COSEWIC assessment and update status report on the Salish Sucker in Canada 2002

  1. Table of Contents
  2. Assessment Summary
  3. Executive Summary
  4. SPECIES INFORMATION
  5. DISTRIBUTION
  6. HABITAT
  7. BIOLOGY
  8. POPULATION SIZES AND TRENDS
  9. LIMITING FACTORS AND THREATS
  10. SPECIAL SIGNIFICANCE OF THE SPECIES
  11. EXISTING PROTECTION OR OTHER STATUS DESIGNATIONS
  12. SUMMARY OF STATUS REPORT
  13. TECHNICAL SUMMARY
  14. ACKNOWLEDGEMENTS
  15. REFERENCES
  16. LITERATURE CITED
  17. BIOGRAPHICAL SUMMARY OF CONTRACTOR
  18. AUTHORITIES CONSULTED
  19. COLLECTIONS EXAMINED

COSEWIC status reports are working documents used in assigning the status of wildlife species suspected of being at risk. This report may be cited as follows:

COSEWIC 2002. COSEWIC assessment and update status report on the Salish Sucker Catostomus sp in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. vii + 27 pp.

Previous report:

McPhail, J.D. 1986. COSEWIC status report on the Salish Sucker Catostomus sp. in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. 29 pp..

Production note: COSEWIC would like to acknowledge Alex E. Peden for writing the status report on the Salish Sucker Catostomus sp. prepared under contract with Environment Canada.

Également disponible en français sous le titre Rapport de situation du COSEPAC sur le meunier de Salish (Catostomus sp.) au Canada – Mise à jour.

Cover illustration:
Salish Sucker -- Photograph courtesy Alex Peden.

©Her Majesty the Queen in Right of Canada 2003
Catalogue No. CW69-14/198-2003E-IN
ISBN 0-662-34243-7

Assessment Summary – November 2002
Common name Salish Sucker

Scientific name

Catostomus sp.
Status Endangered
Reason for designation The Salish Sucker has a very restricted Canadian range within which populations are in decline as a result of habitat loss and degradation resulting from urban, agriculture and industrial development.
Occurrence British Columbia
Status history Designated Endangered in April 1986. Status re-examined and confirmed in November 2002. Last assessment based on an update status report.

The Salish sucker (Catostomus sp.) has yet to be scientifically named as a species. Genetic and morphological data indicate it is distinct from the longnose sucker (Catostomus catostomus), the species from which it evolutionarily diverged in the Chehalis Refugium during Pleistocene Glaciation. Longnose suckers might occur in the lower Fraser River Valley, but the extent of their interaction and geographic proximity to Salish suckers needs clarification, especially after the recent discovery of a population near Harrison Lake (first known occurrence north of Fraser River). The status of Salish suckers was summarized by McPhail (1986, 1987) and considered endangered by COSEWC due to reduced population numbers caused by urban and agricultural encroachment. When comparing population estimates with large Gee traps, Pearson (1998a,b,c,) found that earlier studies using different methods underestimated population sizes. Final evaluation for population size must wait completion of Pearson’s thesis expected in 2002or 2003.

Globally

Salish suckers inhabit three lakes and a slough draining into Puget Sound, the Skagit, Nooksack and Green river drainages in Washington state; and the lower Fraser Valley drainages of Canada.

Within Canada

Salish suckers presently (2002) occur in the lower Fraser and Nooksack drainages of British Columbia. These include the Salmon River plus various creek systems (Atchelitz, Bertrand, Fishtrap, Miami, Salwein, and Semmihault and some of their tributaries. The Campbell River population is extirpated.

Salish suckers inhabit coastal streams and small rivers. Recent captures suggest larger Salish suckers are most abundant in deep-water marshy headwaters of streams containing heavy cover.

Salish suckers spawn between April and July with their eggs adhering to rocks. Their fecundity is unknown. Salish suckers live to five years, and their life history is similar to that of longnose suckers. Salish suckers are smaller than longnose suckers, the largest known specimen being 244 mm (fork length).

About 1998, populations in the Nooksack and Salmon rivers systems were found to be larger than previously thought, possibly a few thousand. A dissertation anticipated in 2002-03, will update population status (Pearson 2001 pers. com.). Recent efforts to enhance sucker habitat in Bertrand and Fishtrap creeks require evaluation. Others streams with Salish suckers are heavily impacted by human encroachment. The species is extirpated from the Campbell River. Though unknown in the Sumas, their presence was reconfirmed in 2002, at Salwein Creek tributary to Vedder-Sumas system. It could have occurred historically in areas between the Sumas, Nooksack, Salmon and Sumas rivers.

Salish suckers are severely impacted by agriculture, industry and urbanization. Cooperative projects between community groups, local government and provincial agencies have improved summer habitat in Pepin and Bertrand creeks as well as the Salmon River. Because these projects were not specifically directed toward Salish suckers, their effect on population numbers is unknown.

Along with Nooksack dace (Rhinichthys sp.), sympatric Salish suckers represents one of British Columbia’s few faunal elements to have diverged in the Chehalis refugium of Washington during Pleistocene Glaciation. The species is genetically and morphologically distinct from longnose suckers. As yet, there is no agreement as to whether the Salish sucker represents a distinct species.

Although existing Provincial and Federal regulations apply, the strongest protection arises from the good will, generosity and cooperation between educational and academic groups, environmental organizations, and local industry. The Pepin Brook Streamkeepers worked to improve sucker habitat. Strong public communication has occurred locally with local residents surprisingly well informed on the status of the Salish sucker and Nooksack dace.

Salish suckers were considered endangered in 1986 (COSEWIC 2002). New information and methods of capture by researchers at University of British Columbia (UBC) found Salish suckers more widely distributed than previously thought in the lower Fraser valley. On the other hand, environmental degradation of sucker habitat continues (one population extirpated and others seriously depleted). There has been cooperation and generosity demonstrated by residents who assisted habitat restoration in the Langley and Salmon River areas and under the sponsorship and guidance of municipal/provincial authorities and UBC researchers. A few local industries that previously impact watersheds assisted projects. Whether there has been any positive affect to improve sucker habitat is so far, unknown and unproven. Despite efforts to improve habitat for Salish suckers, suckers in Semmihault Creek (spelled as Semiault, Pearson 1998c) are in serious trouble. Those in the Campbell R are extirpated. Whether any Salish suckers occurred in the Sumas River is unknown, however, this might have been a historically significant route of dispersal between the USA and Canada and between Canadian creeks after the Pleistocene. Given occurrences in isolated creeks connected to the lower Fraser River (Salmon & Vedder rivers plus Chilliwack and Miami Creeks), Salish suckers must have historically occurred in intervening water ways such as the Fraser River, their present habitats suggestive of relict refugia.

The Committee on the Status of Endangered Wildlife in Canada (COSEWIC) determines the national status of wild species, subspecies, varieties, and nationally significant populations that are considered to be at risk in Canada. Designations are made on all native species for the following taxonomic groups: mammals, birds, reptiles, amphibians, fish, lepidopterans, molluscs, vascular plants, lichens, and mosses.

COSEWIC comprises representatives from each provincial and territorial government wildlife agency, four federal agencies (Canadian Wildlife Service, Parks Canada Agency, Department of Fisheries and Oceans, and the Federal Biosystematic Partnership), three nonjurisdictional members and the co-chairs of the species specialist groups. The committee meets to consider status reports on candidate species.

