Research Article |
Corresponding author: Oliver M. Selz ( oliver.selz@bafu.admin.ch ) Academic editor: Maria Elina Bichuette
© 2020 Oliver M. Selz, Carmela J. Dönz, Pascal Vonlanthen, Ole Seehausen.
This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Citation:
Selz OM, Dönz CJ, Vonlanthen P, Seehausen O (2020) A taxonomic revision of the whitefish of lakes Brienz and Thun, Switzerland, with descriptions of four new species (Teleostei, Coregonidae). ZooKeys 989: 79-162. https://doi.org/10.3897/zookeys.989.32822
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The alpha taxonomy of the endemic whitefish of lakes Brienz and Thun, Switzerland, is revised. We evaluate the status of seven known species: Coregonus steinmanni sp. nov., Coregonus profundus sp. nov. and Coregonus acrinasus sp. nov. are endemic to Lake Thun; Coregonus brienzii sp. nov. is endemic to Lake Brienz; and C. alpinus, C. albellus, and C. fatioi from lakes Brienz and Thun are redescribed. One of these species, C. alpinus, is revised, since the lectotype for this species is incongruent with the species description given by
adaptive radiation, Coregonus, ecological speciation, taxonomy, whitefish
The European whitefish (Coregonus spp.) provide prime examples of postglacial adaptive radiations, with several lakes in the boreal, subarctic and prealpine climate zones harbouring multiple, often closely related and endemic species. Up to six species can occur in single lakes of the pre-alpine region (
Here, we revise the whitefish species of lakes Brienz and Thun, Switzerland. Whitefish can be found in the large pre-alpine lakes of France, Germany, Austria, and Switzerland, which historically harboured approximately 50 different species native to approximately 30 lakes in three major river drainages: the Rhine, the Danube, and the Rhone (
In this paper we compile and review morphological, genetic and ecological data for seven species of whitefish from the connected lakes Thun and Brienz, three of which are found in both lakes. Three of the species were previously described as C. alpinus Fatio, 1885, C. albellus Fatio, 1890, and C. fatioi Kottelat, 1997. We describe four new species that are endemic to one of the two lakes. Three of them are endemic to Lake Thun, C. steinmanni, C. profundus and C. acrinasus. One is endemic to Lake Brienz, C. brienzii.
One of the previously described species, C. alpinus was designated a lectotype by
One of the newly described species, C. acrinasus, shows ancestry contributions from whitefish of Lake Constance, besides its Lake Thun ancestry (
We studied the type material designated by
Type material of all currently valid species (based on
The different whitefish species in this study derive from different lakes, namely Lake Thun (46°40'N, 7°46'E, surface area 48 km2, max depth 217m), Lake Brienz (46°43'N, 7°57'E, surface area 30 km2, max depth 261 m), Lake Biel (47°5'N, 7°10'E, surface area 39.3 km2, max depth 74 m) and Lake Constance (47°38'N, 9°22'E, surface area and max depth of Upper Lake Constance 473 km2 and 251 m and of lower Lake Constance 63 km2 and 46 m depth). Lakes Thun and Brienz are among the deepest and most oligotrophic lakes of the northern pre-alpine region. Lake Constance was historically also among the most deep and oligotrophic lakes of the northern pre-alpine region but is today a mesotrophic lake (
Contemporary samples of whole specimens from lakes Thun and Brienz were collected in the course of many projects of the Seehausen research group (Eawag and the University of Bern). Contemporary material (whole specimens and tissue samples) used here was collected in the years 2005, 2011, 2013, 2014 and
Sampling details for the fish collected in the years 2005, 2011, 2013, and 2014 can be found in the corresponding publications (
In the field the fish were identified to species level as good as possible. Sex, fresh mass (to the nearest 0.1g), ripeness (4 = not ripe; 5 = partially ripe, i.e., slow flow of egg sand sperm when stripped; 6 = ripe, i.e. eggs and sperm flow easily when stripped) and the presence of tubercles on the scales (modified from
The age of the specimens that were used in this study was determined in the lab by counting the annual growth rings of four scales under a confocal microscope following
Morphological measurements and counts on the old type material (N = 31) and on contemporary specimens (N = 340) were taken of 25 body, 19 head, and 4 gill characters with adigital calliper to the nearest 0.1 mm. Twelve meristic characters were counted. The measurements and counts were taken on the left body side of the fish, unless a specific character was missing or deformed, in which case that character was measured or counted on the right side of the fish. The mean of two measurements were taken for each character, whereby the difference between two measurements had to be less than 5%. If agreement was less good, the distance was measured again two times. The average inaccuracy between two measurements taken over all morphological characters was 1.4%. Not all measurements could be taken for several specimens since characters where damaged or absent, and we thus sometimes report incomplete character lists for certain specimens. This results in varying sample sizes for each character. All characters for which we had missing values were not retained in the multivariate ratio analyses (see below). The number of characters used for each analysis is explicitly mentioned in the results section. Most of the morphological and meristic characters follow
Morphological characters, their acronyms and a brief description of each character.
