning peaks midway through the survey reaching 2.1 fish/sq.m.. White mucous was also commonly observed on 1+ and older Steelhead and Cutthroat juveniles which may indicate the presence of a parasitic infestation.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	1,525	1.0	880	0.7	160	0.7	240	1.2
2003	1,825	0.6	390	0.6	70	0.4	140	0.9
2004	1,535	0.6	175	0.2	45	0.2	175	1.0

Smith Cr.

The Smith Cr. survey began at a submerged culvert low on agricultural land but above the confluence with the mainstem Nestucca. This culvert was not a passage problem for juveniles or adults. The next culvert crossing at the main road (2002 and 2003) was a 4 ft perched pipe that was 4 ft in diameter. Coho during both survey years were observed in the pool below the culvert and no higher. This culvert was replaced during the spring of 2004 with a new well placed 8 foot embedded steel pipe. In 2004 there were no Coho observed either above or below this culvert. Habitat conditions above the new culvert looked excellent for future spawning and rearing. Smith Cr. appears to be a prime option for juveniles from the lower Nestucca mainstem seeking temperature refugia. The Coho seen here in 2002 and 2003 were exceptionally large and probably benefiting from the nutrient rich aquatic environment.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	10	0.01	35	0.03	0	0	185	0.9
2003	70	0.02	10	0.02	10	0.05	105	0.7
2004	0	0	30	0.03	0	0	70	0.4

Testament Cr.

Testament was a major producer of juvenile Coho during the three year inventory. The expanded summer rearing estimates for Coho showed little change between 2002 and 2003 with average rearing densities remaining at a healthy level of 1.3 fish/sq.m. and multiple spawning peaks surpassing 2.0 fish/sq.m. The 2004 survey found a 34% decline in Coho abundance, in accordance with basin-wide losses, and a drop in average rearing density to 0.6 fish/sq.m.. Only one peak in spawning activity reached 1.9 fish/sq.m. in 2004, near RM 2.2, though distribution remained consistent at 3.3 miles. A series of large wood jams exists at this point in the stream that has shown no change throughout the three year inventory. Stream conditions look good for further distribution above these jams once they are broken up. There was a 1300 ft. boulder gorge that began at RM 0.9 that maintained significantly lower densities of Coho and Steelhead. The Hwy culvert was in excellent condition and passable for all age classes. A positive trend for both 1+Steelhead and Cutthroat seems to be emerging in Testament Cr. over the last three years.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	5,535	3.5	2,410	2.0	195	0.9	225	1.1
2003	5,910	2.0	1,480	2.4	310	1.6	205	1.4
2004	3,890	1.6	2,365	2.7	505	2.8	435	2.6

Three Rivers

Three Rivers contains an ODFW production facility at Cedar Cr. that raises Spring Chinook, Summer and Winter Steelhead. Because the location of this facility is low in the Three Rivers subbasin, there is a trap and fish weir in place to trap adults of hatchery origin that may be compromising the unimpeded upstream migration of wild anadromous migrants. It is important to understand that the current genetic selection, production potential, and distribution of OCN Coho, wild Winter Steelhead, wild Fall Chinook, and Sea run Cutthroat in the Three Rivers subbasin may be impacted by the hatchery practices occurring at the site of this weir. All anadromous populations exhibit broad run timing profiles that overlap with other species and subspecies. The peaks of these profiles typically differ but there is significant overlap in the early and late components of each of these runs. For the Cedar Cr. site, the weir is passable from the first significant fall freshet to a point when hatchery Winter Steelhead adults first appear. It is this line of demarcation between fall Chinook and winter Steelhead (variable from year to year and dependant on flow regimes) that may truncate the late spawning component of both the wild Fall Chinook and the late OCN Coho populations. The effect of this demarcation may be most significant for OCN Coho because the potential for adult spawner escapement exists in many coastal Coho systems into the month of February.

Three Rivers exhibited only minor escapement for OCN wild Coho for the 2001 brood year. The expanded estimate of summer rearing Coho parr for the entire subbasin in 2002 was 995. The majority of these juveniles (77%) were observed in Alder Cr. with the only exception being the 35 (expanded) juveniles observed in Pollard Cr. and the 190 (expanded) observed in the mainstem (primarily below the confluence with Alder). Adult escapement for the 2002 and 2003 brood years increased but remains insignificant compared to the abundance of potential rearing habitat. Expanded estimates for Coho experienced a 70% increase in 2003 to 1,695 and showed almost no change in 2004. This remains an extremely low figure in relation to the 17 miles of habitat available in the subbasin and stands out in the Nestucca Basin as its least productive subbasin. Densities in all reaches remained extremely low.

The majority of the 2003 population (49%) remained in Alder Cr. with an additional 31% below the mainstem weir, 12% in the mainstem above the weir, and 8% in Crazy Cr. (where none were observed in 2002). Although the total size of the 2004 Coho population remained nearly identical, a significant shift in rearing location within the mainstem population was noted. There were no Coho sighted in the mainstem below the weir and none seen above the weir until RM 4.1, about 1.8 miles upstream of the weir. A larger percentage of the 2004 Coho population (61%) was observed in Alder Cr. with the remaining 27% in the Three Rivers mainstem and 11% in Crazy Cr.

2003 Coho distribution in Alder Cr. extended for 3 miles and the highest counts occurred within the first mile where some spawning appears to have occurred. Coho ended that year in a large wetland above a long reach of straight boulder chutes adjacent to the highway, just before the final highway crossing. Some of the best habitat in the subbasin exists above this last culvert where gradients decrease, sinuosity is restored, and large supplies of fine gravel are present. The 2004 Coho population ended at a small 4 foot double culvert at RM 2.6 that was blocked by debris on the upstream end. This culvert appears to have blocked Steelhead migration also. The Buck Cr. tributary was vacant of Coho despite excellent habitat conditions (minimal Coho rearing was reported here in 2002 – 30 juveniles, expanded). 2004 rearing density in Alder Cr. averaged 0.14 fish/sq.m.

72% of the juvenile Coho rearing in the mainstem in 2003 were present in the two miles below the weir and above the confluence with the mainstem Nestucca. The densities were very low (averaging 0.04 fish/sq.m.). This component of Coho distribution was completely missing from the 2002 and 2004 inventories which may suggest that these juveniles were the result of a spawning event and not the result of an upstream temperature dependant migration (temperature dependant movement would have likely been observed in all years and not just one). If this distribution pattern was the result of mainstem spawning, it could support the same condition referred to above (difficult passage for wild adults arriving after the weir is raised to retain winter steelhead). It is not impossible that Coho of their own volition would elect to spawn below the weir but more common that they would continue to migrate to headwater spawning locations. All of the 2004 juvenile Coho in the Three Rivers mainstem were observed between RM 4.1 and RM 8.7. 79% of the 2004 mainstem 1+Steelhead (which accounted for 84% of the total subbasin 1+Steelhead) were observed in this similar reach, dropping off after RM 8.1 where juvenile Chinook distribution ended. Conditions remain suitable for Coho spawning up to RM 9.4 where a 20 foot vertical waterfall presents a definitive anadromous barrier. 0.33 miles of Coho distribution in Crazy Cr. from 2003 increased to 0.7 miles in 2004, including 1000 feet of a small side tributary. Rearing in this tributary appears to be mainly the result of upstream migration and spawning conditions here appear below average (large boulders and little gravel). About three miles of suitable habitat in Lawrence Cr. and Pollard Cr. continues to go largely unutilized after three years of survey (a minimal population of juvenile Coho were observed rearing in Pollard Cr. in 2002).

Based on equations calculated by Nickelson and Lawson (1998) the 2002 expanded juvenile Coho estimate for the Three Rivers subbasin represents an adult escapement of something on the order of 6-10 adults (assuming 1:1 male / female ratio). The 2003 and 2004 estimates represent approximately 10-17 adults. This limited production compared to the abundance of high quality habitat (approx. 17 miles) available for OCN Coho suggests that some of the greatest cost / benefit ratios for restoration exist in this subbasin for restoring proper watershed function and boosting OCN Coho production (see recommendations).

During the first two years of the inventory Steelhead juveniles were present in densities similar to those observed in other subbasins, indicating that normal escapement was occurring. Densities appeared to show little change around the site of the weir and 49% of the subbasin population was found in the lowest 5 miles of the mainstem. A significant shift in distribution and a 42% decrease in abundance occurred during the third and final survey. 72% of the subbasin population was found in the uppermost 5 miles of the Three Rivers mainstem with very few high numbers occurring until 1.8 miles upstream of the weir. This distribution closely matched juvenile Coho distribution. The decline in 1+Steelhead abundance in the Three Rivers subbasin was the largest decrease observed in the Nestucca 5^th field, including the Nestucca mainstem, for 2004. This would typically indicate a weakness in adult escapement during the winter of 2002/2003. The questions for Steelhead are two fold; does the present escapement represent the diversity that exists in run timing and what are the genetic origins of the adults passed at the Cedar Cr. weir (hatchery / wild interactions).

The observation of external mucous on Steelhead juveniles was common, with individuals exhibiting less than 10% impact on body surface area in most reaches. Some individuals sighted in Crazy Cr. displayed 50% coverage. This mucous is probably a response to external parasites (sp. undetermined). Mucous observations occurred both above and below the Cedar Cr. weir.

There were Chinook juveniles observed in the mainstem of Three Rivers during all years of the inventory up to RM 8.1. Densities peaked below the weir and decreased upstream. Expanded estimates in 2003 of 3,195 juveniles exhibited little change from the 2002 survey then increased by 76% in 2004 to reach 5,630.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	995	0.6	7,735	6.3	4,755	21	2,900	15
2003	1,695	0.6	8,485	14	4,310	22	2,225	15
2004	1,685	0.7	6,290	7.3	2,515	14	1,805	11

Trib. F

This short 1.5 mile tributary of the mainstem Nestucca was consistently the most productive of the unnamed tributaries throughout the inventory (Trib. C in 2002, Trib. D in 2003). Its confluence is about one mile upstream from Fan Cr. and unlike other streams in the area it is not limited by a steep bedrock falls right at the start. Its expanded estimate for summer rearing Coho has remained stable and the continuous average rearing density here of 1.5 fish/sq.m. suggests a condition nearly seeded to capacity. Coho distribution has remained between 1 mile and 1.5 miles during all surveys and is presently restricted by a large wood jam just above RM 1.5. A narrow canyon and a bedrock falls exist just upstream of this jam and may represent a permanent anadromous barrier. High densities in the first 300 feet (up to 5.0 fish/sq.m. in 2004) may be augmented by upstream temperature dependant migrations from the mainstem. Two key zones of spawning were identified as similar each year and centered around RM 0.5 (up to 3.0 fish/sq.m. in 2004) and RM 0.9 (up to 3.4 fish/sq.m. in 2004). This reach represents one of the best options for tributary spawning in the upper Nestucca gorge. Gradients are relatively low compared to surrounding tributaries, pools are frequent, and supplies of old wood in the channel are abundant. Steelhead were also present, several of which displayed mucous on the dorsal surface.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	3,565	2.2	1,340	1.1	80	0.4	140	0.7
2003	3,845	1.3	1,705	2.8	80	0.4	180	1.2
2004	3,150	1.3	635	0.7	25	0.1	95	0.6

Walker Cr.