Species
Any indigenous species, subspecies, variety, or geographically defined population of wild fauna and flora.
Extinct (X)
A species that no longer exists.
Extirpated (XT)
A species no longer existing in the wild in Canada, but occurring elsewhere.
Endangered (E)
A species facing imminent extirpation or extinction.
Threatened (T)
A species likely to become endangered if limiting factors are not reversed.
Special Concern (SC)*
A species of special concern because of characteristics that make it particularly sensitive to human activities or natural events.
Not at Risk (NAR)**
A species that has been evaluated and found to be not at risk.
Data Deficient (DD)***
A species for which there is insufficient scientific information to support status designation.
*
Formerly described as “Vulnerable” from 1990 to 1999, or “Rare” prior to 1990.
**
Formerly described as “Not In Any Category”, or “No Designation Required.”
***
Formerly described as “Indeterminate” from 1994 to 1999 or “ISIBD” (insufficient scientific information on which to base a designation) prior to 1994.

The Committee on the Status of Endangered Wildlife in Canada (COSEWIC) was created in 1977 as a result of a recommendation at the Federal-Provincial Wildlife Conference held in 1976. It arose from the need for a single, official, scientifically sound, national listing of wildlife species at risk. In 1978, COSEWIC designated its first species and produced its first list of Canadian species at risk. Species designated at meetings of the full committee are added to the list.

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Environment Environnement

Canada Canada

Canadian Wildlife Service canadien
Service de la faune

Government of Canada
The Canadian Wildlife Service, Environment Canada, provides full administrative and financial support to the COSEWIC Secretariat.

Phylum: Chordata

Subphylum Vertebrata

Class: Osteichthys

Order: Cypriniformes

Family: Catostomidae

Genus: Catostomus

Species: Catostomus sp.

Evolutionary Significant Unit: Catostomussp. (Nooksack River drainage)

Common Name: Salish Sucker. Meunier Salish

The Salish sucker (Catostomus sp.; Fig. 1, 2, 3) was first found in Washington in 1947 and first observed in Canada at White Rock, British Columbia in 1950’s (McPhail 1983 & 1986). It was last seen in the Campbell River in 1976. Fortunately additional populations were found elsewhere, particularly in the Salmon River and tributaries of the Nooksack River. A species name has yet to be provided owing to the assumed allopatric distribution of Salish suckers in relation to its closest relative, the longnose sucker (McPhail and Taylor 1999). Difficulty of evaluating the populations as biological species is further exacerbated by the allopatric occurrences of each population (McPhail, 1986; Pearson, 1998a,c}. Cannings and Ptolemy 1998 emphasized McPhail’s comments that geologically, the Salish sucker is a “species in the making”. COSEWIC records the species as endangered (Campbell 1990).

1

Figure 1. Salish sucker from the extirpated population in Campbell River. (see Appendix 1).

McPhail and Carveth (1994) noted mophological differences between Salish and longnose suckers as did McPhail and Taylor (1999) who discussed the following:

1/ - lip length, lip width, post-pelvic length and caudal peduncle depth differ (Table 1), but were not as distinct as molecular data;

2/ - one unique Cytochrome b haplotype (#7) distinguishing them from all northwestern longnose suckers;

3/ - two unique ND2 MTDNA haplotypes (#’s 13 & 14), - # 14 was found only in the Pepin Creek population (Nooksack Drainage).

1
Table 1. Morphological differences between Salish and longnose suckers (McPhail and Carveth1994; McPhail & Taylor 1999)
Character Salish sucker Longnose sucker
Lateral line Scales Usually fewer than 100 Usually more than 100
Snout shape Snout short & blunt Snout long & pointed
Mouth position Snout barely overhangs snout Snout clearly overhangs snout
Mouth shape Small Large
Mouth length Equal to eye diameter Greater than eye diameter

These differences suggest the Salish sucker represents an “Evolutionary Significant Unit” within the Catostomuscomplex, but not necessarily at the species level. McPhail and Taylor (1999) reported Salish sucker populations to be separated by 60 km of Fraser River water from the nearest known population of longnose suckers, whereas, Blood (1993) reported the distance to be 45 km. Unpublished molecular data from Miami Creek (below Harrison Lake) now confirms the first known occurrence of Salish suckers north of the Fraser River (Pearson pers. comm.2001). This closes the geographic gap between Salish and longnose suckers between 26 to 30 km (perhaps 40 creek and river miles, see Figure 3). If each population should meet, questions arise as to whether they: 1/ - behave as biological species; 2/ - historically coexisted long enough to test criteria of biological species; 3/ - different enough to minimize genetic introgression in sympatry and ecologically overcome competition for resources?

Salish suckers occur in streams of the lower Fraser Valley and Puget Sound, Washington (Figs. 2, 3 & 4), including two lakes near Puget Sound and apparently a slough in Washington (Blood 1993; McPhail 1986). Headwater capture of Nooksack headwaters during the Pleistocene probably allowed Salish suckers to disperse into lower Fraser Valley of British Columbia as may have occurred in the interconnected Sumas Rivers, although the latter needs more confirmation (see Table 2). McPhail and Taylor (1999) analyzed specimens from Canadian waters as well as from Twin Lakes, Green River, Lake Whatcom and Lake Cushman from Washington State.

Prior to the first accounts of Salish suckers (McPhail 1987), Scott and Crossman (1973) assumed suckers in the lower Fraser River were longnose suckers. Previously considered allopatric to each other, possible historic contact between Salish and longnose suckers requires further examination, especially after the discovery of Salish suckers in Miami Creek, a Tributary to Harrison Lake in the eastern portion of the lower Fraser Valley (Pearson pers. comm. 2001). Fry and adults of longnose suckers undoubtedly flush down the Fraser River from time to time and might provide potential

Table 2. Distribution of Salish sucker in British Columbia(see Figure 4).

Note:- Chilliwack Creek sometimes confused with Chilliwack River. Following major watercourses enter Fraser River or Georgia Strait separately (Fig. 4): “A”= Campbell River; “B”, - via Nooksack R., Washington; “C”, into Fraser River from the south; and “D”, Fraser from the north. Populations highlighted in bold face used for morphometric and molecular comparisons between Salish and Longnose suckers (McPhail & Taylor 1999).