Morphological characters | Acronym | Description |
---|---|---|
Body | ||
Pelvic fin base | PelvFB | Length between insertions of fin |
Pelvic fin "spine" length | PelvFS | Length from upper insertion point of fin to tip of spine; the spine is actually an elongated scale structure |
Pelvic fin length | PelvF | Length from upper insertion point of fin to tip of longest branched ray |
Pectoral fin base | PecFB | Length between insertions of fin |
Pectoral fin 1 length | PecF1 | Length from upper insertion point of fin to tip of unbranched ray |
Pectoral fin 2 length | PecF2 | Length from upper insertion point of fin to tip of longest branched ray |
Dorsal fin base | DFB | Length between insertions of fin |
Length of anterior part of dorsal fin erected | DFAe | Length from anterior insertion point of fin to tip of longest unbranched ray, when fin is fully erected |
Length of anterior part of dorsal fin depressed | DFAd | Length from anterior insertion point of fin to tip of longest unbranched ray, when fin is depressed |
Length of posterior part of dorsal fin erected | DFPe | Length from posterior insertion point of fin to tip of most posterior branched ray, when fin is erected |
Anal fin base | AFB | Length between insertions of fin |
Length of anterior part of the anal fin | AFAe | Length from anterior insertion point of fin to tip of longest branched ray, when fin is fully erected |
Adipose fin base | AdFB | Length between insertions of fin |
Caudal fin length | CF | Length from the middle of hypural plate of the caudal fin (internally this is the expanded bones at the end of the backbone that support the caudal fin, externally where the lateral line scales end) to the tip of the longest unbranched ray either being on the dorsal or ventral part of the caudal fin |
Caudal peduncle depth | CD | Vertical distance between dorsal and ventral margins of the caudal peduncle at its narrowest part |
Caudal peduncle length | CL | Length from posterior insertion point of anal fin to the middle of the hypural plate of the caudal fin |
Length from anterior part of adipose fin to caudal fin base | PAdC | Length from anterior insertion point of adipose fin to the middle of the hypural plate of the caudal fin |
Dorsal head length | DHL | Length from tip of snout to most posterior part of the frontal head bone |
Prepelvic length | PreP | Length from tip of snout to anterior insertion point of pelvic fin |
Preanal length | PreA | Length from tip of snout to anterior insertion point of anal fin |
Standard length | SL | Length from tip of snout to the middle of the hypural plate of the caudal fin |
Total length | TL | Length from tip of snout to the tip of longest unbranched ray either being on the dorsal or ventral part of the caudal fin |
Predorsal length | PreD | Length from tip of snout to anterior insertion point of dorsal fin |
Body depth | BD | Vertical distance between dorsal and ventral margins of body from anterior insertion point of dorsal fin to anterior insertion of pelvic fin: not necessarily the greatest body depth |
Postdorsal length | PostD | Length from posterior insertion point of dorsal fin to middle of hypural plate of the caudal fin |
Head | ||
Eye diameter | ED | Horizontal distance across the midline of the eye from the anterior to the posterior margin of the soft eye tissue |
Eye cavity | EC | Horizontal distance across the midline of the eye from the anterior margin of the eye socket to the posterior margin of the eye cavity |
Eye height | EH | Vertical distance across the midline of the eye from the dorsal margin of the eye cavity to the ventral margin of the eye cavity |
Eye socket | ES | Horizontal distance from the anterior margin of the eye socket to the most anterior point of the the posterior margin of the eye socket |
Postorbital length | PostO | Length from posterior margin of the eye to the most posterior point of the operculum |
Head length | HL | Length from the tip of snout to most posterior point of the operculum margin |
Head depth | HD | The transverse distance between margins at the widest point of the head. |
Head width | HW | Distance between the posterior margins of the left and right operculum |