Walker Cr. is a large tributary at the end of the upper Nestucca mainstem, just downstream of McGuire Reservoir. The first 0.53 miles of Walker Cr. was surveyed in 2004 in response to the recent project which opened the steep boulder gorge approximately two miles downstream in the Nestucca mainstem to anadromous fish passage. The gorge had previously terminated fish passage. A small population of juvenile Coho and 1+Steelhead were observed in the Nestucca mainstem reach between the gorge and the confluence of Walker Cr. Coho sightings ended by the main highway bridge and gauging station just downstream of this confluence. No Coho or 1+Steelhead were seen in Walker Cr. The Nestucca mainstem culvert immediately downstream of the Walker Cr. confluence appeared in good shape and easily passable as well as the culvert in Walker Cr. where the 0.53 mile survey ended. A large beaver pond was reported just above this last culvert. Walker Cr. exhibited a low gradient and high flow with some finer spawning gravels mixed with larger angular cobble. The forest canopy through the survey reach consisted of mostly alder with some large fir near the survey endpoint. An expanded estimate of 55 Cutthroat trout and 15 0+trout were documented here.

West Cr.

West Cr. expanded summer rearing estimates for Coho were extremely depressed during the 2002 survey given the habitat available and the obstacles to fish passage. An improvement of 274% was experienced during the summer of 2003 when two zones of limited Coho spawning appeared, RM 0.9 and RM 1.4, where rearing density reached 0.5 fish/sq.m.. Average rearing density remained a low 0.3 fish/sq.m.. A minor decrease of 14% was observed in the Coho population during the 2004 survey and distribution appeared more concentrated around two zones in particular - RM 0.7 (0.9 fish/sq.m.) and RM 2.3 (1.0 fish/sq.m.). Average rearing density in 2004 remained low at 0.4 fish/sq.m.

The first zone of high densities marks the transition between pasture and forest habitats. The lower farmland reach contains higher reserves of fine gravels and some non functional livestock exclusion fencing. Livestock impacts here are excessive and definitively contributing to degradation in water quality (fecal coliform and temperature from the lack of vegetative succession). Sun exposure in most pools is high and wood complexity minimal. The upper forest reach provides much more shade and wood complexity while substrates become increasingly rocky. Many juvenile Coho seen in the lower reach were unusually large suggesting rapid growth rates and beneficial nutrient conditions. The upper zone of high density occurred where mainstem distribution ended against a massive debris jam which is currently posing a definitive anadromous fish barrier. A small tributary (Trib. A) branches off to the right here providing another 0.25 miles of limited rearing potential without barriers. Steelhead densities in West Cr. remained low throughout the inventory. Low numbers of juvenile Chinook were observed all years. A distinct lack of 0+trout was observed in the lower reach until the stream entered the forest where abundance began to increase. A heavy infestation of exotic knotweed was sighted around the highway 101 crossing that should be eliminated before it spreads.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	325	0.2	460	0.4	75	0.3	425	2.2
2003	1,215	0.4	95	0.2	25	0.2	360	2.4
2004	1,040	0.4	220	0.3	40	0.2	130	0.8

Wolfe Cr.

Wolfe Cr. enters the mainstem Nestucca from the North between Foland Cr. and Tony Cr. No Coho were observed here in 2002. The 2003 inventory observed a minimal population of Coho parr in low densities of 0.3 fish/sq.m. spread over 2.3 miles of mainstem and in a temperature dependent migration up 0.3 miles of the tributary Swab Cr. Two zones of Coho spawning appeared at RM 0.6 and RM 1.4 where rearing densities reached 0.6 fish/sq.m. Signs of upstream migration from the mainstem Nestucca appeared also in the first pools. Coho abundance here in 2004 was 61% lower and was observed only in the mainstem up to RM 2. Average rearing density dropped to 0.14 fish/sq.m. with no particular concentrations of abundance. Landowners near the mouth suggest that the culvert here is a passage problem although surveyor notes indicate that the crossing is passable. Habitat conditions through the survey reach appear adequate for Coho spawning and rearing. A transition from farm/pasture lands to forest habitat occurs at RM 0.8, just above the mouth of Swab Cr., and from this point on a healthy mixed canopy provides ample shade and wood contributions to the stream. Large supplies of spawning gravel, high stream sinuosity, and a diverse low floodplain were observed in this reach. Survey notes suggest that restoration efforts in the lower reach could be very effective.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	0	0	160	0.1	5	0.02	95	0.5
2003	965	0.3	815	1.3	180	0.9	180	1.2
2004	375	0.2	520	0.6	170	0.9	305	1.8

Little Nestucca

(Table 7)

Expanded Little Nestucca Subbasin Wide Estimates of Juvenile Salmonid Production*

Survey Year Coho 0+ Sthd Cut

2002 30,290 7,380 1,735 3,920

2003 58,635 7,710 2,080 3,030

2004 46,405 7,670 975 3,325

* Normalized data reflecting only streams surveyed all three years. Estimates were deleted from Bear Cr. (2003,2004), Bower Cr. (2002, 2003), McKnight Cr. (2003,2004), Trib. A (2002,2003), and Upton Cr. (2002,2003).

(Table 8) Coho production trends in the Little Nestucca 5^th field.

Stream	2002 Expanded Estimate	% 5^th Field	2003 Expanded Estimate	% 5^th Field	2004 Expanded Estimate	% 5^th Field
Little Nestucca Main	6,595	21.8	28,150	45.8	12,840	25.6
Austin	2,255	7.4	3,310	5.4	5,290	10.6
Bear	no survey	-	2,615	4.3	3,255	6.5
Fall	905	3.0	1,405	2.3	975	1.9
Kellow	40	0.1	75	0.1	750	1.5
Louie	10,830	35.7	7,610	12.4	7,720	15.4
McKnight	no survey	-	210	0.3	445	0.9
Sourgrass	3,665	12.1	4,230	6.9	6,295	12.6
South Fork	4,740	15.6	10,060	16.4	10,235	20.4
Stillwell	395	1.3	380	0.6	425	0.8
Squaw	775	2.6	1,770	2.9	920	1.8
Trib. B	40	0.1	500	0.8	545	1.1

Expanded estimates for Coho production in the Little Nestucca 5^th field fell 18% in 2004 closely matching the 15.8% decline observed in the Main Nestucca 5^th field. This loss follows an increase of 106% in 2003 and describes the relative strength of each of the three Coho cohorts. The cohort pattern observed in the Little Nestucca, summer 2002 being the weakest, summer 2003 being the strongest, and summer 2004 between the two, agrees closely with the pattern observed in the Main Nestucca 5^th field.

Coho decreases during the 2004 survey appear to be due mainly to a 31% decrease in estimated adult returns. Almost all of this production loss occurred in the mainstem while most tributary populations remained stable or showed positive growth. The most notable increases were found in Austin (up 60%), Kellow (up 900%), Bear (up 24%) and Sourgrass (up 49%). These subbasins contained the only reaches in the subbasin to experience two consecutive years of Coho production increases. Coho distribution in the subbasin increased by 4 miles despite the drop in expanded estimates and was spread over 32 miles of mainstem and tributary habitat. A similar decline in totals and increase in distribution was observed in the main Nestucca 5^th field. This level of production accounted for 17% of the Basin wide Coho population in 2004, a figure which has shown virtually no change through three different cohorts – 17.2% from 2003 and 16% from 2002. The entire summer rearing Coho population from the Little Nestucca 5^th field during all three years has equaled roughly 40% of the Nestucca mainstem population alone.

The mainstem Little Nestucca exhibited a radical 327% increase in summer rearing Coho during the 2003 survey (45% of the subbasin total) then fell 54% in 2004 (25.6% of the subbasin total). This reach is by far the most important component of the Little Nestuccas habitat and seems to dictate the trend for the 5^th field. The South Fork was the next most important component accounting for 20.4% of the subbasin totals in 2004. Louie Cr. (15.4%), Sourgrass Cr. (12.6%), and Austin Cr. (10.6%) accounted for the majority of the remaining subbasin production in 2004. These tributaries have remained the highest producers throughout all three cohorts. Highest average rearing densities for Coho were found, again, in Baxter (1.1 fish/sq.m.), Sourgrass (1.0 fish/sq.m.), and Austin (1.1 fish/sq.m.).

All habitat throughout the subbasin remained well below capacity during the 2004 survey due primarily to low adult escapement and secondarily to poor water quality conditions (low flow, low dissolved oxygen, and high temperatures) in the mainstem. 1+Steelhead abundance dropped 42% within the 5^th field in 2004, mostly in the Little Nestucca mainstem (down 62%). Most production for this species was observed in the Little Nestucca mainstem and in the Bear Cr. subbasin. Individual trend comparisons from tables 7 and 8 may differ from the percent contributions calculated below because of the need to normalize the data for inter annual comparisons.

(Table 9) 2004 Little Nestucca 5^th field Inventory

Stream	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
Little Nestucca mainstem	12,840*	25.6	3,330*	36.0	535*	42.1	425*	11.7
Austin	5,290*	10.6	655*	7.1	60	4.7	230	6.3
Bear	3,255	6.5	1,530*	16.5	285*	22.4	235*	6.5
Cedar	40		60		15		35	1.0
Conklin	175		60		0		15
Fall	975	1.9	160	1.7	35	2.8	155	4.3
Hiack	115		25		5		45	1.2
Kellow	750	1.5	240	2.6	0		250*	6.9
Louie	7,720*	15.4	615*	6.6	120*	9.4	800*	22.0
McKnight	445		65		10		80	2.2
South Fork	10,235*	20.4	1,660*	18.0	125*	9.8	675*	18.5
Sourgrass	6,295*	12.6	65		10		210	5.8
Stillwell	425		155	1.7	0		80	2.2
Squaw	920	1.8	415	4.5	70*	5.5	85	2.3
Trib. B	545	1.1	120	1.3	0		145	4.0
Basin Total	50,025	99.8	9,155	98.8	1,270	100	3,465	95.2

* Top five producers for each species and age class for the subbasin
Percent contributions only given for values of 1% or greater

Little Nestucca Mainstem

The mainstem Little Nestucca exhibits a complex fish distribution pattern that may be related to several interdependent variables (Geomorphology, temperature, and summer low flow regimes). Channel form seems to be the primary factor which, when combined with low summer flows, leads to the significant water quality issues (temperature) observed in the mainstem. The portion of the mainstem above the confluence of Sourgrass Cr. never exhibits any significant gradient to the 80ft vertical falls just below the confluence of Fall Cr. During very minor summer flows, this creates a condition conducive to elevated summer temperatures, slow pool turnover rates, and potentially low levels of dissolved oxygen. In addition, because the majority of the elevation change in the active channel is observed in the bedrock falls mentioned above, the water contributed from the headwaters to the anadromous rearing reach below the falls originates from a low gradient corridor also, with the potential for exhibiting similar water quality issues. This upper reach is nutrient rich and prolific algal blooms were observed. Another clue that this upper reach of the mainstem may be water quality limited is that Stillwell Cr. continues to exhibit a Coho distribution pattern that is often indicative of an upstream temperature dependant migration from the mainstem. Tributaries with the potential for this upstream migration become high priority for proper culvert function (passage).