Drainage

Water Body
McPhail 1984
Pearson 1998a
Pearson pers. comm. 2001-02


# samples

Sites on maps
Length of creek habitat

Discussion
A – Campbell R. Campbell R. Extirpated
(last seen 1976)
None found not published Extirpated
B – Nooksack R. Cave Ck. See drainages “B” below 5 Present – 2 sites See “B” below See drainages “B” below
B - “ Bertrand Ck. Juveniles 1983 ? At 2 sites 3.2 km? present
B – “ Pepin Ck. Yes 14 at 9 sites 6 km more than first thought
B - “ Fishtrap Ck. no suckers 10 At 12 sites 11 km Not discussed
C – Salmon R. Salmon R. Now, in headwaters 9 at 6 sites 9 km well known
C – Chilliwack Creek Semmihault Ck. Not recorded Not recorded 1 site? 1 km? likely in trouble
C – Chilliwack Creek Atchelitz Ck. Not recorded Not recorded 1 site? 1 km? new find
C – Vedder R. Salwein Ck. Found in 1984 Not recorded 1 site? 1km? Thought extirpated
-found last year
M – S. of Harrison L. Miami Ck. Not recorded Not recorded Not recorded 1 km? new, no survey
approximate total extant km stream habitat = = 34 km

* “Semmihault” spelled as “Semiault” Pearson (1998a & b).

sources of gene flow into Salish sucker populations, should they reproduce. Although McPhail and Taylor (1999) reported that Salish suckers are separated by 60 km from longnose suckers without evidence of genetic introgression, the Miami Creek populations close the linear distance to 26 km (30 to 40 creek and river miles). The BC Fisheries Data Warehouse (2002) records longnose suckers from the Alouette and Pitt rivers and the lower Fraser River (Tables 3 & 4). Unfortunately, prior to 2000, there was no program such as the BC Fisheries “Quality Assurance” Program, to confirm field identifications, and identification errors were known to have reached 20 to 25% for some contractors (Peden pers. comm. 2002, also McPhail pers. comm. 2002).

Table 3. Reputed records of longnose suckers recorded by BC Ministry Sustainable Resource Management Webb page: “http://www.bcfisheries.gov.bc.ca/fishinv/”Records for FraserRiver, region 2 (DFO district 1, subdistrict 29J, Watershed code 100). Generally sucker identifications for lower Fraser Valley not reliable enough for confident identifications [coment in text]. They demonstrate need for a vouchering process for verification of sucker records in the lower Fraser River in order to monitor level of potential contact and hybridization (if any) between Salish and longnose suckers.


Gazetted Name

Consultant

Map 1

Point 1

Type 1

Map 2

Point 2

Type 2

Refs & Dates
Waterbody Identifier
Alouette R. No fish caught 092G02 2 29C HQ2030
1-Feb 1998
00000LFRA
Fraser R. 093B08 5018 U 093B08 5019 D 5058
1-Jan1992
00000TABR
Fraser R. 093B15 5001 U 093B16 5018 D 5058
1-Jan1992
00000TABR
Fraser R. 093G02 10 P HQ0453,
1-Jan1989
00000TABR
Fraser R. 093G02 11 P HQ0453,
1-Jan1989
00000TABR
Fraser R. 093G02 5008 U 093G02 5009 D 5058,
1-Jan1992
00000TABR
Fraser R. 093I04 9 P HQ0453,
1-Jan1989
00000TABR
Fraser R. 1 W FHQ001,
1-Feb1948
FHQ002,
1-Feb1973
00000TABR
Pitt R. 224 W 1 EW070,
1-Jan1994
00000LFRA
Pitt R. Triton Environ. Consultants/ FDIS 093G.017 10/7/98 Tilbury
Slough

Pitt River

& Lake

Triton Environ. Consultants/ FDIS 092G07 10/2/81 Widgeon Slough

Rosenfeld (2000) suggested that the Sumas watershed may have previously connected populations in the Vedder (i.e. Salwein Creek) and Nooksack systems. They probably contained suitable habitat prior to agricultural development of the region and would have been open to the Nooksack drainage during floods. He further speculated that numerous creeks within the study area may have previously contained suitable habitat and been open to colonization via tributaries to the Fraser River, The Salmon being a notable example. He further stated that the apparent absence of suckers in the intervening watersheds might have been a sampling artifact, because few biologists are capable of reliably identifying Salish suckers. Rosenthal believes distributional studies have been hampered by inefficiency in standard sampling methods. Such assumptions obviously must account for habitability of present-day habitat.

Table 4. Reputed Salish Suckers Records of BC Ministry Sustainable Resource Management Webb page: “http://www.bcfisheries.gov.bc.ca/fishinv/”. Records are from FraserRiver, region 2 (DFO district 1, subdistrict 29J, watershed code 100). There is potential duplication of records between Tables 3 & 7 collated by two different sources. Presented here in lieu of extensive listing of museum records*.
Gazetted Name Map 1 Point 1 Type 1 Refs & Dates Watershed Code Waterbody Identifier
Beaverpond Lakes 7A 154610 W BCLKS6360, 02/OCT/1994 238-510500-49700 00945 UOMI
Bertrand Ck 2 672833 W EW082, 01/JAN/1993 970-046800-25200 00000L
HQ0502, 01/JAN/1997
HQ0869, 01/NOV-1997
HQ0881, 01/NOV-1998
HQ0983, 01 NOV/1996
Bertrand Ck 2 672833 W (HQ2084, 01/MAR/1998 970-046800-25200 00000L
Bertrand Ck 2 672833 W (HQ2247, 01/APR/1998 970-046800-25200 00000L
(HQ2251, no date
Bori Ck 2 092G01 1077U (HQ0517, 01/JAN/1993 970-046800-25200-51616 00000L
Campbell R. 2 263216 W 29B-35, 01/JAN/1986 900-000500 2 29B 00000L
Cave Ck, 2 330254 W HQ0881, 01/NOV/1998 970-046800-25200- 00000L
Cave Ck 2 330254 W HQ2247, 01/APR/1998 970-046800-25200-43500
East Fishtrap Cr 2 330291 W (2FBSRY, 01/JAN/1995) 970-046800-26400- 00000L
Ennis Brook 2 330289 W EW112, 01/JAN/1994 970-046800-26400-87800 00000L
2FBSRY, 01/JAN/1995
EW041, 01/JAN/1990
Fishtrap Ck 2 330283 W EW056, 01/JAN/1990)
HQ0826, 01/OCT/1995)
HQ0869, 01/NOV/1997)
HQ0881, 01/NOV/1998)
Fishtrap Ck 2 330283 W HQ1810, 01/SEP/1999
HQ2247, 01/APR/1998
HQ2251, no date
Gazetted Name Map 1 Point 1 Type 1 Refs & Dates Watershed Code Waterbody Identifier
Fishtrap Ck 2 330283 W HQ2247, 01/APR/1998
HQ2251, no date
HQ2247, 01/APR/1998
HQ2251, no date
2 676072 W 2FBSRY, 01/JAN/1995
EW082, 01/JAN/1993
EW104 01/JAN/1992
Pepin (cont'd) HQ0826 01/OCT/1995
HQ0869, 01/NOV/1997
HQ0881, 01/NOV/1998 970-046800-2520-38700 00000L
Pepin Creek 2 676072 W HQ0881, 01/NOV/1998 970-046800-25200-38700 00000L
Pepin Creek 2 676072 W

HQ2247 01/APR/1998

HQ2251, no date

970-046800-25200-38700 00000L
Salmon River 2 092G02 381 P EW082 01/JAN 1993 100-038800
Salmon River 2 907 W HQ2084, 01/MAR/1998
EW104, 01/JAN/1992
100-03880 00000L
Salmon River 2 907 W HQ0869 01/NOV/1997 100-038800 00000L
HQ2247, 01-APR-1998 HQ2251 no date 100-038800 00000L
Waechter Creek 2 330285 W 2FBSRY 01/JAN/1995 970-046800-26400-75400 00000L
2 1561 W SISSM01 01-JAN-1995
Chilliwack River* 7A 15294 W BCLKS6366 18-OCT-1994 100-593800-75000-40200
1115263 W HQ1564 01-MAR/1999 100-038800-78709

*There is uncertainty as to whether this record is for Chilliwack River or Chilliwack Creek; this location should be verified (Peden, pers. comm. 2002)

Figure 4 illustrates headwater portions of the Sumas drainage (=”SU”) flowing northward to the Fraser River in Canada and southward to the Nooksack River in Washington. Rises of water levels enable northward and southward dispersal if suckers were present. However, agricultural development altered the Sumas River that used to drain Sumas Lake. Current maps illustrate a ditch where this lake had occurred (Canada Department of Mines and Energy Resources map, 1976).