Mouth width | MW | The transverse distance between margins of the upper and lower jaw |
Upper jaw length | UJ | Length from the tip of the snout to most posterior point of the upper jaw |
Lower jaw length | LJ | Length from the most anterior point of the lower jaw to the lower jaw insertion |
Lower jaw width | LJW | Length between the anterior left and right side of the lower jaw |
Uperr jaw width | UJW | Length between the posterior left and right point of the upper jaw |
Length of maxilla | M | Length from the most anterior point of the maxilla to the most posterior point of the maxilla |
Snout length | SN | Length from tip of snout to anterior margin of the eye |
Snouth depth | SD | Vertical distance from the upper to the lower margin of the rostral plate |
Snouth width | SW | Horizontal distance from the left to the right margin of the rostral plate |
Interorbital width | IOW | Distance between the anterior margin of the left and right eye cavity |
Internarial width | INW | Distance between the right and left nostrils |
Gill | ||
Upper arch length | UA | Length of the first hypobranchial (upper arch) from the most anterior point to the joint of the hypo- and ceratobranchial where the middle raker emerges |
Lower arch length | LA | Length of the first ceratobranchial (lower arch) from the most anterior point to the joint of the hypo- and ceratobranchial where the middle raker emerges |
Middle gill raker length | MGR | Length of the gill raker directly at the joint of the the upper and lower first arch, from the insertion of the gill raker to the tip of the gill raker |
Longest gill raker length | LGR | Length of the longest gill raker either on the upper and lower first arch, from the insertion of the gill raker to the tip of the gill raker |
Meristic characters, their acronyms and a brief description of each character.
Mersitic characters | Acronym | Description |
---|---|---|
Pelvic fin rays | PelvFR | Number of unbranched and branched rays |
Pectoral fin rays | PecFR | Number of unbranched and branched rays |
Dorsal fin rays | DFR | Number of unbranched and branched rays; the posteriormost dorsal rays are often borne from a single pterygiophore (the bones on which the rays articulate), in such a case the two rays are acounted as 2 rays, rudimentary unbranched rays in front of the fin are counted |
Anal fin rays | AFR | Number of unbranched and branched rays; the posteriormost anal rays are often borne from a single pterygiophore (the bones on which the rays articulate), in such a case the two rays are acounted as 2 rays, rudimentary unbranched rays in front of the fin are counted |
Lateral line scales | LS | Scales bearing the lateral-line column canal from the head to the end of the hybpural plate of the caudal peduncle |
Predorsal scales | PDS | Dorsal scales starting from the posterior end of the head to the anterior insertion of the dorsal fin |
Transverse dorsal scales | TDS | "Number of scale rows between anterior insertion of the dorsal fin and the lateral line, not accounting for the lateral line scale and the scale on the dorsal midline (in front of the dorsal fin) " |
Transverse anal scales | TAS | "Number of scale rows between anterior insertion of the anal fin and the lateral line, not accounting for the lateral line scale and the scale on the ventral midline (in front of the anal fin) " |
Transverse pelvic scales | TPS | "Number of scale rows between anterior insertion of the pelvic fin and the lateral line, not accounting for the lateral line scale and the scale on the ventral midline (in front of the pelvic fin)" |
Upper arch gill raker number | UGR | Number of gill rakers on first upper arch; all rakers including rudimentary developed rakers |
Lower arch gill raker number | LGR | Number of gill rakers on first lower arch; all rakers including rudimentary developed rakers and the middle raker |
Total gill raker number | total GR | Gill raker number of upper and lower arch combined |