In 2003 the mainstem was rearing an expanded estimate of 28,150 summer Coho parr. This was more than 4 times the size of the 2002 mainstem population and accounted for nearly half of the entire subbasin population. Following a decline in adult escapement, 2004 expanded estimates for the mainstem exhibited a 54% decline in Coho production and accounted for just 25.6% of the subbasin total. Coho losses sustained in the mainstem this year were more than twice as large as the combined decrease to the subbasin of 18%. The variability in production within this reach reflects the importance of mainstem habitats in basin wide Coho production. Most other subbasins in the Little Nestucca 5^th field showed either little change or an increase in Coho production and the negative growth trend that emerged in 2004 totals appears to be almost completely due to this large reduction in mainstem productivity. The trend for Coho in the Little Nestucca mainstem remains positive with 2004 abundance levels remaining 95% higher than 2002 levels.

Average Coho rearing density in the mainstem increased from 0.07 fish/sq.m. in 2002 to 0.3 fish/sq.m. in 2003 and fell to 0.15 fish/sq.m. in 2004. Highest Coho counts in 2003 occurred between RM 2 and RM 3.2, in between the confluences of Squaw Cr. and the South Fork, and the cold water provided by many steep side tributaries through this zone was believed to have improved rearing conditions there. Highest counts during the 2004 survey (55% of mainstem Coho) were observed between RM 3.7 and RM 6.6, from the confluence of the South Fork to the confluence of Louie Cr. This reach occurs above the significant bedrock step just downstream of the South Fork and appears to be where the majority of 2003 adult spawning took place. Coho rearing density in 2004 peaked near the end of distribution at 0.5 fish/sq.m.. Access was denied for each of the three inventory years to an important one mile reach between the confluences of Sourgrass Cr. and Stillwell Cr.. Sourgrass Cr. contains many of the best spawning and rearing reaches in the subbasin along with some of the highest production levels and the similarity of habitat conditions within the Little Nestucca from Sourgrass to Stillwell suggests that a significant component of mainstem production may be unaccounted for in this section as a result of denied access.

Distribution profiles did not indicate that juveniles were conducting temperature dependant upstream migrations from the mainstem into Louie or Sourgrass. The very high densities observed in these streams may actually be initiating density dependant downstream migrations that are contributing significantly to the seeding of the mainstem Little Nestucca. This elevates concerns for the protection and enhancement of Louie Cr., its tributary Baxter Cr., and Sourgrass Cr..

0+trout abundance in the mainstem has remained stable throughout the three year inventory. 1+Steelhead abundance increased 36% between 2002 and 2003 then dropped 62% in 2004. The 2004 1+Steelhead population in the mainstem is only about ½ the size of the 2002 population. This trend reflects the 42% subbasin wide decrease in 1+Steelhead. Nearly all of the 2004 mainstem 1+Steelhead (82%) were again found in the lower 5 miles of the survey (91% in 2003, 84% in 2002). Cutthroat numbers have also decreased in the mainstem by 64% after an increase of 50% last year and remain notably lower than in 2002.

The total expanded estimate of Chinook has remained nearly insignificant (between 545 and 230) throughout the inventory. The majority of the Chinook rearing during the summer surveys was most likely occurring in the Little Nestucca estuary. The invasive Japanese Knotweed noted in the lower mainstem during previous surveys is rapidly spreading out of control.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	6,595	21.8	2,480	33.6	1,040	60.0	785	20.0
2003	28,150	45.8	3,755	43.6	1,410	64.7	1,175	37.4
2004	12,840	25.6	3,330	36.0	535	42.1	425	11.7

Austin Cr.

Austin has remained a significant producer of Coho parr throughout the inventory. Coho distribution in the subbasin totals 1.6 miles of mainstem habitat as well as 0.3 miles of habitat in the West Fork up to an impassable 10 foot falls and debris jam. There was evidence of multiple spawning pairs during all three surveys. The expanded estimate of summer rearing Coho parr rose 57% in 2003 and another 60% in 2004 to reach a notable 10.6% of the subbasin total. This level of growth was significant for a year of decreased adult escapement and 16% basin-wide reductions. 2004 marks two years of continuous increases in Coho abundance for Austin Cr. The average mainstem rearing density for Coho increased again in 2004, reaching 1.1 fish/sq.m.. Peak mainstem densities reached 2.0 fish/sq.m. at RM 0.9. Coho abundance has increased in West Austin for the second year (by 118%), where only 2 upstream migrants were seen in 2002. 380 (expanded) summer Coho parr were found here in high densities (averaging 1.7 fish/sq.m. and peaking at 3.1 fish/sq.m.) in 2003 and 830 (expanded) summer Coho were found here in 2004 in slightly lower densities. Adult spawning appears to be mainly responsible for this population. This 0.3 mile reach exhibited the highest densities in Austin Cr. and contributed 16% to the 2004 total Austin Cr. population (12% in 2003). Bedrock cascades in both branches limit adult escapement beyond the extent of current distributions.

Austin did not exhibit the temperature dependant upstream migrations from the mainstem that adjacent tributaries did. This could be explained by a couple of factors, there remains a series of full spanning beaver dam complexes above sample unit 2 in the inventory. These pose definitive barriers to upstream juvenile movement. These ponds are accessible to winter adult migrants and contained some of Austin’s highest Coho counts. In addition, these beaver ponds exhibit elevated temperatures in summer and Austin Cr. at the confluence of the Little Nestucca may not have been significantly cooler (no temperature data available). Steelhead abundance here has remained low.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	2,255	7.4	785	10.6	180	10.4	285	7.3
2003	3,310	5.4	490	5.7	35	1.6	135	4.3
2004	5,290	10.6	655	7.1	60	4.7	230	6.3

Bear Cr.

Expanded estimates for Coho also rose in Bear Cr. against the basin-wide trend. A 24% increase in Coho production was observed in comparison to 2003 abundance. Bear Cr. contained 1.5 miles of Coho distribution during both years of survey. Consecutive wood jams and a 12 foot step-falls terminate anadromous passage at this point. Rearing density for Coho averaged 0.7 fish/sq.meter in 2004.

Multiple spawning peaks appear in the Coho density graphics, up to 2.4 fish/sq.m. at the end of distribution in 2003 and up to 1.4 fish/sq.m. at RM 0.4 in 2004. Cold water supplies from Bear Cr. to the mainstem Little Nestucca were observed to have a positive effect on the abundance of rearing juveniles in the mainstem and some upstream migration into Bear Cr. was noted in 2003.

Moderate Steelhead counts were also observed with most individual fish displaying signs of parasitic infection (spots of white mucous on the dorsal surface). This reach appeared to be the most productive of all Little Nestucca tributaries for Steelhead in 2004 with expanded estimates rising 185% from 2003. This increase is notable considering the large decrease in the Little Nestucca mainstem and the total subbasin reduction of 42%. The 1+Steelhead population here in 2004 remained roughly half the size of the Little Nestucca mainstem population. This is an indicator of how serious Steelhead declines have become in the Little Nestucca 5^th field.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	No survey	-	-	-	-	-	-	-
2003	2,615	4.3	860	10.0	100	4.6	70	2.2
2004	3,255	6.5	1,530	16.5	285	22.4	235	6.5

Conklin Cr.

This tributary was a minor contributor of Coho production with an average of just 0.4% of the total 5^th field production. Expanded estimates in Conklin Cr. have remained fairly consistent throughout the inventory. The average rearing density within this short 0.2 mile distribution was nearly seeded to capacity in 2003 (averaging 1.4 fish/sq.m. with a 2.2 fish/sq.m. maximum). Rearing density here averaged 1.0 fish/sq.m. in 2004 and 1.3 fish/sq.m. in 2002. The Coho distribution pattern in Conklin Cr. suggests significant upstream temperature dependant migration. The tributary enters the upper Little Nestucca just below the falls and the endpoint of Coho distribution. Summer water quality in Conklin is far superior to that observed in the adjacent upper mainstem.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	170	0.6	30	0.4	0	-	30	0.8
2003	220	0.4	45	0.5	0	-	20	0.6
2004	175	0.3	60	0.6	0	-	15	0.4

Fall Cr.

Fall Cr. joins the mainstem Little Nestucca not far above the head of tidal influence. This stream contained multiple spawning pairs of Coho throughout the inventory along its 1.7 miles of mainstem distribution. An additional 0.2 miles of distribution was observed in Trib. A in 2003 but was unable to be re-examined in 2004 due to a lack of funding. Expanded estimates of summer rearing Coho parr rose 55% in 2003 then fell 31% in 2004 back to nearly the same level. This appears mainly due to reduced adult escapement and follows the 5^th field total loss of 18%. Average rearing density for Coho registered 0.24 fish/sq.m. in 2002, 0.6 fish/sq.m. in 2003, and 0.4 fish/sq.m. in 2004. Peak spawning density of 1.1 fish/sq.m. occurred just above RM 1 during both 2003 and 2004. Rearing densities were higher in the beginning of Trib. A during the 2003 survey reaching 1.8 fish/sq.m.. This small population appeared to be the result of upstream temperature dependant movement. There appears to be substantial potential in Fall Cr. for increased Coho production and rearing in between the lower bedrock-dominated reach and the long stretch of large boulders where distribution ended. All lower bedrock falls were passable. There were Steelhead present in low densities throughout the observed distribution of Coho, several of which exhibited signs of parasitic infection.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	905	3.0	340	4.6	45	2.6	180	4.6
2003	1,405	2.3	350	4.1	180	8.3	145	4.6
2004	975	1.9	160	1.7	35	2.8	155	4.3

Kellow Cr.

Coho production in Kellow Cr. exhibited a dramatic 900% increase in 2004 despite reduced basin-wide Coho production. Adult spawning appears to have occurred this year in Kellow Cr. though signs of upstream temperature dependent migration were evident in the first pool which exhibited the highest density (1.0 fish/sq.m.) of the entire three year inventory. Average rearing density remained at 0.4 fish/sq.m. while distribution increased from 828 ft in 2003 to one mile in 2004. The small waterfall 1000 ft above the mouth of the stream was apparently passable and gradients decreased substantially above that point. Habitat in the upper reach of Kellow appeared favorable for Coho spawning and no further barriers were encountered. Indications are that substantial improvements in Coho production are possible in this subbasin.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	40	0.1	170	2.3	10	0.6	105	2.7
2003	75	0.1	50	0.6	5	0.2	60	1.9
2004	750	1.5	240	2.6	0	-	250	6.9

Louie Cr.

The 5.2 miles of habitat within the Louie Cr. subbasin, including its primary tributary Baxter Cr., has been classified as one of the two most productive subbasins in the entire Little Nestucca 5^th field for Coho and Cutthroat, second only to the South Fork Little Nestucca (3.7 miles). 2004 Coho production here accounted for 15.4% of the 5^th field total compared to the 20.4% contribution from the South Fork. Rearing densities observed in lower Louie Cr. and in Baxter Cr. stood out throughout the three year inventory as the highest observed in the Little Nestucca 5^th field, with those from neighboring Sourgrass Cr. a close second.