Figure 4. Stream drainages with Salish sucker populations (west to east): arrow below “Cam” points to extirpated Campbell River population; “Sal” = Salmon River; “C” = Cave Creek; “B” = Bertrand Creek (includes Howes Creek); “P” = Pepin Creek; “FT” = Fishtrap Creek [includes Enns Brook and Waechter Creek tributaries]; “V” = Vedder River and “CR” = Chilliwack River, not to be confused with Chilliwack Creek, are continuous, without records of Salish sucker, however its small tributary, “n”= Salwein Creek, represents the only known population in the Sumas/Vedder/Chilliwack system (creek too small to draw on map) and ultimately drain into the Fraser River; “AC”, Aitchelitch Creek flows and “SMM”, Semmihault Creek into Chilliwack Creek (latter not labeled); “M”, Miami Creek, drains into Harrison Lake. Headwaters of “Sal”, “C”, “B”, “P”, and “FT” represent best known populations (Pearson 1998a).

Pearson (1998c) stated that Salish suckers are found in a variety of habitats. More recently, he found them concentrated in deeper portions of marshy headwaters containing heavy cover (Pearson pers. comm. 2002). Within Canada, he found them in small lowland streams and associated ponds. Within streams, they were found in a variety of water velocities, depths, and hydraulic types but were most often captured in slow currents over sand or silt substrate in areas with in-stream vegetation and over-stream cover (Inglis et al. 1992). Winter habitat is unknown. But it seems likely that they require off-channel refuge during periods of high flow. Young-of-the-year of Salish suckers were found in similar habitats as adults, but seemed to prefer more overhanging vegetation (Inglis et al. 1992). They were encountered most frequently while seining ponded reaches.

Inglis further noted that temperature preferences and limits for Salish sucker remain unknown, although circumstantial evidence suggest that Salish and longnose suckers can survive at least short-term exposure to warmer temperatures. Both Salish and longnose suckers were commonly caught in waters above 20o C in summer. Inglis also reported that Salish suckers have been caught and returned to a 21o C isolated pool on Cave Creek along with salmon. When the pool was re-sampled, all the coho were dead. This researcher further noted the closely related longnose sucker to tolerate high temperatures with the upper lethal temperature being 26.9o C after being acclimated to 14o C. (Black 1953). Such temperature tolerances might occur with closely related Salish suckers, however such data are not yet available.

Habitats of Salish suckers have been lost in recent years due to agricultural, industrial and urban growth. The species no longer inhabits the Campbell River. It has never been found in the Sumas, Vedder and Chilliwack rivers between Chilliwack Creek and the Nooksack system except for the precarious Salwein Creek population. The presence of the latter suggests historic distribution required a wider distribution including the Sumas for the populations to be distributed as they are today. Unfortunately, there are no Canadian records of the species prior to 1950 to document occurrence. Salish suckers are extirpated from Howes Creek (a tributary to Bertrand Creek, Fig 4) and are restricted to specific portions of the other streams such as the Chilliwack, Salmon, Miami and Campbell drainages probably due to re-channeling, irrigation and polluted run-off from agriculture. The predominance of stream inhabiting Salish suckers in Canada seems inconsistent with American distributions that include two widely separated lakes plus what Blood (1993) described as a “slough”

Presently, public awareness of their status favors limited restoration within small sections of their former range. Riparian deforestation, on Agricultural Reserve Lands still continues, and there are severe sources of sediment and nutrients that locally degrade or destroy sucker habitat. If current public interest in the species is maintained and the species remains in the same habitats as it does today there may be optimism for the species survival. Long term growth of agriculture, industry and urbanization threatens all populations and undermines restoration and possibly genetic diversity of Salish sucker populations (i.e., ND2 MTDNA haplotypes found only in Pepin Creek population).

There have been introductions of alien fishes from eastern North America, however there are no reports on the adverse effects of fish introductions, although fishes such as Lepomis and Micropterus undoubtedly consume fry and suitable sized adults. In particular, there have been no studies on the effects of introduced bull frogs on suckers in the study area. During 2000, several thousand juvenile bass were intercepted at a fish fence as they spilled out from ponds of a Pepin Creek tributary into the mainstem where there is the highest concentration of Salish suckers in Canada. Intense efforts to eradicate bass have failed and the fence is not longer operational due to funding constraints (Pearson per/ com. 2002).

On Pepin Brook most of the lands and adjacent waters are owned municipally or industrially; portions the lands abutting Salwein Creek and the Salmon River are both privately or federally owned; all the other streams run through private lands: see Pearson (1998a,b,c & pers. comm. 2002) who provided the following information on protection/ownership).Cave Creek (Fig 4):

A project for fish access over a dam has improved fish access. A project of headwater wetland restorations was judged unfeasible (Pearson pers. comm. 2002).

Bertrand Creek (Fig. 4):

Major fish habitat problems vary along the creek’s length. Years of dredging and channelization in the headwaters have deprived the stream of in-channel complexity, and off-channel refuges and rearing habitat. Local stewardship groups have completed a number of successful projects to alleviate this problem. The middle reaches suffer from these problems in addition to lack of riparian shading and extensive livestock damage. Fencing and planting of this segment is the highest priority for enhancement work because of its temperature influence on the highly productive lower reaches. The lower reaches also contain localized areas of cattle damage and bank erosion which should be addressed.

Pepin Creek (Fig. 4):

The most critical habitat problem facing the creek was massive sediment loading from gravel pits in the upper reaches. Over 1m of clay has been deposited in the channel for a distance of at least 1 km downstream from the creek’s origin. Cattle access has been largely curtailed in the lower reaches with fencing projects since 1995. Riffle creation and localized control of reed canary grass may benefit the sucker and dace populations of the farmed areas near 0 Avenue. Thinning the thick stands of riparian alder through the forested areas of the ARLP [= Aldergrove Lake Regional Park] and underplanting them with conifers would greatly speed natural succession and the re-supply of large wood debris to the stream. Two experimental habitat creation projects have occurred recently on the property.

Fishtrap Creek (Fig. 4):

The main habitat problems in Fishtrap Creek are high summer water temperatures in the upstream reaches around Highway 1 and lack of instream complexity, off-channel habitat and riparian zone connections throughout most of the watershed. Riparian planting for temperature control in the headwaters and channel complexing initiatives (in conjunction with reed canary grass control) throughout the watershed are the overall enhancement priorities. In the longer term, measures to address storm water quality and quantities in urban areas are required.

The life history of Salish sucker is probably similar to that of longnose sucker, although Salish suckers are smaller and do not live as long. In British Columbia, there may be 5 year-classes (Pearson 1998c). Older fish are known in Washington State. Males mature in their second year and females in their third year. Minimum spawning size is 87 mm for males and 95 mm for females. Maximum mean length is 192 mm at 4+ years, although the largest known specimen reaching 244 mm fork length was from Pepin Creek (Pearson 1998c). Pearson (pers. comm. 2002) indicated there is very little reliable information regarding juveniles.