The average sizes of fish from each species differ between lakes enough that for certain species such as for C. albellus the average size and the maximum size of adult fish of the population in Lake Brienz do not overlap with the average size and the minimum size of adult fish of the population in Lake Thun (Suppl. material 1: Figures S4–S6). The lakes differ naturally in several abiotic factors (max lake depth, bathymetric slope, average lake temperature, water turbidity; see
Multivariate ratio analysis is a method that performs principal component analysis (PCA) and linear discriminant analysis (LDA) on morphological ratios (
For the development of a species identification key we used LDA analysis on all characters together and on subsets of only head or only body characters for all contemporary specimens from lakes Thun and Brienz separately to calculate the first two ratios of characters that best separate each of the species in each lake. This method also allows to estimate the extent of shape change with size (i.e., the contribution of allometry to these ratios) which is given as δ and describes how good shape discriminates in comparison to size (see
Genetic analysis of ten microsatellite loci were used for the Bayesian clustering algorithm program STRUCTURE (
From the targeted spawning fisheries (each at one spawning site in lakes Thun and Brienz along a depth gradient) a total of 663 individuals from Lake Thun had complete genotypes, ten individuals had one missing locus, and four individuals had two missing loci. A total of 284 individuals from Lake Brienz had complete genotypes, eighteen individuals had one missing locus, and four individuals had two missing loci. These individuals were assigned to the different species using the program STRUCTURE with reference populations of each species deriving from the study by
We used the reference panel from
Newer genomic findings by De-Kayne et al. (unpublished) suggest that whitefish from Lake Brienz, that have previously been assigned based on genetic analysis (see above;
The principal component analyses (shapePCA) on the morphological characters show that the type specimens of all previously described species C. alpinus, C. albellus, and C. fatioi group in morphospace within the ranges or adjacent to the ranges of the respective contemporary specimens of these species in Lake Thun (Figure 1a, b; Suppl. material 1: Figure S11a, b). The types of each of the three previously described species further mostly overlap within the ranges of each of the contemporary specimens of the three species from Lake Thun (Tables
Principal Component Analysis showing that the types of the previously described species C. alpinus, C. albellus and C. fatioi (type locality: Lake Thun) lie within or adjacent to the ranges of the contemporary species of Lake Thun A, B shape PCA of the first vs. the second or third PC-axes explain together 70.05% of the variation in shape and are based on a subset (Suppl. material 1: Table S1) of 30 out of a total of 48 measured linear morphological characters (Table
Principal Component Analysis showing the morphospace of the contemporary whitefish species C. acrinasus, C. alpinus, C. steinmanni, C. albellus, C. profundus and C. fatioi from Lake Thun A, B shape PCA of the first vs. the second or third PC-axes explain together 56.5% of the variation in shape and are based on all 48 measured linear morphological characters (Table
Principal Component Analysis showing the morphospace of the contemporary whitefish species C. alpinus, C. brienzii, C. albellus and C. fatioi from Lake Brienz (A–D) A, B shape PCA of the first vs. the second or third PC-axes explain together 53–60.7% of the variation in shape and are based on all 48 measured linear morphological characters (Table
Coregonus exiguus albellus:
Coregonus
"Brienzlig":
Coregonus
"Brienzlig", "Winterbrienzlig":
Coregonus
"Small type":
Coregonus
sp. "winter spawning":
Coregonus
"Sommerbrienzlig", "BRI2": Douglas et al. 1999;
Coregonus
"Sommerbrienzlig", "THU5":
Coregonus
"Sommerbrienzlig", "Winterbrienzlig", "THU4", "THU5":
Coregonus
sp. "Brienzlig":
Coregonus
"Kropfer":
Coregonus lavaretus
natio arurensis, oekot. nanus:
Coregonus
"Zwergalbock":
Lectotype. MHNG-816.022, Switzerland, Lake Thun (46°40'N, 7°46'E), 165 mm SL, sex unknown.