Coho production here fell 30% in 2003 while subbbasin production doubled (mainly due to large increases in the Little Nestucca mainstem). Rearing densities that year in Louie and Baxter remained higher than any other reach. It was suspected that many of the Coho juveniles rearing in the mainstem Little Nestucca may have originated from density dependant downstream migrations from Louie Cr. Coho production in 2004 appeared to show little change from the 2003 population despite basin-wide losses and a reduction in estimated adult escapement. Abundance levels actually fell 14% in mainstem Louie and 7% in mainstem Baxter as production shifted into Trib A of Louie where a dramatic 134% increase was observed. Coho distribution increased in the subbasin for the second year from 4.1 total miles to 5.1 total miles (2.2 in Louie, 2.0 in Baxter, and 0.9 in Louie Trib A). Coho production contributions appeared evenly split between Louie Cr. and Baxter Cr. during all surveys.

Rearing density peaked higher in Louie Cr. in 2003 than in any other year of the inventory at 3.5 fish/sq.m. due to heavy spawning activity near RM 0.6 and downstream density driven migrations out of Baxter Cr.. 2003 average rearing densities in Louie Cr. of 1.0 fish/sq.m. showed little change from the 2002 average of 1.1 fish/sq.m.. 2004 Coho rearing densities fell slightly to an average of 0.74 fish/sq.m. with a primary spawning peak of 1.7 fish/sq.m. at RM 0.9 and a secondary peak of 2.0 fish/sq.m. (representing a much smaller abundance) near RM 1.7. Adults passed over a difficult bedrock falls jammed with debris a few pools below the end of distribution in 2003 and in 2004 and no further barriers were noted. Highest Coho counts in Louie have consistently occurred below the confluence of Baxter Cr. due in large part to downstream migrants originating from Baxter.

High rearing densities were observed in Trib A of Louie Cr. during the 2004 survey along with a significant 134% increase in Coho production - from 460 expanded summer parr to 1,075 expanded summer parr (14% of the Louie Cr. total). Increases here appear to have balanced decreases in the rest of the subbasin. Coho distribution totaled 0.4 miles in Trib A at 0.6 fish/sq.m. and 0.52 miles in Trib A1 at 1.1 fish/sq.m.. A peak density of 3.0 fish/sq.m. was recorded in Trib A1 at RM 0.24. Adult spawning appears to have occurred in at least one location in this tributary. Significant potential for production improvements exists within the present distribution in this tributary while further escapement appears limited by low flows and small pools.

Baxter Cr. Coho densities reached record levels in 2002 averaging 3.1 fish/sq.m. and peaking at 8.3 fish/sq.m. near RM 1.4. Average rearing density fell to 2.0 fish/sq.m. in 2003 with peak levels reaching 4.9 fish/sq.m. around RM 0.3, still an astounding level of production to be maintained across a two mile reach. High densities averaging 2.5 fish/sq.m. were maintained that year for the first 1.3 miles of Baxter where most spawning appears to have occurred. Rearing densities fell again in 2004 to an average of 1.1 fish/sq.m. with the majority of the population surrounding a primary spawning peak of 3.1 fish/sq.m. near RM 0.3. A secondary spawning peak of 2.1 fish/sq.m. was observed in 2004 at RM 1.4. A steep boulder gorge at RM 2 ended Coho distribution all years. Baxter Cr. Coho production accounted for 50% of the Louie Cr. total in 2004 (compared to 54% in 2003 and 44% in 2002). This reach and the lower 0.75 miles of mainstem Louie appear to be near capacity for Coho. Louie and Baxter appear to be very important anchor habitats within the Little Nestucca 5^th field and extensive effort would be recommended for the protection and enhancement of these corridors. This pair of streams, along with Sourgrass Cr. and the South Fork, rank as the highest priority corridors in the Little Nestucca subbasin from the perspective of current salmonid production.

The abundance and distribution of Cutthroat remains high in Louie and Baxter after a significant rebound in 2004. Expanded estimates of 800 account for 22% of the 5^th field total. This observed level of production for Cutthroat represented the largest contribution to Little Nestucca 5^th field totals for 2004 (88% higher than the Little Nestucca mainstem population and 18.5% higher than the South Fork population). 1+Steelhead counts in contrast remain consistently low. Signs of parasitic infection (white mucous spots on the dorsal surface and fins) were noted on all 1+Steelhead in Baxter Cr. and to a lesser degree in Louie Cr. on 1+Steelhead and Cutthroat.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	10,830	35.7	1,250	16.9	115	6.6	860	21.9
2003	7,610	12.4	775	9.0	60	0.05	395	12.6
2004	7,720	15.4	615	6.6	120	9.4	800	22.0

SF Little Nestucca

The SF extended 3.1 miles in the mainstem to a definitive anadromous barrier (20 ft vertical bedrock falls) and included an additional 1.5 miles of tributary distribution for Coho. This was an increase of 0.6 miles in tributary habitat. Coho distribution in the mainstem terminated each year approximately 500 feet below the falls and Steelhead and Cutthroat were observed in low densities to the base of the falls. The expanded summer rearing Coho estimate more than doubled in 2003 and maintained this level in 2004 despite basin-wide losses and a decrease in estimated adult escapement. The South Fork’s contribution to Little Nestucca Coho totals rose to 20.4% this year and ranked as the most productive tributary within the Little Nestucca 5^th field. This subbasin also stands as the second largest contributor to Cutthroat (behind Louie) and 0+trout (behind the Little Nestucca mainstem) production within the 5^th field.

Average Coho rearing density in the mainstem has remained low throughout the inventory (0.3 fish/sq.m., 0.7 fish/sq.m., and 0.5 fish/sq.m., chronologically) and mainstem estimates actually decreased 17% in 2004. This loss was made up by significant increases in the 8 Coho rearing tributaries within the subbasin (compared to 3 Coho rearing tributaries in 2002 and 2003). 2004 mainstem rearing density for Coho increased steadily from the mouth to RM 2.9 where a level of 1.9 fish/sq.m. was reached. Highest counts for Coho, however, occurred each year further downstream surrounding RM 1 where pools were larger and spawning gravels more abundant. Most finer sediments appear to have been washed out of the upper half of the mainstem. Long stretches of exposed bedrock were observed through this reach with very little wood complexity or channel sinuosity. This condition appeared to be the main limiting factor to Coho production in the mainstem. The only culvert in the mainstem occurs just below the falls and is currently perched by 2 ft above summer stream level. Adults are apparently passing this culvert but juvenile passage appears to be blocked. 0nly another 0.1 miles of habitat occurs between the culvert and the falls.

2004 marked the highest year of the inventory for tributary Coho production in the South Fork. Small summer rearing populations were observed in 8 different streams within the subbasin. Largest contributions came from 0.3 miles in Trib D (10%), 0.4 miles in Kautz (4%), 0.2 miles in Trib G (4%), and 0.4 miles in Trib F (2%). The highest Coho rearing densities in the subbasin were observed in Trib G (at 2.1 fish/sq.m. average with a peak of 2.8 fish/sq.m. in Trib G1), and in Trib F (a 1.3 fish/sq.m. average with a peak of 2.2 fish/sq.m.). A series of large bedrock falls limits adult passage in Kautz. A 7 ft bedrock cascade in Trib D is limiting adult passage. A perched culvert (2 ft) in Trib F is currently restricting juvenile passage but is of low priority since stream gradients and rock size increases quickly upstream. New culverts in Trib G are in good shape and pose no problems to adult passage.

2004 expanded estimates for Cutthroat of 675 ranked as the second highest among the Little Nestucca tributaries, behind Louie Cr., and accounted for 18.5% of the subbasin total. The Cutthroat population here was 59% larger than the Little Nestucca mainstem population. 0+trout abundance in the South Fork consistently ranked higher than any other subbasin in the 5^th field and was second only to the Little Nestucca mainstem population. 1+Steelhead counts in the South Fork, along with most other Little Nestucca tributaries, remain low.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	4,740	15.6	1,295	17.5	190	11.0	550	14.0
2003	10,060	16.4	1,385	16.1	190	8.7	455	14.5
2004	10,235	20.4	1,660	18.0	125	9.8	675	18.5

Sourgrass Cr.

A large 49% increase in 2004 followed a 15% increase in 2003. This subbasin ranked as the third most productive tributary to the Little Nestucca in 2004, behind the South Fork and Louie Cr., and contributed 12.6% of the 5^th field total Coho. An extensive lineal distribution of Coho extended 3.2 miles above the confluence with the mainstem Little Nestucca and included 0.3 miles of additional tributary habitat. This tributary corridor is paralleled closely by the main Highway which both confines the active channel and contributes negatively to its water quality. There was a significant accumulation of garbage and road debris in the stream corridor. Several sites have been used historically for public dumping. The Coho population here was 18% smaller than Louie Cr. with a similar mainstem confluence location. The tributary exhibits fine sandstone gravels, well scoured pools, clear flows, and ample old wood in the stream. The forest canopy here retains late successional riparian characteristics.

There remains a culvert at approximately RM 0.56 with a 2.5 ft perch. The condition here has not changed in the three years of survey. Distribution graphics from all years suggest that this culvert has not terminated large anadromous migrants and the presence of a temperature dependent upstream juvenile migration pattern is not clear. However, this culvert is a definitive barrier to upstream juvenile migrants and a survey conducted later in the summer may result in different conclusions for the occurrence of an upstream migration. To complicate the distribution of salmonids further there is another culvert at RM 2.0 that has rusted through the bottom near the top end of the pipe. The condition here has visibly worsened throughout the three year inventory and there was virtually no exit flow at the downstream end of the pipe during the summer 2004 survey. Distribution graphics from all years suggest that there continues to be a passage problem for juveniles. Some adult Coho do successfully negotiate this culvert but distinctly lower juvenile densities upstream of this crossing suggest that low water passage for adults may be hindered. The pipe is under an extensive road fill and the pipe length may be as much of a factor in impeding passage as its condition.

Rearing densities for Coho in Sourgrass were relatively high for the Little Nestucca 5^th field throughout the inventory. Averages rose from 0.68 fish/sq.m. in 2002 to a healthy 1.1 fish/sq.m. in 2003 and remained at 1.0 fish/sq.m. in 2004. Peak densities of 2.4 fish/sq.m. just below the RM 2 culvert in 2003 were similar at 2.1 fish/sq.m. in the same location in 2004. 73% of Sourgrass Coho were observed in this lower reach up to RM 1.6 during the 2004 survey. Coho abundance dropped off quickly upstream of the RM 2 culvert probably due to reduced adult escapement. Marginal Coho distribution continued above this culvert into excellent habitats with high wood complexities, deeply scoured pools, and cool water temperatures. Significantly higher Coho production could be achieved and supported in this reach. Signs of a temperature dependent migration out of the mainstem Little Nestucca were observed in the first two pools of Sourgrass Cr..

Highest Coho densities in 2004 were observed in Trib A where 0.3 miles of habitat maintained an average of 2.8 fish/sq.m.. This population represented 8.3% of the Sourgrass Coho total. Coho distribution in Trib B during the 2004 survey was blocked by a problem culvert about 200 ft up from its confluence with the Sourgrass mainstem. This culvert was perched 1 ft above summer stream level with the upstream end completely buried in debris and sediment and is currently a barrier to both juvenile and adult migration. Trib B meets Sourgrass Cr. at RM 1.5.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	3,665	12.1	210	2.8	25	1.4	275	7.0
2003	4,230	6.9	125	1.5	20	0.9	160	5.1
2004	6,295	12.6	65	0.7	10	0.8	210	5.8

Stillwell Cr.