Salish suckers spawn in riffles over fine gravel at current velocities of up to 50cm/s (McPhail and Taylor 1996 ms) when water reaches 7o or 8oC (McPhail 1987). Pearson’s recent studies (1998c; pers. comm. 2002) indicated that spawning occurs from April to mid-July, with gametogenesis beginning in late summer in preparation for early spring spawning, but some females are not in reproductive condition until later. The period is very protracted with individuals in spawning condition having been captured throughout the summer, even as late as August at water temperatures in excess of 20o C (Inglis et al. 1992; McAdam 1995ms; McPhail and Taylor 1996ms). Like other species in the genus, Salish suckers are broadcast spawners. No nest is built and the adhesive eggs stick to gravel and rocks. Predators quickly consume eggs exposed on the bottom, however, current washes additional spawn under gravel and cobble where they are protected. Assuming habits are similar to longnose suckers, Pearson further stated that eggs probably hatch in about 2 weeks (at 5 to 10oC) with the fry remain in gravel for a further 1 or 2 weeks before emerging.

Pearson (1998c), McPhail (1987) and Inglis et al. (1992) indicate 5 year classes in British Columbia populations of Salish suckers, although older individuals are known from Washington (McPhail 1987). Males are sexually mature in their second year and females in their third year with the minimum size of spawners being 87 mm for males and 95 mm for females (McPhail and Taylor 1996 ms). The largest individual known from Canadian waters (244 mm fork length) was captured in Pepin Creek (Inglis et al. 1992). Growth size and age characteristics of Salish suckers were also found to be within the considerable range known for longnose suckers, although they are smaller and short lived. Pearson 1998c; Inglis et al. 1992 noted mean lengths or Salish suckers during the summer of 1992 (Table 5).

Table 5. Mean lengths of Salish sukers.
Age Mean Length (mm) Standard Error
0+ --- ---
1+ 67.7 1.7
2+ 118.8 2.5
3+ 148.0 2.8
4+ 192.0 4.0

Presumably, a variety of predators consume Salish sucker, not all of them well documented. Pearson (1998c ) alludes to surface ova being consumed by predators at spawning sites.

Potential predators include otters (Lutra canadensis), mink, (Mustela vison), herons (Ardea herodias), kingfishers or fish eating mergansers (i.e., Lophodytes sp. or Mergus sp.), plus predatory fish species, [i.e., Oncorhynchus clarki, O. mykiss, Amieurus sp, Lepomis gibbosus, and Micropterus sp.; -see Appendix 2].

Rosenfeld (2000) reporting on Pearson’s work suggested that Salish suckers were most active at night and preferred a resting position in heavy cover for the daylight hours. Nightly movements were substantial with some fish ranging several hundred metres downstream and returning to their resting spot at daybreak. Species dispersal is possibly hampered by agricultural, industrial and urban encroachments affecting habitat quality. Whether occurrence of peripheral populations such as that reported in Miami Creek is due to historic colonization or recent immigration needs verification.

Rosenfeld (2000) reported thatdietary information is limited to gut content analysis on 10 adults. Detritus and large numbers of chironomid head capsules were found. The diet of the young is unknown (McPhail 1987).

Being limited to drainages largely confined to Puget Sound and the southwestern-most portion of British Columbia, Salish suckers have shown little ability to disperse into other habits other than passively through headwater capture or human activity. They obviously have withstood some encroachment of urbanization, industry and agriculture provided water quality and habitat are within their limits of tolerance. Salish suckers appear to have responded poorly to agriculturally altered drainages.

Evaluation of populations for Salish suckers (McPhail 1987; Pearson 1998a&c; pers. comm. 2002) indicate four different major streams with 9 recognizable populations of Salish suckers. Pearson (pers., comm. – 2001) found assessments underestimate population size due to inefficient use of electroshockers and minnow traps for sampling. He employed larger Gee traps placed in mainstem marshes and beaver ponds where greater numbers were found. Previous estimates in Pepin Creek (Fig. 4) were about 500, but his mark-recapture techniques combined with use of “G” traps suggested that population numbered in the “low” thousands and appeared to be the healthiest Salish sucker population. A single beaver pond and associated marsh contained well over 1000 individuals (Rosenfeld 2000). Pearson did not know sizes of other populations but believed them to be smaller. In general, contractors in BC stream surveys misidentify 10 to 25% of voucher specimens (Peden pers. obs. 2002, McPhail 2002) and such data banks require careful scrutiny. McPhail (in Pearson 1998c) reported Salish sucker populations to be secure over most of their Washington range. It is extirpated from the little Campbell River, but was recently rediscovered in Salwein Creek, a tributary of the Vedder-Chilliwack-Sumas system. Salish suckers disappeared from Howes Creek, a tributary of Bertrand Creek (Inglis et al. 1992, 1994).”

With the exception of areas being rehabilitated by volunteer community and industrial groups, the greater portion of Salish sucker habitat has been degraded, likely leading to fewer suckers than prior to human-induced habitat alterations.

Salish suckers are very restricted to the lower Fraser Valley. Pearson (1998a&c) cites loss of riffle habitat important for spawning, sub-lethal temperature effects, and interactions with exotic species as important limiting factors (See Tables 6 & 7). Urbanization has been detrimental to suckers in the Nooksack drainages, although this is partly mitigated by conservation efforts in habitat restoration such as re-channeling of streams (Pearson, pers. comm. 2001).

Table 6. List of fish species inhabiting Salish sucker habitats. [From Pearson (1998c): Code name of “L” presumed here to be lamprey, and “TR” to be trout. Names with (*) are historically alien to the lower FraserValley]

Fishtrap Creek:

Oncorhynchus clarki

Oncorhynchus mykiss

Oncorhynchus mykiss(Steelhead)

Oncorhynchus kisutch

Rhinichthyssp. (Nooksack dace)

Catostomussp. (Salish sucker)

Gasterosteus aculeatus

Lepomis gibbosus*

trout (Oncorhynchus sp.)

lamprey (Lampetra sp.)

-------------------------------------------------------------

Bertrand Creek:

Oncorhynchus kisutch

Oncorhynchus clarki

Oncorhynchus mykiss

Oncorhynchus mykiss(Steelhead)

Ameiurussp. Black Bullhead*

-note: Brown Bullhead is identification used

by Carl and Clemens (1953), Scott & Crossman

(1973) for Fraser valley catfish,

Rhinichthyssp. (Nooksack dace)

Catostomussp. (Salish sucker)

Catostomus macrocheilus

Gasterosteus aculeatus

Cottus asper

trout (Oncorhynchus sp.)

lamprey (Lampetra sp.)

-------------------------------------------------------------

Cave Creek:

Oncorhynchus clarki

Oncorhynchus kisutch

Rhinichthyssp. (Nooksack dace)

Hybognathus hankinsoni

Pimiphales promelas*

Catostomus macrocheilus

Catostomussp. (Salish sucker)

Gasterosteus aculeatus

Lepomis gibbosus*

trout (Oncorhynchus sp.)