Non-types. NMBE-1077186–1077202, NMBE-1077221–1077237, Switzerland, Lake Thun (46°40'N, 7°46'E), N = 34, 177–271 mm SL; NMBE-1059754; 1059768; 1059791; 1059801; 1059814, NMBE-1077129–1077131, NMBE-1077318–1077341, Switzerland, Lake Brienz (46°43'N, 7°57'E), N = 32, 101–164 mm SL.
Coregonus albellus is a very small whitefish species in Lake Brienz and a small whitefish species in Lake Thun with weak pigmentation of all fins and body; the colouration on the flanks above the lateral line of specimens from Lake Thun are pale rose to brown and from Lake Brienz pale brown to light green; no or few small pigmented dots on the edge of the scales along the flank for specimens from Lake Thun and specimens from Lake Brienz sometimes have rather large pigmented dots more or less in a row on the upper dorsum; elongate slender body; large eye with a thin and roundish eye socket; tip of snout fleshy and roundish; many and long gill rakers.
No single character was sufficient to distinguish C. albellus against all the five other species from Lake Thun and the species is diagnosed by a combination of characters. Based on ratios for the subset of whitefish from Lake Brienz smaller than 163.5 mm, C. albellus can be distinguished from the other three species from Lake Brienz by a smaller "postdorsal length / eye height" ratio (PostD/EH: 5.47–6.93 vs. 7.5–8.9). Also, when taking the full-size range (100–290 mm) of all species from Lake Brienz C. albellus can be distinguished from the three other species by a smaller "predorsal length / eye height" ratio (PreD/EH: 6.1–7.58 vs. 8.12–10.5) (Table
Coregonus albellus -Coregonus alpinus
The specimens from lakes Thun and Brienz of C. albellus differ from those of C. alpinus of both lakes in having a higher number of gill rakers (UGR#: 9–17, mode = 13 vs. 8–11, mode = 10; LGR#: 20–29, mode = 25 vs. 15–23, mode = 19; total GR: 32–44, mode = 38 vs. 25–34, mode = 29), a longer longest gill raker (14.1–21.8% HL, mean = 17.7 vs. 10–15.2% HL, mean = 11.9), a deeper adipose fin (4.5–9.2% SL, mean = 6.5 vs. 3.4–5.5% HL, mean = 4.4), a longer lower jaw (38.4–49.2% HL, mean = 43.6 vs. 33.8–41.4% HL, mean = 38.4) and a thinner eye socket (2– 4.9% HL, mean = 3.4 vs. 3.3–6.3% HL, mean = 5).