Stillwell is a significant cold water tributary in the headwaters of the Little Nestucca. Coho were distributed to a point 0.7 miles above its confluence where a series of boulder falls and wood jams stopped adult passage. Distribution increased by 0.3 miles in 2004 beyond a wood jam just below the second culvert which stopped Coho last year. Expanded estimates for juvenile Coho have remained relatively stable and low throughout the inventory. It appears that some adult spawning is occurring in Stillwell. In addition, there is a strong indication that this aquatic corridor is utilized by juveniles for temperature refuge from the Little Nestucca mainstem. Average rearing density for Coho peaked in 2003 at 1.2 fish/sq.m.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	395	1.3	180	2.4	5	0.3	215	5.5
2003	380	0.6	100	1.2	0	-	35	1.1
2004	425	0.8	155	1.7	0	-	80	2.2

Squaw Cr.

Squaw Cr. displays a short 0.5 mile reach of high quality spawning and rearing habitat. Deep pools were observed here between frequent outcroppings of bedrock walls and steps. A close series of steep 5 ft falls in a narrow gorge terminated distribution during all surveys though appears passable under ideal flow conditions (Steelhead were seen above this gorge). Cool water and large pools shaded by steep canyon walls are present in close proximity to the lower mainstem Little Nestucca where juveniles may be seeking cold water refuge. In addition this same reach provides a short supply of spawning gravels and diverse pool types. Distribution profiles from 2002 indicated temperature dependent migrations only, while 2003 and 2004 data suggested the presence of spawning activity.

Coho rearing densities here in 2003 were high, averaging 1.6 fish/sq.m. and peaking at 3.4 fish/sq.m. (RM 0.2). This was a dramatic improvement from the 2002 average of 0.4 fish/sq.m. and represented a 128% increase in population size. Expanded estimates fell 48% in 2004 along with rearing density which averaged 0.5 fish/sq.m.. Relatively high abundances of 1+Steelhead and Cutthroat have been observed within this short reach although populations decreased substantially in 2004.

Year	Coho	% Total 5^th Field	0+	% Total 5^th Field	Sthd	% Total 5^th Field	Cut	% Total 5^th Field
2002	775	2.6	450	6.1	100	5.8	210	5.4
2003	1,770	2.9	470	5.5	135	6.2	260	8.3
2004	920	1.8	415	4.5	70	5.5	85	2.3

Other Surveyed Tributaries

Judson Cr., Hiack Cr., Cedar Cr., Mcknight Cr., and Trib B all displayed limited Coho distributions in 2003 and 2004 that were not present in 2002. Populations in Judson and Hiack during both years appeared to be the result of temperature dependent migrations from the mainstem while those in Mcknight, Cedar (2003), and Trib B appear to be from a spawning event (verified by landowners in Mcknight). Distribution lengths ranged from 300 feet in Judson to 0.9 miles in Mcknight. All expanded Coho estimates were under 545 summer parr (Trib B - 2004). Most significant improvements were observed in Mcknight and in Trib B. Distribution distances for Coho tripled in both these streams between 2003 and 2004 and expanded estimates more than doubled in Mcknight where rearing density averaged 1.0 fish/sq.m. in 2004.

Neskowin

(Table 10)

Expanded Neskowin (5^th field) Estimates of Juvenile Salmonid Production

Survey Year Coho 0+ Sthd Cut

2002 7,805 7,020 930 2,870

2003 10,615 3,655 1,865 1,705

2004 7,305 3,515 1,240 1,765

(Table 11)

Neskowin / Sand Lake / Combined

Adult Juvenile

Survey ODFW Survey

Year Adult escapement Summer Parr Year

2001 71 10,745 2002

2002 16 12,700 2003

2003 0 12,375 2004

* This combined table is included because the SRS adult spawning escapement data is summarized with the two basins combined.

Summer rearing Coho parr estimates for the Neskowin basin have exhibited abundance estimates that conflict with ODFW’s adult escapement estimates. A gain of 36% in estimated summer parr abundance was observed in 2003 versus the 78% decline in the adult escapement estimate from ODFW’s SRS inventory (from 71 to 16 OCN Coho for the Sand Lake / Neskowin complex). This adult estimate fell to zero for the final year of the inventory while estimated summer parr abundance in the Neskowin only decreased 31% to nearly the same level as reported in 2002 (Table 11). At the same time, Sand Lake expanded estimates for summer parr more than doubled (+143%) leaving the combined 2004 total for both basins (12,375 expanded) at nearly the same level as in 2003 (12,700 expanded) despite the SRS adult spawning summary recording zero adult Coho escapement for both basins combined.

Adult sampling uses a random selection of a few individual reaches to extrapolate trends for the entire basin, or for this case two combined basins, while juvenile estimates are based on a 20% sample of all pools within every tributary of the basin. The relatively small sample size used in adult estimates tends to be more accurate in a large basin, like the Nestucca. The small sample size becomes problematic in smaller and less productive basins. In the case of the Sand Lake and Neskowin basins there are very few productive reaches and the odds of missing these reaches in a random selection process are very good. The more likely selection of a non-productive reach would have the effect of under-estimating basin-wide production while the less likely selection of a highly productive reach might greatly over-estimate basin-wide production. Juvenile estimates are more time consuming but develop a more accurate assessment of escapement in small watersheds.

Based on equations calculated by Nickelson and Lawson (1998) the 2002 expanded juvenile Coho estimate for the combined Sand Lake / Neskowin complex represented an escapement of between 84 and 106 adults (18-24 in Sand Lake and 66-82 in Neskowin), the 2003 summer parr estimate between 94 and 120 adults (10-16 in Sand Lake and 84-104 in Neskowin), and the 2004 summer parr estimate between 90 and 114 adults(24-34 in Sand Lake and 66-80 in Neskowin). These equations back-calculate adult escapement using survival rates calculated for each life history stage and an assumed 1:1 male to female ratio for returning adults (Note: ocean survival rates have been highly variable in the last decade with recent double digit values, these adult numbers are only meant to develop a conservative scenario that more accurately represents adult escapement for these small watersheds).

Changes in juvenile Coho abundance between years in the Neskowin basin more closely paralleled changes observed in the Nestucca Basin. The 2002 adult run appeared to be the strongest of the three cohorts in both of these basins. The 2004 decrease of 31% in Neskowin basin summer parr estimates was about twice the size of the 16% decrease reported in the Nestucca.

The Neskowin mainstem remained the largest component of basin-wide Coho production during all years. The most productive tributary in the Basin during all years appeared to be Hawk Cr. (including Butte Cr.) and to a secondary degree Lewis Cr. and Trib E (see Table 12 below). Despite basin-wide decreases in 2004, large Coho increases were reported in three upper basin tributaries – Jim Cr. (+52%), Lewis Cr. (+90%), and Trib E (+74%). Sections of Hawk Cr. and Butte Cr. reported the highest densities of the inventory in 2003 and represented the only habitats within the system that reached near fully seeded conditions. Trib E was a close second and reported the highest average rearing density in 2004 (0.9 fish/sq.m.).

The Neskowin basin exhibited several steep cold water tributaries which seem to provide excellent temperature maintenance to the mainstem along with opportunities for upstream juvenile migrations. Multiple problem culverts are currently restricting adult and juvenile migrations in several streams including Butte, Sutton, Fall, Sloan, and Trib E. These sites are discussed more fully below. Some of the highest quality and under-used habitat was noted in Fall Cr. where a long culvert with an associated debris/falls is discouraging adult escapement into a mile or more of pristine habitat on Cascade Head. 2004 Coho distribution totaled about 12.4 miles within the Basin. Most of the habitat within the Neskowin basin remains under-seeded and primarily limited by adult escapement.

(Table 12) Coho production trends in the Neskowin Basin

Stream	2002 Expanded Estimate	% Total	2003 Expanded Estimate	% Total	2004 Expanded Estimate	% Total
Neskowin Cr. mainstem	5,460	70.0	5,815	54.8	4,555	62.4
Fall	140	1.8	40	0.4	15	0.2
Hawk	1,270	16.3	3,355	31.6	1,350	18.5
Jim	55	0.7	95	0.9	145	2.0
Lewis	375	4.8	265	2.5	505	6.9
Sloan	110	1.4	200	1.9	190	2.6
Sutton	0	-	560	5.2	0	-
Trib E	130	1.7	275	2.6	480	6.6

Neskowin Cr. (mainstem)

Coho abundance in the mainstem fell 22% in 2004 following the estimated decreases in adult escapement and expanded summer parr estimates basin-wide. As in the Nestucca basin, the mainstem component of Neskowin basin Coho production remained the largest contributor throughout all three years of the inventory. 62% of the total basin Coho population was found here in 2004 in a low average rearing density of 0.27 fish/sq.m.. This average showed little change from 2003 while the peak 2004 density of 1.6 fish/sq.m. observed at RM 3.9 showed a substantial increase from last year’s peak of 0.6 fish/sq.m. (observed at RM 4.5). This zone of consistently higher rearing densities was located between the confluences of Jim Cr., Lewis Cr., and Sloan Cr.. Coho distribution continued 5.8 miles above tidal influence to a small bedrock falls, a mile short of the definitive anadromous barrier (7ft vertical bedrock falls) where distribution has ended each year. This smaller falls occurs just downstream of the old Highway 101 bridge.

The 2 mile zone between Jim Cr. and this bridge consistently reared between 50 and 75 percent of all mainstem Coho throughout the inventory. This effect could be attributed to the preference among adult spawners for the faster flows, cooler temperatures (from multiple large side tributaries), and cleaner gravels observed there. The lower reaches of the mainstem are generally lacking in channel and pool diversity and contain many areas of heavy siltation. Spawning gravel in this lower reach is abundant and on site spawning was much higher there in 2003. Cover and wood complexity in the lower reach is almost completely lacking and restoration efforts there that targeted increases in channel roughness and habitat complexity would be highly effective. Coho avoidance behavior was detected in much of the lower mainstem and indicates significant avian predation is occurring in this reach due to the open canopy and exposed pool surface areas.

Spawning beds are spread more sporadically throughout the upper mainstem reaches between long scoured stretches of bedrock and large cobble. This reach would benefit greatly from large in-stream log placements that could trap gravel and add to pool complexity. The highest count from the 2004 survey (RM 3.9) was observed in a large alcove pool which resulted from an accumulation of woody debris. This unit of habitat was near the accepted carrying capacity for juvenile Coho. This type of pool provides both a trap for finer gravels and significant cover for juveniles avoiding predation. Spawning potential in the lower reach and carrying capacity for the mainstem in general could support much higher Coho production rates than were observed in this three year inventory. Despite the minor growth observed in the mainstem Coho population in 2003 it appears that the 2004 population remains 17% smaller than in 2002. This trend was observed in basin-wide totals also. These estimates are considerably more encouraging than the zero adult escapement estimates. The mainstem appears to be primarily limited by low adult escapement.