Pepin Creek:

Oncorhynchus kisutch

Oncorhynchus clarki

Oncorhynchus mykiss

Oncorhynchus mykiss(Steelhead)

Rhinichthyssp. (Nooksack dace)

Catostomussp. (Salish sucker) (spawning)

Gasterosteus aculeatus

Lepomis gibbosus *

Micropterus salmoides*

lamprey (Lampetra sp.)

trout (Oncorhynchus sp.)

-------------------------------------------------------------

Salmon River:

Oncorhynchus kisutch

Oncorhynchus clarki

Oncorhynchus mykiss

Oncorhynchus mykiss(steelhead)

Catostomussp. (Salish sucker)

Gasterosteus aculeatus

trout (Oncorhynchus sp.)

-------------------------------------------------------------

Table 7. Fish species co-occurring with salish suckers in tributaries of Nooksack and Upper Salmon rivers (Pearson 1998): “NDC” = Nooksack dace, “CO” = coho, “CT” = cutthroat trout, “RBT” = rainbow trout, ”TR” = trout, “BMC” = brassy minnow, ”CSU” = largecale sucker, ”CAS” = prickly sculpin, “TSB” = threespine stickleback, “PMB” = pumpkinseed, “LMB” = largemouth bass, “FM” = fathead minnow, “BKH” = black bullhead, and “L” = lamprey species, TR = trout, Oncorhynchus sp.
Size Creek Date Species Gear Reference
2 Fishtrap Jul-Sep/90 NDC,CO,CT,RBT,TR, E 4
3 Fishtrap 08/19/97 NDC, CT,TSB S 1
6 Fishtrap 0S/29/92 TSB E 2
9 Fishtrap 09/07/90 TSB MT 3
09/09/97 PMB,TSB S, MT 1
10 Fishtrap 09/07/90 CO, RBT,TSB,L E 3
13 Fishtrap 06/28/95 PMB,TSB,L,Pacific giant salamander E 7
14 Fishtrap 07/23/90 CO,RBT,CT E 5
16 Fishtrap 09/07/93 CO,CT E 6
20 Fishtrap 07/14/92 CSU, TR, TSB E 2
26 Bertrand 09/09/97 NDC, CO, CT, TSB S 1
36 Bertrand 06/05/92 NDC,CT,TR,TSB.L E 2
42 Cave 06/26/92 NDC,CO,TR,TSB E 2
43 Cave 07/30/97 CO,CT,FM,BMC,TSB S 1
44 Cave 06/25/92 TR,FM,BMC,TSB S 2
47 CAVE O8/12/97 CO.PMB,FM,TSB S 1
Cave 08/18/97 PMB,CO (dead) S 1
53 Pepin 07/07/92 CO,CT,ST,TR.TSB,L E 2
Pepin 05/24/94 E 7
54 Pepin 07/28/92 CO,CT,ST,TR,TSB,L E 2
55 Pepin 07/28/92 NDC,CO,CT,ST,TR,TSB E 2
56 Pepin 07/08/97 CO,TSB E 2
57 Pepin 07/17/92 CO,CT,TR,TSB,L E 2
Pepin CO,TSB MT 1
58 Pepin 07/16/92 NDC,CO,CT,TR. E 2
60 Pepin 05/19/92 - O5/21/920 -7/10/92 CT,TR,TSB,L E 2
Spring ‘93 SSU spawning condition ? 8
62 Pepin 05/19/92 CO,TSB E 2
07/12/97 CT,TSB S, MT 1
07/24/97 CO,CT,TSB S, MT 1
09/18/97 CO,CT,TSB,L S, MT 1
63 Pepin 05/25/95 NDC, CO,CT,RBT,TSB E 7
68 Pepin 07/09/97 -07/12/97 TSB MT 1
72 Pepin 07/15/97 LMB,TSB MT 1
73 Salmon 07/13/92 CT,ST,TR,TSB,L E 2
08/19/91 CO S 10
75 Salmon 06/29/92 CO, TSB E 2
76 Salmon 6/96 MT 1
10/03/97 C O,TSB S 1
Size Creek Date Species Gear Reference
77 Salmon Summer/96 - MT 9
78 Salmon 10/3/97 CO S 1
79 Salmon 10/3/97 CO, TSB S.MT 1
84 Salmon 08/07/91 CO S 10

GEAR TYPES: E = electroshocker, MT = mnnow traps, = seine

References1, Pearson 1997 field notes

2,Inglis, et al. 1992, see literature cited

3,Lister and Associates 1991, fish coll. Rept., BC MoELP

4,Scott Resources Services 1990a, Rept., BC Ministry Environment Land Parks (=MoELP), Surrey file 40,2501

5,Scott Resources Services 1990b Rept., to MoELP, DFO permit 90-48

6,Scott Resources Services 1993 Rept., to MoELP

Pearson (1998c) also noted that a large proportion of riffles in the native streams of Salish suckers have been lost due to dredging, siltation, and ponding due urbanization and extensive agricultural and aggregate extraction operations in the area. The increased runoff rates (and consequent lack of ground water recharge) have also reduced summer discharge levels dramatically in many reaches. Flows stop completely for up to two months during most summers in Cave Creek (Fig. 4), the upper Salmon River (Fig. 4), and many small tributaries across the species range. Low summer flows combined with nutrient loading producing water quality problems in headwater habitats are the major factors affecting Salish suckers (Pearson per. comm. 2002). Interactions with exotic species are undoubtedly a threat (Table 6 & 7). Terrestrial alien species of concern include the bull frog (Rana catesbeiana). The effect of exotic species on suckers are not studied nor extensively documented.

As Salish suckers are known only from three locations in Washington State, in contrast to four creek drainages (9 populations) within British Columbia, Canada supports the greatest number of known populations. Given encroachment by urban, industrial and agricultural activity, the viability of Salish suckers provides a biologically sensitive indicator of habitat quality. Salish suckers represent an Evolutionary Significant Unit (Waples 1995) because of:

· significant reproductive isolation due to geographic separation that effectively prevents contact with longnose suckers (water systems continuous enough between populations to have allowed dispersal and contact since the Pleistocene, however factors preventing contact have not yet been fully investigated),

· independent evolutionary histories suggesting adaptation to West Coast habitats within the lower Fraser Valley and Nooksack systems of Canada for Salish suckers. In contrast, longnose sucker habitats occur further north and east,

· genetic/morphological differences suggesting habitat and environmental adaptations.

Genetic Traits

differing at Cytochrome b haplotype (#7), and two unique ND2 MTDNA haplotypes (#’s 13 & 14 - found only in the Pepin Creek population), their significance yet to be shown.

Phenotypic Traits

- lip length and lip width possibly related to feeding differences; - post pelvic length and caudal peduncle depth differences may indicate adaptations to swimming and mobility within their respective habitats. Differences in post-pelvic length and caudal peduncle length may be adaptations to water current or habitat, but their significance has yet to be investigated.

As inhabitants of stream bottoms, suckers are significant consumers of bottom organisms and provide sustenance for aquatic and terrestrial piscivores. Salish suckers and Nooksack dace also provide corroboration for theories of post-glacial dispersal of fish from a Chehalis Refugium after Pleistocene Glaciation.