In Lake Brienz C. albellus further differs from C. alpinus by having translucent pelvic and anal fins compared to the moderately to strongly pigmented pelvic and anal fins of C. alpinus, a longer pectoral fin (Pectoral fin 1 length: 15.7–22.6% SL, mean = 18 vs. 13.9– 17.9% SL, mean = 16.3; Pectoral fin 2 length: 16.9–23.8% SL, mean = 19.4 vs. 14.4–17.7% SL, mean = 16.9), a longer distance from the anal fin to the hypural plate of the caudal peduncle (17.7– 24.2% SL, mean = 20.7 vs. 15.3–19.5% SL, mean = 17.6), a longer head (16.1– 23.1% SL, mean = 17.9 vs. 14–16.3% SL, mean = 15.4), a larger eye and eye cavity (eye diameter: 26.1–32% HL, mean = 29.3 vs. 21.8–27.2% HL, mean = 24.3; eye height: 26.5– 30.6% HL, mean = 28.7 vs. 22.4– 27.1% HL, mean = 23.9; eye cavity: 30.4–36.8% HL, mean = 33.3 vs. 26.4–31.5% HL, mean = 29), and a longer upper jaw (28.6–34.9% HL, mean = 32.1 vs. 25.4–29.1% HL, mean = 26.8). Finally, C. albellus smaller than 163.5mm SL can be distinguished from C. alpinus by a smaller "preanal length / lower jaw" ratio (PreA/LJ: 6.33–7.44 vs. 9.24–9.97) and a larger "pectoral fin 2 length / length of the depressed anterior part of the dorsal fin" ratio (PecF2/DFAd: 0.81–1.06 vs. 0.78–0.8). With the full size range of Lake Brienz specimens, C. albellus can be distinguished from C. alpinus by the smaller "predorsal length / lower jaw" ratio (PreD/LJ: 3.99–4.68 vs. 5.6–6.81), "erected anterior part of the dorsal fin / upper jaw" ratio (DFAe/UJ: 2.14–2.79 vs. 3.25–4.1), "head depth / upper jaw" (HD/UJ: 1.87–2.2 vs. 2.38–2.78) and a larger "lower jaw / interorbital width" ratio (LJ/IOW: 1.53–1.99 vs. 1.33–1.57). (Tables
In Lake Thun C. albellus can further be distinguished from C. alpinus by having a less deep caudal peduncle (6.4–7.9% SL, mean = 7.1 vs. 7.6–8.9% SL, mean = 8.2) and a longer upper jaw (28.8–34.7% HL, mean = 31.2 vs. 24.3–30.1% HL, mean = 27.7). Based on pigmentation of the fins C. albellus can be distinguished from C. alpinus from Lake Thun by having translucent to weakly pigmented fins compared to strongly pigmented fins, respectively. In Lake Thun C. albellus can further be distinguished from C. alpinus by the smaller "caudal peduncle depth / upper jaw length" ratio (CD/UJ: 0.96–1.29 vs. 1.36–1.65) and "caudal peduncle depth / dorsal head length" ratio (CD/DHL: 0.44–0.54 vs. 0.54–0.62) (Tables
Coregonus albellus -Coregonus fatioi
In Lake Brienz C. albellus can be distinguished from C. fatioi by having a larger head (16.1–23% SL, mean = 17.9, vs. 14.5–16.8% SL, mean = 15.7), a larger eye and eye cavity (eye diameter: 26.1–32% HL, mean = 29.4 vs. 21.2–27.6% HL, mean = 24.8; eye cavity: 30.4– 36.8% HL, mean = 33.3 vs. 25.3–33% HL, mean = 29; eye height: 26.5–30.6% HL, mean = 28.7 vs. 22.1–26.3% HL, mean = 24.4), a longer maxilla (22.6–26.9% HL, mean = 24.7 vs. 18.7–24.2% HL, mean = 21.7) and longer gill rakers (middle gill raker: 13.7–19.4% HL, mean = 16.5 vs. 10.5–15% HL, mean = 13.2; longest gill raker: 14.9–21.8% HL, mean = 18.2 vs. 12.3–16.4% HL, mean = 14.3). Based on ratios C. albellus smaller than 163.5 mm SL can be distinguished from C. fatioi by a larger "pectoral fin 2 length / preanal length" ratio (PecF2/PreA: 0.22–0.28 vs. 0.2–0.22), "upper jaw length / eye socket width" ratio (UJ/ES: 6.81–12.42 vs. 4.51–6.15) and "eye socket width / head length" ratio (ES/HL: 0.27–0.31 vs. 0.23–0.27). With the full-size range of Lake Brienz specimens (100–290 mm), C. albellus can be distinguished from C. fatioi by a smaller "prepelvic length / eye height" ratio (PreP/EH: 6.56–7.98 vs. 8.94–11.43) (Tables
In Lake Thun C. albellus can be distinguished from C. fatioi by its live colouration above the lateral line on the dorsum ranging from a pale rose to a pale brown compared to a light to dark green colouration in C. fatioi. C. albellus can further be differentiated from C. fatioi by having no or few small pigmented dots on the edge of the scales or on the boundary of two scales on the flank and dorsum compared to moderate or many dots on the flanks and dorsum in C. fatioi.