Steelhead numbers in the mainstem rose by 105% in 2003 while 0+trout estimates fell by 51%. As expected, the 2004 1+Steelhead population responded with a decrease of 42%. This trend matched large 2003 0+trout losses basin-wide and the 34% reduction in 1+Steelhead basin-wide in 2004. The highest concentrations during all years has been observed upstream between RM 3.6 and RM 5.1, where the majority of 0+trout abundance has also been observed. This pattern reinforces the theory that lack of cover, lack of feed, and heavy predation is forcing most fish species out of the lower 3 miles of mainstem. Between 71 and 82 percent of the basin-wide 1+Steelhead population was observed in the mainstem during the three years of inventory. Additional Steelhead rearing does occur upstream of the Coho inventory end point. Cutthroat abundance in the mainstem has been on a continuous decline for two straight years. The 2004 Cutthroat population here was only 36.5% of the 2002 estimate. Cutthroat trends basin-wide dropped 41% in 2003 but showed little change in 2004. Around 25% of 1+Steelhead during each year displayed signs of mucous on the skin and fins probably resulting from an unspecified species of external parasite.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	5,460	70.0	5,305	75.6	745	80.1	1,425	49.7
2003	5,815	54.8	2,595	71.0	1,525	81.8	890	52.2
2004	4,555	62.4	2,460	70.0	880	71.0	520	29.5

Fall Cr.

Fall Cr. enters Neskowin Cr. from the south through a 380 ft long culvert under Hwy 101. The culvert appears to be passable and limited Coho spawning and rearing was observed upstream during 2002 and 2003 surveys. Three years of inventory here have seen Coho distribution fall from 0.8 miles to 0.4 miles to 500 feet. Fall Cr. was one of only two tributaries to exhibit reductions in Coho production in the basin during 2003 surveys. There is a 4ft drop into a plunge pool below the culvert that is complicated by a large sill log and represents a definitive barrier for the upstream migration of juveniles. The minor abundance of juvenile Coho above the culvert in 2002 and 2003 and in Trib A in 2002, therefore, were the result of adult spawning. The significant declines in abundance and distribution above the culvert since 2002 may suggest that adults are also being discouraged by the conditions below this culvert. The declines observed in the remaining fish species are largely the result of the decreased survey length each consecutive year. Excellent habitat exists in Fall Cr. with at least 1 mile of deep pool scours, abundant gravels, and high flows. Water quality (temperature) in this tributary is excellent and the result of an intact late successional canopy and the current land use in the headwaters on Cascade Head. Maintenance or alteration of the downstream culvert condition is of the highest importance to the continued use of this stream habitat.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	140	1.8	245	3.5	0	-	190	6.6
2003	40	0.4	125	3.4	35	1.9	55	3.2
2004	15	0.2	50	1.4	10	0.8	45	2.5

Hawk Cr.

Hawk is a major tributary of Neskowin Cr. that enters the mainstem west of Hwy 101. Both Hawk and its main tributary Butte Cr. contained Coho all years of the inventory. This subbasin ranked as the #1 contributing tributary in the basin for Coho each year (an average of 22% of basin-wide totals).

Both Hawk Cr. and Butte Cr. branch out of a short segment of tidewater running up from the Neskowin river mouth. The first ½ mile of each stream runs through its own separate golf course where the stream channel is entirely entrenched and completely exposed. Roughly 700 feet of reed and shrub coverage exists in Hawk Cr. between its confluence with the tidewater and the start of the Hawk Creek Golf Course. Some high Coho counts and a small beaver dam were observed in this small reach in 2003. A large tidegate culvert is present where the tidewater slough ends and Butte Cr. flow begins, to the north of the Hawk Cr. confluence. This tide gate was presumably installed to prevent tidal surges and large storm waves from flooding the road and Neskowin Marsh Golf Course above. It is likely that the older design of this gate, with the hinge placed above rather than on the side is preventing adult passage during most incoming tides at all but the highest stream flow levels. During summer snorkel surveys the gate was closed with only a few inches forced open to accommodate flow.

Highest production rates were observed in 2003 in Butte Cr. where expanded estimates rose 271% to reach 1,725 Coho summer parr and distribution increased to 2.1 miles. This reach contained the highest rearing densities in the basin in 2003 (an average of 1.0 fish/sq.m. with peaks reaching 2.6 fish/sq.m.) and represented the most productive tributary habitat. Expanded Coho estimates in Hawk Cr. that year reached 1,630 summer parr and distribution extended for 1.8 miles. A 77% reduction in Coho abundance was observed during the 2004 survey in Butte Cr. (405 expanded) along with a 42% decline in Hawk Cr. (945 expanded). This represented a 60% loss to the subbasin as a whole. Summer Coho parr levels in 2004, as well as Hawk/Butte contribution ratios (2/1), were nearly identical to the levels recorded in 2002 despite dramatically lower estimates in adult escapement for the basin. A decline in adult escapement to the basin is the most likely reason for these reductions.

Hawk Cr. contained Coho for 1.9 miles, well above the golf course impacts and into the upper forest habitats. The average rearing density for Coho in Hawk Cr. increased from 0.27 fish/sq.m. in 2002 to 0.9 fish/sq.m. in 2003 and fell to 0.4 fish/sq.m. in 2004. Two peaks in spawning density have been observed two years in a row at RM 0.2 and RM 1.4 (up to 1.4 fish/sq.m. in 2003 and up to 1.1 fish/sq.m. in 2004). A 4 ft. rock dam at RM 0.8, presently being used for water withdrawal, could be a definite barrier to juvenile migrations. However, density profiles do not indicate this is occurring (the high Coho count at this location in the data was actually from the pool created by the dam.) Numerous tributaries divide the flows of upper Hawk Cr. where Coho distribution ended.

Butte Cr. contained Coho for just 0.64 miles in 2002 at an average rearing density of 0.42 fish/sq.m.. A dramatic increase in escapement occurred during the winter of 2002 which increased Coho distribution to 2.1 miles above the junction with Hawk Cr. at the tidegate. The additional 1.4 miles of distribution extended into the finest portion of habitat in the stream and ended with no barriers in a zone of high potential for production. The 77% decline in Coho abundance experienced here in 2004 brought average rearing densities from 1.0 fish/sq.m. down to 0.25 fish/sq.m. and total lineal distribution down to 1 mile. A long zone of shallow and exposed glide/riffle habitat extends from the tidegate through the golf course to the first pools below the Highway 101 culvert. An increased beaver presence was noted here in 2004 in the small remnant of historical tidal swamp that exists around the Butte Cr. stream channel. A large fresh beaver pond and lodge was also noted just upstream of the Highway. This culvert was approximately 100 ft. long and has sagged significantly near its center. The low spot has filled with sediment to ½ its potential volume.

The highest counts for Coho in Butte Cr. have been observed in the 0.5 miles above the 101 culvert in large pools with high grassy banks and fine gravels. Good gravels and deep pool scours continued into the forest where wood complexities began to increase. 2004 Coho distribution ended at this point. 2003 Coho distribution continued as channel gradients increased exposing larger cobble and rock. Pools became smaller and less frequent through this reach though water quality improved (lower temperatures). Canopy coverage through this upper reach was excellent and abundant wood contributions were noted. 2003 distribution terminated where stream gradients began to decrease again in a zone of high sinuosity and fine gravels. Carrying capacity for Butte Cr. appears significantly higher than current levels due to the unused habitats still available at the top end of their current distribution.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	1,270	16.3	565	8.0	125	13.4	750	26.1
2003	3,355	31.6	320	8.8	165	8.8	405	23.8
2004	1,350	18.5	290	8.3	245	19.8	460	26.1

Jim Cr.

Jim Cr. was a significant contributor of flow and cool water temperatures to the mainstem during summer flow regimes. Coho present during 2002 and 2003 appeared to be the result of temperature dependent migrations from the mainstem. The 2004 abundance may have been the result of a combination of upstream migrations from the mainstem and a spawning event. The summer rearing Coho population here remains very small. The longest Coho distribution occurred in 2004 reaching 0.5 miles. Forest canopy and wood contribution is good in this tributary and the main limiting factor, besides adult escapement, appears to be the dominant rock and boulder substrates due to steep gradients. Indications from habitat observations are that substantially higher populations could be supported here.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	55	0.7	160	2.3	20	2.2	55	1.9
2003	95	0.9	145	4.0	30	1.6	30	1.8
2004	145	2.0	105	3.0	35	2.8	105	5.9

Lewis Cr.

Lewis Cr. is another major contributor of summer flow and low temperatures. The abundance of Coho here continues to be significant with an increase of 90% in the 2004 expanded estimate and the longest lineal distribution of the 3 year inventory - 1.5 miles. This tributary was one of only three in the basin (Jim Cr. and Trib E) where Coho abundance increased in 2004. A spawning peak identified at approximately 2,500 ft. (1.2 fish/sq.m. in 2004) has been present during all surveys. The average rearing density for Coho during 2002 and 2003 showed little change at 0.5 fish/sq.m. and dropped to 0.35 fish/sq.m. in 2004. Coho distribution ended above a major 30% tributary on the right where mainstem flows were reduced. Spawning habitat above RM 0.6 appears limited by the abundance of bedrock and large boulders. Habitat below this point appears well suited for Coho spawning and represents one of the best tributary options along with Hawk Cr., Fall Cr., and Trib E. Juvenile salmonid production here is limited primarily by a lack of adult escapement.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	375	4.8	225	3.2	10	1.1	140	4.9
2003	265	2.5	130	3.6	10	0.5	65	3.8
2004	505	6.9	130	3.7	35	2.8	165	9.3

Prospect Cr.

Prospect contributes significant summer flow to the mainstem Neskowin. The aquatic corridor exhibited steeper gradients and larger substrates than adjacent tributaries (Jim, Lewis). There were low densities of Coho observed in 2002 up to 1075 feet. These appeared to be the result of upstream temperature dependent migrations. The lack of spawning gravel and low pool surface areas appear to limit the production potential of Prospect Creek.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	40	0.5	90	1.3	5	0.5	60	2.1
2003	0	-	40	1.1	15	0.8	20	1.2
2004	0	-	20	0.6	0	-	15	0.8

Sloan Cr.

Sloan was a minor contributor of summer flow to the mainstem with salmonid production limited by habitat size and passage issues. The best aquatic habitat existed in the lower end, which exhibited larger pool surface areas. Coho were present during all years of inventory. The population nearly doubled in 2003 and showed little change in 2004. The average rearing density for Coho here has remained below 0.7 fish/sq.m. (2003). Peak Coho density was observed each year around RM 0.2 (1.1 fish/sq.m. in 2002, 1.4 fish/sq.m. in 2003, and 1.2 fish/sq.m. in 2004). Data from all years suggests that spawning has taken place here.

Coho distribution extended for 0.5 miles to an impassable double culvert each year. Two 3 foot diameter pipes have rusted out and allowed flows to drain out through the middle of the culvert and to erode substantial amounts of fill from underneath the road crossing. In addition, the 3 ft drop from the mouth of the culvert to the pool below was impassable for both adults and juveniles. This crossing is a high priority for both passage and road maintenance. Abundant supplies of good gravel and wood complexity exist within the stream channel upstream of this culvert. Almost all Steelhead observed in Sloan Cr. were present in the plunge pool below this culvert.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	110	1.4	35	0.5	0	-	20	0.7
2003	200	1.9	45	1.2	10	0.5	70	4.1
2004	190	2.6	70	2.0	20	1.6	90	5.1

Sutton Cr.