Although most British Columbians do not know Salish suckers, or difference between Salish and longnose suckers, there has been considerable publicity on the plight of suckers near the local communities that Salish suckers occupy. Considerable coverage was given by the local press and recognition by many municipal, provincial and academic institutions. Locally, small communities are well informed. Pearson (1998a) reported results from landowner surveys, and stated that 40% of respondents were aware that creeks supported endangered fish species; half of the respondents were able to name either or both the Salish sucker and Nooksack dace. Outside the lower Fraser area, the citizens if British Columbia would not know these species.

In 1986, the Salish sucker was listed as endangered (COSEWIC 2002). Washington State ranked the species as S1 S2. The BC Conservation Data Centre ranked Salish sucker S1. Cannings and Ptolemy (1998) also noted the species in six localities and declining, however their data did not include findings of Pearson (1998a,b &c) nor his unpublished data indicating that one, possibly two populations are larger than previously thought (Pearson per. comm. 2002). Pearson particularly emphasized that the apparent change in numbers is a methodological artifact and based on habitat loss in all streams over the past few decades, the populations trend being one of decline. Cannings and Ptolemy (1998) also noted a global ranking of G1. IUCN (2002) indicated Salish sucker endangered in 1990 and 1994, unspecified in 1996 and there was no entry for 2000.

Pearson (1998a) discussed a number of potential habitat enhancement methods including riffle creation, habitat complexing, off-channel habitat creation, livestock fencing, riparian planting, control of reed canary grass (Phalaris arundinacea), storm water quality and stopping or reversing hydrographic changes.

Through past encouragement of the BC Ministry of Water, Land, and Air Protection and participation of staff and students from the University of British Columbia, monitoring of Salish sucker populations continues along with Nooksack dace (Rhinichthys sp.). Local residents and industry contributed to the enhancement of Salish sucker habitat. There is a good baseline for some populations, but none beyond presence/absence for many. There is some prospect of continued monitoring of populations, but this is far from certain given current funding prospects (Pearson per. comm. 2002).

Given occurrences of Salish suckers adjacent to private land, the first priority for long-term protection required cooperation of landowners and local municipal governments, along with assistance from the Provincial Government. Existing federal and provincial regulations affecting environmental standards provide some protection, as do present fishery, wildlife, agricultural and urban regulations. As of Jan. 2002, the BC Ministry of Water, land, and Air Protection was responsible for managing all freshwater fish species of British Columbia, although the newly elected provincial government’s fiscal policies could affect standards of protection. Major interest to protect Salish suckers has resulted in several restoration projects (Rosenfeld 2000).

The Salish sucker (Catostomus sp.) is known from six different drainages of the lower Fraser Valley that flow into the Fraser River or rivers and lakes flowing onto Puget Sound, Washington. It has not yet been scientifically described as a species. It is morphologically and genetically different from its closest relative, the longnose sucker indicating a distinct Evolutionary Significant Unit. Populations appear to be severely reduced due to encroachment of industry, agriculture and urbanization. Unfortunately, past sampling utilized small electroshockers, seines and G traps. Use of larger Gee traps was initiated in 1998, and this proved to be more efficient and indicated populations were more numerous than previously thought, especially in backwater and deeper pools. Salish suckers probably occurred in the Sumas and nearby areas before human caused changes during the early 20th century. A population in Salwein Creek was thought to be extirpated, but has been recently rediscovered. Its presence there suggests Salish suckers must have historically passed through the Sumas/Vedder/ Chilliwack river systems before immigrating into Salwein Creek and perhaps other populations existed there before the impact of agriculture or other human activity. Salish suckers were also found in a creek on the north side of the Fraser River near Harrison Hot Springs. When that population immigrated north of the Fraser and what its relationships are to populations on the south side of the Fraser River are unknown.

The biology of the Salish sucker is similar to that of the Longnose sucker. It reportedly breeds in its second year and can reach five years of age. Spawning success varies year to year. The species’ future is threatened by loss of riffles and side ponds due to dredging, siltation, ponding, as well as agriculture and aggregate extraction operations. Increased runoff rates and lack of groundwater recharge has reduced flow at other times of the year, and flow completely stops in small tributaries during the most productive time of the year (Pearson 1998c). Loss of riparian cover may significantly harm suckers, particularly juveniles. Removal of off-channel habitat may harm suckers during periods of high flow. As yet, temperature increases do not appear to have dramatically affected Salish suckers.

Although numerous community groups contributed to enhancement of sucker habitat, population increases have yet to be demonstrated.

Catostomussp

Salish Sucker, Meunier Salish

DISTRIBUTION:

Range: British Columbia

Extent of Occurrence: <100km2

Area of occupancy: <20 km2

Habitat Trend: Declining

POPULATION INFORMATION:

Total number in Canadian population: <10000

Number of mature individuals in Canadian population: 500 to a few 1000

Generation time: ♂♂ 2 years, ♀♀ 3 years

Population trend Declining

Rate of population decline: _historically reduced, extirpated in one river; new studies indicate species more widely distributed than first thought (i.e. new sampling methods). Populations likely more widespread before Salish suckers were discovered. Over-all trend is declining abundance.

Number of populations within Canada: 9

Is the effective Canadian population fragmented? YES

number of individuals in subpopulations: 1500 to 5000 in each of the sampled creeks, other creeks likely have fewer

number of extant sites: 4 comprising 9 creeks (some now isolated within creeks)

number of historic sites from which species has been extirpated: 1, possibly 2.

Does the species undergo fluctuations? Unknown

THREATS

Agriculture, urban and industrial development is leading to deterioration of water quality as well as habitat loss and degradation.

RESCUE POTENTIAL

Does species exist outside Canada? YES

Is immigration known or possible? Possible, unlikely since
U.S. populations are low in number

Would individuals from nearest foreign population be

adapted to survive in Canada? Unknown (different gene pool)

Would sufficient suitable habitat be available for immigrants? In some streams, but habitat is in decline.

Much of the text of this report is quoted directly from Mike Pearson, a doctoral student at the University of British Columbia. He also provided much personal (unpublished) information, most of it likely appearing in his dissertation expected in 2002-2003. Tyese Patten, Master of Science candidate, similarly contributed a summary of her studies on public relations and community involvement with sucker habitat restoration. Jordan Rosenfeld, Fisheries Research Section, Ministry of Water, Land & Air Protection (University of British Columbia), provided valuable reports in the literature cited. Dr. J. D. McPhail was the first to inform the writer of the existence of Salish sucker and provided a specimen for the Royal BC Museum collections. Funding provided by the Canadian Wildlife Service, Environment Canada.

J. D. McPhail, Professor Emeritus, Department Zoology, University of British Columbia, Vancouver, BC., July 23, 2001.

J. D. McPhail, Professor Emeritus, Department Zoology, University of British Columbia, Vancouver, BC, 2002.

Tyese Patton, Department Zoology, University of British Columbia, Vancouver BC, September 11-29, 2001.

M. Pearson, Department Zoology, University of British Columbia, Vancouver BC, September 11, 2001.

M. Pearson, Department Zoology, University of British Columbia, Vancouver BC, October 29, 2001.

M. Pearson, Department Zoology, University of British Columbia, Vancouver BC, October 29, 2001.

M. Pearson, Department Zoology, University of British Columbia, Vancouver BC, June 8, 2002.

BC Data Fisheries Warehouse. 2001, 2002. http://www.bcfisheries.gov.bc.ca/fishinv/db/default.asp.