Noted as Trib A in the 2002 database, this tributary meets the mainstem just above the beach and climbs to the south through a private housing community. Numerous culverts exist throughout the first 0.8 miles of stream. No Coho were observed here in 2002 or in 2004 while a large school of summer parr were encountered in 2003 within the extensive beaver marsh just above the main road culvert (RM 0.3). Tidally influenced conditions limited the effectiveness of the survey methodology for the first 0.3 miles through long shallow trench pools covered with heavy silt and poor visibility. Spawning potential in this reach appeared very low.

Above the road culvert at RM 0.3 a heavy metal trash rack was installed to prevent beavers from plugging the culvert and flooding the road. Upstream of the culvert is a an extensive beaver marsh with numerous channels and backwaters. During the summer 2004 survey, this trash rack appeared impassable to both juvenile and adult migrations mainly due to the density of debris and the 2-3 ft. drop between the marsh and the bottom of the culvert. The grate itself is functioning as both an adult and juvenile migration barrier. Visibility is slightly improved in some sections of this marsh, which extends through the next main road culvert. A large abundance of Coho juveniles and Cutthroat trout were observed here during the 2003 survey. An accurate Coho count and surface area calculation was compromised by spotty visibility and the irregular shape of the marsh. Somewhere between 300 and 800 (expanded) Coho juveniles were rearing here in 2003 with at least 36 older age class Cutthroat trout. This represented about 5% of 2003 basin-wide Coho. A dense layer of silt covered the bottom of this marsh habitat. Several sections of this marsh were surveyed again in 2004 and no Coho were found. Many groups of Cutthroat trout were still present and visibility was adequate. It is likely that the debris accumulation at the lower culvert blocked adult passage from the remainder of the stream.

Habitat conditions upstream of the marsh improved quickly and abundant supplies of clean gravel were present. Flows remained very low through this reach, however, and pools were small. Very low numbers of juveniles were found rearing in this upper half of Sutton Cr. in 2003 only. It is likely that most spawning occurred that year in these upper zones of gravel during winter flow conditions and when flows subsided the poor rearing conditions (lack of pool surface area) forced most of the juveniles to migrate down into the extensive side channels and flooded grasses below.

The two new culverts upstream of the beaver marsh appear to be well situated and have improved juvenile passage there greatly. Maintenance of the debris accumulation on the trash rack at RM 0.3 is critical annually for maintaining adult and juvenile salmonid access. As noted in the summer of 2004, the blocked trash rack is definitively terminating adult and juvenile passage and should be removed or modified for fish passage.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	0	-	30	0.4	0	-	30	1.0
2003	560	5.2	10	0.3	25	1.3	40	2.3
2004	0	-	30	0.9	0	-	70	4.0

Trib E

This tributary is a minor contributor of summer flow coming into the mainstem just below the Vogel group camping area at the upper mainstem bridge. This tributary was noted as Trib G in the 2002 database. The main road culvert for Trib E exhibits a substantial drop complicated by the separation of several of the cement sections making up the double pipes. Most flow is currently draining underneath the culvert and a large accumulation of debris is growing at the upstream end. The condition of this culvert has visibly worsened during the three years of survey and presents an obstacle to adult passage and a complete barrier to juvenile passage. Maintenance at this site is highly recommended.

The stream’s highest Coho rearing densities were observed in the series of pools just below the culvert in 2004. This suggests the existence of upstream juvenile migrations terminated by a failing culvert. Similar migration patterns were seen in previous years’ density graphics. An additional spike in rearing density, 1.0 fish/sq.m., during the 2004 survey at RM 0.3 indicates that adult spawning is still occurring upstream of the culvert. Coho distribution has remained less than one mile (2004) during all three surveys though no additional barriers to escapement were observed.

Average rearing density has followed basin wide trends of abundance at 0.43 fish/sq.m. in 2002, 1.2 fish/sq.m. in 2003 and 1.0 fish/sq.m. in 2004. These density levels were the highest reported anywhere in the basin for 2004 and second only to Hawk Cr. in 2003. The 2004 Coho population in this tributary was more than three times as large as the 2002 population despite culvert passage problems. More gravel exists in this tributary than in most surrounding tributaries due to lower stream gradients. Distribution was greater here than in any of the upper basin streams (except Lewis in 2004). This subbasin along with Jim Cr. and Lewis Cr. were the only three in the basin to exhibit Coho increases in 2004 and together constitute the most promising upper basin tributary habitats for restoring salmonid production. Coho seeding in Trib E remains well below capacity and basin-wide adult escapement is the primary limiting factor.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	130	1.7	80	1.1	0	-	90	3.1
2003	275	2.6	70	1.9	25	1.3	30	1.8
2004	480	6.6	70	2.0	15	1.2	105	5.9

Sand Lake

(Table 13)

Expanded Sand Lake (5^th field) Estimates of Juvenile Salmonid Production

Survey Year Coho 0+ Sthd Cut

2002 2,940 2,345 155 1,335

2003 2,085 1,215 195 725

2004 5,070 1,005 425 1,260

Three years of inventories conducted in the Sand Lake basin assessed the condition of about 8 miles of available habitat. Summer rearing Coho parr were observed in 5.5 of these miles during 2002 and 2003 surveys and 7.1 of these miles in 2004. ODFW Adult estimates for the combined Sand Lake/Neskowin complex have fallen consecutively from 71 to 16 to 0 for each of these years. Sand Lake expanded summer parr estimates meanwhile decreased 29% in 2003 then rose 143% in 2004. Potential reasons for the divergence of these two trends have been previously discussed in the Neskowin Basin introduction. The third and last adult cohort appeared to be the strongest in Sand Lake, about 72% larger than the first (2001) adult cohort. The significant negative trend observed here during the 2003 inventory opposed the widespread increases in production observed in the Nestucca and Neskowin basins. Similarly, the significant positive trend observed here in 2004 did not track with the widespread decreases observed in the Nestucca and Neskowin basins.

It is conceivable that unique genetic adaptations to the dunal morphology and basin geology have resulted in the development of a cohort survival pattern that is dissimilar to the adjacent dominant population in the Nestucca. It is also conceivable that this dissimilar pattern was a complete anomaly and that unique genetic adaptations are not present. This information establishes excellent rationale for pursuing an advanced monitoring strategy designed to test the hypothesis that the Sand Lake basin Coho may indeed exhibit unique genetic characteristics. If uniqueness exists, then the preservation and enhancement of this potential population becomes extremely significant. DNA analysis protocols would be the appropriate tool for testing this hypothesis.

Several pools in the Sand Lake system could not be snorkeled due to poor visibility from tannins and / or sediment. The worst sections for visibility existed in Trib A of Sand Cr. (2002, 2003), lower Sand Cr., Trib A and Trib B of Sand Lake (2002, 2003), and Davis Cr. These habitats appear to be of negligible importance to anadromous spawning due to the absence of spawning gravels. They can however be important sites for rearing, dependant on annual seeding levels. Refer to the USGS quads included as a product of this inventory to identify the start points and the location of unnamed tributaries.

The Sand Lake Estuary contains a single primary source of potential salmonid habitat, Sand Cr. This creek is a 4^th order stream with three significant tributaries, Jewel, Andy, and Davis. Sand Cr. and tributaries accounted for nearly all of the basin’s summer rearing Coho during all years of the inventory (see table 14 below). 1.7 miles of habitat in Jewel, 1.6 miles in Andy, and the upper 1.2 miles of the Sand Cr. mainstem represent the most suitable gravel beds for spawning observed in the system. Good habitat was also observed in Reneke Cr. but was lacking in Coho production during all survey years because of culvert issues. Of these, the Sand Cr. mainstem appeared to be the most productive except during the 2002 survey when abundance levels in Andy Cr. were slightly higher. Excellent year-round rearing potential exists in the estuary below for production from these reaches although elevated water temperatures seem to promote many upstream juvenile migrations in surrounding side tributaries during the summer.

Large increases in Coho production were observed in each of these spawning destinations in 2004 though average rearing density remained well below capacity in each – 0.5 fish/sq.m. in Jewel, 0.2 fish/sq.m. in Andy, and 0.48 fish/sq.m. in the upper Sand Cr. mainstem. The highest average rearing densities for Coho in the basin during the 2004 surveys were observed in lower Gurtis Cr., 0.8 fish/sq.m., and were in response to a salinity or temperature dependent migration. Carrying capacity in surveyed reaches for both Coho spawning and rearing is well above the level of abundance observed in this three year inventory. This is primarily due to low adult escapement.

The estuary receives extremely high quality fresh water input from three 2^nd order streams that enter on the southern end of the bay, Gurtis, Reneke and Beltz. Gurtis displayed the highest levels of Coho rearing during the 2004 and 2003 surveys. A small temperature or salinity dependant migration was observed in Beltz in 2002. Reneke seems to exhibit the highest quality habitat relative to Gurtis and Beltz but escapement has been blocked by a buried culvert. Culvert problems in all three of these streams are discussed below.

1+Steelhead abundance increased by 119% in 2004 after two years of relatively little change. The most productive reach for Steelhead production in 2002 and 2003 was in Jewel Cr. while large increases in 2004 were also observed in Andy and the upper Sand Cr. mainstem. Two years of continued declines in 0+trout abundance were observed in all reaches.

(Table 14) Coho production trends in the Sand Lake Basin

Stream	2002 Expanded Estimate	% Total	2003 Expanded Estimate	% Total	2004 Expanded Estimate	% Total
Sand Cr. mainstem	1,000	34.0	1,270	60.9	2,730	53.8
Andy	1,150	39.1	195	9.4	685	13.5
Jewel	790	26.9	355	17.0	840	16.6
Gurtis	0	-	260	12.5	815	16.1

Sand Cr. mainstem

The large majority of basin-wide Coho production was observed in the Sand Cr. mainstem during all three survey years. The expanded abundance of summer rearing Coho for the mainstem rose two years in a row. A 27% increase in 2003 was followed by a dramatic 115% increase in 2004. Additional production is likely present in 16 % of the lineal habitat uninventoried below Galloway Rd. due to poor visibility. The presence of juvenile Coho here during 2004 surveys was significant since ODFW’s SRS adult estimate for the winter of 2003 was 0. Despite more than doubling in abundance, juvenile Coho distribution decreased 0.4 miles in mainstem Sand Cr. in 2004 totaling 3.5 miles above the head of tidal influence. Average rearing density rose accordingly from 0.2 fish/sq.m. to 0.34 fish/sq.m. but remains extremely low. The primary spawning activity in 2003 was observed above RM 2.5 where peak rearing density reached 0.75 fish/sq.m.. Peak densities moved downstream to RM 1.8 in 2004 and rose to 1.1 fish/sq.m.. The stream rises out of dark slack waters at this point, about 0.9 miles above the confluence of Andy Cr., and enters a zone of well scoured gravels and higher flows. The remaining 1.2 miles of stream represents the finest spawning opportunities available in the basin. Coho distribution in the Sand Cr. mainstem ended above several small tributaries in small pools and a narrow channel alongside heavy clearcuts and piles of slash.

Steelhead abundance in the mainstem remains low but exhibited a dramatic 167% improvement in 2004 following the basin-wide 119% increase. The 1+Steelhead population here in 2004 was the second largest in the basin, rising above Jewell Cr. which led the basin in rearing abundance during 2002 and 2003 surveys. The Sand Cr. Cutthroat population has shown relatively little change. The potential for restoration is significant in mainstem Sand Cr. with visible impacts from upslope harvest activity and agricultural use present.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	1,000	34.0	845	36.0	40	25.8	405	30.3
2003	1,270	60.9	450	37.0	60	30.8	310	42.8
2004	2,730	53.8	365	36.3	160	37.6	460	36.5

Andy Cr.

Andy Cr. represented the only significant tributary habitat to the Sand Cr. mainstem for Coho. Its confluence with Sand Cr. is about 0.9 miles above the head of tide and exhibits a large improvement in water quality (higher flow and lower temperature) relative to Sand Cr. at that point. Coho production here was greatest in 2002 and represented the largest contribution to basin-wide totals that year. Coho distribution was also greatest that year at 1.9 miles total. This appears to be the furthest extent of sustainable habitat for Coho in Andy Cr. due to a rapid transition at this point in stream gradient and an increase in rock and boulder size. The lower half of Andy Cr. is dominated by large silt accumulations on the stream bottom and extensive solar exposures due to the surrounding clear-cuts. High densities of slash accumulations in the stream channel here make up most of the available cover and pool complexity. These conditions gradually transition into a stable second growth mixed forest canopy as cobble size and stream gradient begins to increase. The deepest and highest quality pools were found within the remainder of the survey.

The average rearing density of Coho in Andy Cr. has declined each year from 0.37 fish/sq.m. to 0.24 fish/sq.m. to 0.18 fish/sq.m.. Peak densities were recorded in 2002 at 1.1 fish/sq.m. (RM 1.2) and in 2004 at 1.0 fish/sq.m. (RM 1.6, the end of distribution). The production potential for Coho is significantly higher in this tributary and primarily limited by adult escapement. Steelhead were observed in Andy Cr. during the 2004 survey for the first time in the three year inventory. This population exhibited the highest density for the species basin-wide (comparable to the 3.5 mile distribution from the Sand Cr. mainstem and 2002/2003 levels reported from Jewell Cr.). Most were found in the last mile of survey. Cutthroat abundance has remained stable relative to the changes in survey length.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	1,150	39.1	530	22.6	0	-	305	22.8
2003	195	9.4	370	30.5	0	-	55	7.6
2004	685	13.5	335	33.3	165	38.8	290	23.0

Jewel Cr.

Jewel Cr. represents the second most productive reach in the basin for Coho. This stream exhibits steep stream gradients and high flows originating in the mountains just east of the Sand Lake estuary with about a one mile transition through smaller cobbles and larger pools before entering an extensive tidal channel through salt-marsh habitats. The most dominant impact in the subbasin is the quarry at the upper end which contributes a significant silt load to the stream channel and coats riparian vegetation. Multiple unfenced cattle crossings were also noted.

The longest and most abundant distribution of Coho was observed in 2004 when an average rearing density of 0.5 fish/sq.m. extended for 1.7 miles. This represented a considerable improvement over the 2003 average of 0.24 fish/sq.m. and lineal distribution of just 0.9 miles. Peak rearing densities for Coho tripled in 2004 reaching 1.2 fish/sq.m. within the first 0.2 miles of survey indicating a significant upstream migration from the estuary. Jewel Cr., and to a lesser degree Gurtis Cr., probably represent two of the most important temperature or salinity refugias for juvenile salmonids in the basin due to their significant summer flows and low temperatures. A secondary peak in the 2004 rearing density profile near RM 0.8 reached 0.8 fish/sq.m. and appeared to represent the location of most of the spawning activity.

Expanded estimates of Coho abundance in Jewel Cr. have followed the basin-wide pattern over the last three years, falling 55% in 2003 then rising 137% in 2004. An overall positive trend for Coho has emerged in the Jewel Cr. subbasin where 2004 abundance levels have remained 6.3% higher than 2002 levels. This trend contrasts greatly with the continuous sharp decline reported in adult escapement estimates. Jewel Cr. contained the highest numbers of rearing 1+Steelhead in the basin during the 2002 and 2003 surveys, despite less than ½ the lineal survey distance of the Sand Cr. mainstem. A 30% reduction in this population during the 2004 survey in conjunction with large increases in upper Andy Cr. have resulted in a third place ranking behind Andy Cr. and Sand Cr.. 2004 Cutthroat abundance in Jewel Cr. has similarly fallen to less than ½ the levels observed in 2002 despite the 0.8 additional miles of survey distance in 2004.

Year	Coho	% Total	0+	% Total	Sthd	% Total	Cut	% Total
2002	790	26.9	875	37.3	115	74.2	555	41.6
2003	355	17.0	220	18.1	135	69.2	115	15.9
2004	840	16.6	215	21.4	95	22.4	250	19.8

Davis Cr.

Davis Cr. enters the Sand Cr. mainstem just above the head of tide. Davis was classified as exhibiting low gradient marsh habitat with very little if any potential for spawning. The substrates were silt dominated. There were only Cutthroat observed, no Coho or Steelhead present. Abundant beaver activity was noted.

Sand Lake Southern Tributaries

Three 2^nd order tributaries entering from the southern end of the estuary (Gurtis, Reneke, and Beltz) exhibited significant summer flows that were contributing very cold water to the shallow Sand Lake estuary. All three of these tributaries originate on a north slope and emanate from well canopied headwaters. All three also currently exhibit passage problems at the main hwy culvert.

The 3 ft culvert on Beltz has a 3.5 ft drop to the stream channel and may pass adults at high water but is a definitive barrier to the potential upstream temperature dependant migrations of juveniles. Very low numbers of Coho juveniles (5 expanded) were observed here in 2003 probably seeking cold water refuge. Stream gradient increases quickly above this culvert however and upstream habitat appears relatively minimal.

The original 3 ft steel culvert on Reneke is entirely filled with gravel and sediment. Reneke flows southward from this culvert along a narrow roadside ditch, joins with a small wetland drainage, then crosses under the highway through a 2 ft cement pipe. This smaller culvert was not designed for the combined flows of Reneke Creek and the wetland and was completely submerged during the summer 2004 survey. The highway reportedly floods here during higher winter flows. The remainder of the present channel through the downstream tidal swamp has not yet been well established and is probably discouraging any adult escapement. Of the southern Sand Lake tributaries, the habitat to the east of the highway in Reneke Cr. looks to be the best suited to Coho spawning and rearing. Flows in Reneke appear higher than in Gurtis or Beltz while stream gradients remain lower and deeply scoured pools were relatively frequent. The original culvert and tidal channel connection here should be restored as soon as possible. No Coho or Steelhead were observed here during the inventory.

The 3 ft. cement culvert on Gurtis was in good condition except for a welded metal grate on the upstream end with openings that appeared too small for adult passage. This grate was presumably installed to prevent debris from blocking the culvert and juvenile passage here appeared possible despite a growing accumulation of wood. Only 300 ft. of suitable spawning habitat exists upstream of this culvert before a steep 20 ft. boulder falls terminates all passage. This short reach presents the only spawning opportunities in Gurtis. All downstream habitat was tidally dominated with many signs of beaver and covered in deep silt. Flows here were very cold and continued through a long winding channel through an extensive salt marsh habitat. The high channel sinuosity and low water temperature observed in this reach of Gurtis present excellent temperature and rearing refuge for juvenile fish in the Sand Lake estuary. Juvenile Coho were found here just above the head of tide in 2003 and 2004 in expanded estimates of 260 and 815, respectively. The 2004 population here was one of the largest in the basin (16% of the basin total) and, while only 0.36 miles in distribution, exhibited the highest average rearing density observed that year (0.8 fish/sq.m.). All Coho here appeared to be seeking refuge from temperature or salinity and were the result of spawning from another location. A new design or removal of the culvert grate is necessary to provide adult spawners access to the limited gravel beds between the culvert and the falls. No Steelhead were observed.

None of these tributaries are high priority for large anadromous spawners because of the limiting size of the habitat. There is however, the potential for these three streams to be very significant players in the health and productivity of the intertidal wetlands and estuary that they contribute to. In addition, juvenile salmonids appear to be utilizing these habitats for rearing and refugia.

Recommendations

There are several conclusions based on the preceding analysis that lead us to the point of developing some general recommendations.

· The weir at the Cedar Cr. facility, in the Three Rivers subbasin, may be problematic for some wild salmonids. Retrofitting the weir at the Cedar Cr. site with a sorting facility and a Three Rivers water supply to the fish ladder could result in a significantly higher level of wild production for at least OCN Coho than is currently achieved. Additional benefits could also be realized by wild Winter Steelhead, wild Fall Chinook and Sea run Cutthroat Trout. Phase 2 plans previously submitted to the R&E Board already outline the changes and designs necessary for the trapping and sorting at this site that would provide the discrimination required to pass or retain adults without truncating run timing and effectively denying access for certain components of each population. Re-visit the phase 2 option, clearly state the objectives and benefits to wild salmonids and review any alternate strategies that may be more cost effective solutions than previously proposed.

· The mainstem Nestucca continues to be very high priority for restoration and enhancement because of the observed production potential for all salmonids. This suggests that the maintenance, enhancement and preservation of water quality in the mainstem are paramount. This also suggests that a well developed monitoring strategy is essential for quantifying the inter / intra annual trends in water quality parameters. Prioritize restoration reaches by species and continue to develop an understanding of the winter habitat requirements of salmonid juveniles rearing in the mainstem.

· Address the multiple passage issues described in this summary for the Neskowin basin. The relatively low availability of tributary access in this basin because of its small watershed size may be having a disproportionately negative impact on spawning success. The provision of additional spawning habitat may represent some of the best(?) restoration opportunities in the basin.

· Initiate DNA sampling for Coho in the Sand Lake, Nestucca, Tillamook and Netarts Bay watersheds to test the hypothesis that genetic uniqueness may exist between these adjacent locations.

· Initiate pathological inventory of Nestucca basin Steelhead that exhibit an obvious external response (mucous) to some parasite, disease or environmental stress.

Distribution and Rearing Density Graphics

For all three years of the Nestucca Basin Rapid Bio-Assessment Inventory (2002-2004), an Excel Workbook has been developed that allows the user to preview distribution, density and abundance graphics by stream, year and species. This database allows managers and users to access trend information for all of the basins and subbasins in the Nestucca / Neskowin management area including direct ocean tributaries. Please contact the Nestucca / Neskowin Watersheds Council for an updated version of this tool.

In addition, it is important to note that an extensive amount of supplemental raw data (primarily in the form of surveyor notes and comments) is available in each of the Access data bases that are available for each year. These data bases have not been combined and you will need to request them individually (2002, 2003 or 2004) from the NNWC.

INTRODUCTION

GENERAL OBSERVATIONS

Adult and Juvenile Barriers

Temperature Dependant Migrations

SITE SPECIFIC OBSERVATIONS

2002

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