Black, E. 1952. Upper lethal temperatures of some British Columbia freshwater fishes.Journal Fisheries Research Board of Canada. 10: 196-210.

Blood, D. A. 1993. Wildlife in British Columbia at Risk.: Salish Sucker, Province of BritishColumbia. Ministry of Water, Land and Air Protection, British Columbia, British Columbia. 6 pp. (also Webb site, 2002: http://wlapwww.gov.bc.ca/wld/pub/salishsucker.pdf .

Campbell, R.R. 1990. Rare and endangered fishes and marine mammals of Canada: COSEWIC, Fish and Marine Mammals Subcommittee Reports VI. Canadian Field-Naturalist. 104:1-6.

Canada Department Energy Mines and Resources, Surveys and Mapping Branch. 1976. “Yarrow”, 92 G/1a.

Cannings, S.G., and J. Ptolemy. 1998. Rare freshwater fish of British Columbia. BC Ministry of Environment. 214 pp.

COSEWIC. 2002. Committee on the Status of Endangered Wildlife in Canada., Reports in preparation.. www.cosewic.gc.ca/pdfEnglish/Reports In Progress_e.pdf.

Capilano College, Environmental Class. 1999. WEB page: http://www.capcollege.bc.ca/dept/envsc/ENSC506/Sumas99/sumas%20freshwater.htm#SECTOR%20Summary

IUCN. 2002. http://www.redlist.org/info/categories_criteria.html

Inglis, S., A. Lorenz and M. L. Rosenau. 1992. Distribution and habitat of the endangered Salish sucker (Catostomus sp.). Regional Fisheries Report No. LM230. Fish and Wildlife Management, British Columbia Ministry of Environment, Lands and Parks, Surrey BC.

Inglis, S., s.m. Pollard, and M.L. Rosenau. 1994. Distribution and habitat of Nooksack dace (Rhinichthys sp). Regional Fishereries Report No. 237. Fish and Wildlife Management, B.C. Ministry of Environment, Lands and Parks. Surrey, B.C.

Lister, D.B., and Associates. 1991. Fish Collection Permit Report to the B.C. Ministry of Enviroment, Lands and Parks, Victoria, B.C.

McAdam, S. 1995ms. Habitat inventory and enhancement for the endangered Salish sucker (Catostomus sp.) and Nooksack dace (Rhinichthys sp). B.C. Ministry of Environment, Lands and Parks, Fisheries, Research, Unversity of British Columbia, Vancouver, B.C.

McPhail, J.D. 1983. Status of the Campbell sucker, Catostomus sp. in Canada. Preliminary report submitted to the Committee on the Status of Endangered Wildlife in Canada. 6 pp, + figs.

McPhail, J.D. April 1986. COSEWIC status report on the Salish sucker (Catostomus sp.) in Canada. Committee on the Status of Endangered Wildlife in Canada. 20 pp.

McPhail, J.D. 1987. The status of the Salish sucker, Catostomus sp., in Canada. Canadian Field-Naturalist. 101:231-236.

McPhail, J.D., and R. Carveth. 1994. Field Key to the Freshwater fishes of British Columbia. Aquatic Inventory Task Force of the Resource Inventory Committee, Province of British Columbia, Victoria, B.C. 215 pp.

McPhail, J.D., and E.B. Taylor. 1996ms. The Taxonomic and conservation status of peripheral isolates in northwestern North America: the case of the Salish sucker. Unpublished manuscript.

McPhail, J.D. and E.B. Taylor. 1999. Morphological and genetic variation in northwestern Longnose suckers Catostomus catostomus: The Salish sucker problem. Copeia 9(4):884-893.

Pearson, M. 1998a. Habitat inventory and enhancement for the endangered Salish sucker (Catostomus sp.) and Nooksack dace (Rhinichthys sp.). British Columbia Ministry of Fisheries. Fisheries Project Report. RD #76: 1-70.

Pearson, M. 1998b. Appendix 2 of Habitat inventory and enhancement for the endangered Salish sucker (Catostomus sp.) and Nooksack dace (Rhinichthys sp.). Reach scale habitat survey and restoration need assessment. British Columbia Ministry of Fisheries, Fisheries Project Report. RD # 76A.

Pearson, M. 1998c. A review of the distribution status, and biology of the endangered Salish sucker (Catostomus sp.) and Nooksack dace (Rhinichthys sp.). British Columbia Fisheries Technical Circular. #101: 1-24.

Rosenfeld, Jordan. 2000 (April). Restoration and management plan for Salish sucker and Nooksack dace, fiscal year 1999-2000, year 2 of 4. Annual Report, British Columbia Habitat Conservation Trust Fund.

Scott Resource Services. 1990a. Fish Collection Permit Report to BC Ministry Environment Lands and Parks. Surrey, BC. File No. 40.2501.

Scott Resource Services. 1990b. Fish Collection Permit Report to BC Ministry Environment Lands and Parks, Surrey, BC. DFO Permit No. 90-48.

Scott Resource Services. 1993. Fish Collection Permit Report to BC Ministry Environment Lands and Parks, Surrey, BC. File:/Permit FC93.

Scott, W.B, and E.J. Crossman. 1973. Freshwater fishes of Canada. Bulletin of the Fisheries Research Board of Canada. 184: xii + 996 pp.

Waples, R.S. 1995. Evolutionarily significant units and the conservation of biological diversity under the Endangered Species Act, p. 8-27. In Nelson, J. L. (ed.). Evolution and the aquatic ecosystem: defining unique units in population conservation. American Fisheries Society Symposium 17. Bethesda, Maryland.

Alex E. Peden received his master’s degree from the University of British Columbia in 1964 and doctorate at the University of Texas at Austin in 1970. After receiving a postdoctoral appointment at the National Museum of Canada, he was appointed Curator of Marine Biology at the British Columbia Provincial Museum in 1971. He participated in ichthyological collection and/or fisheries work in southeastern USA, Mexico, Northwest Territories, Alaska, Bering Sea and waters adjacent to British Columbia. He devoted much of his career in documenting the diversity of fish species of the Canadian West Coast, and contributed COSEWIC status reports of western Canadian fish species since 1980. Peden documented the first occurrences of more than 60 marine fish species inhabiting marine waters off British Columbia.

Dr. J. D. McPhail

Professor Emeritus

Department Zoology

University of British Columbia

Vancouver, BC.

Ms. Tyese Patton

Graduate Student

Department Zoology

University of British Columbia

Vancouver BC

Mr. Mike Pearson

Graduate Student

Department Zoology

University of British Columbia

Vancouver, BC.

Ms. Juanita Ptolemy

Species Specialist

Aquatic Ecosystems Science

Biodiversity Branch

Ministry of Water, Land and Air Protection

Victoria BC.

Dr. Jordan Rosenfeld

University of British Columbia

Species Specialist

Aquatic Ecosystems Science

Biodiversity Branch

Ministry of Water, Land and Air Protection

Vancouver, BC

For the most part, there are few museum collections of Salish suckers, although there are likely many preserved specimens on shelves of researchers who have conducted surveys in Salish sucker habitats. The Royal BC Museum has one specimen (Fig. 1), caught from the now extirpated Campbell River population (BCPM 989-135) caught in 1987. University of BC Records can now be retrieved through Fish Base [http://www.fishbase.org/search.cfm].

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