Coregonus albellus -Coregonus brienzii
Coregonus albellus
from Lake Brienz differs from C. brienzii by having a longer longest gill raker (14.9–21.8% HL, mean = 18.2 vs. 12.1–16.8% HL, mean = 14.7), a longer maxilla (22.6–26.9% HL, mean = 24.7 vs. 15.4–24% HL, mean = 21), anterior a longer dorsal fin (anterior dorsal fin erected: 17.3–24.7% SL, mean = 19.7 vs. 15.5– 19.8% SL, mean = 17.9; anterior dorsal fin depressed: 18.3–26.6% SL, mean = 20.6 vs. 15.3–20.8% SL, mean = 18.6), a longer head (16.1–23.1% SL, mean = 17.9 vs. 14.6–16.8% SL, mean = 15.6) and a larger eye and eye cavity (eye diameter: 26.1–32% HL, mean = 29.3 vs. 23.1–28.3% HL, mean = 25.3; eye height: 26.5–30.6% HL, mean = 28.7 vs. 22–27.2% HL, mean = 24.4; eye cavity: 30.4–36.8% HL, mean = 33.3 vs. 25.6– 32.9% HL, mean = 29). Based on ratios C. albellus smaller than 163.5 mm SL can be distinguished from C. brienzii by a larger "maxilla length / eye socket width" ratio (M/ES: 5.35–9.76 vs. 3.31–4.37), "pectoral fin 2 length / predorsal length" ratio (PecF2/PreD: 0.36–0.45 vs. 0.29–0.32), "lower jaw length / eye socket width" ratio (LJ/ES: 9.62–17.28 vs. 6.01–6.49) and a smaller "predorsal length / lower jaw length" ratio (PreD/LJ: 3.99–4.68 vs. 5.05–5.57). With the full size range (100–290 mm) of Lake Brienz specimens, C. albellus can be distinguished from C. brienzii by a larger "eye height / head length" ratio (EH/HL: 0.27–0.31 vs. 0.22–0.27) and a smaller "predorsal length / eye height" ratio (PreD/EH: 6.1–7.58 vs. 8.12–10.32) (Tables
Coregonus albellus -Coregonus steinmanni
Coregonus albellus
from Lake Thun can be distinguished from C. steinmanni by having a longer longest gill raker (14.1–20.3% HL, mean = 17.2 vs. 10–14.4% HL, mean = 12.1), a longer maxilla (20.1–26.8% HL, mean = 22.4 vs. 18.1–21.8% HL, mean = 19.7), a less deep caudal peduncle (6.4–7.9% SL, mean = 7.1 vs. 7.5–8.6% SL, mean = 8.0) and a deeper adipose fin (4.5–7.7% SL, mean = 5.8 vs. 3.7–5.4% HL, mean = 4.5). Based on ratios C. albellus can be distinguished from C. steinmanni by a smaller "caudal peduncle depth / upper jaw length" ratio (CD/UJ: 0.96–1.29 vs. 1.36–1.55) (Tables
Coregonus albellus -Coregonus profundus
Coregonus albellus
from Lake Thun differs from C. profundus by having more and longer gill rakers (upper arch gill raker number: 9–17, mode = 13 vs. 5–10, mode = 9; lower arch gill raker number: 20–28, mode = 24 vs. 10–18, mode = 14; total number of gill rakers: 32–44, mode = 38 vs. 15–27, mode = 21; middle gill raker length: 11.7– 18.3% HL, mean = 15.6 vs. 7.6–11.7% HL, mean = 9.2; longest gill raker length: 14.1–20.3% HL, mean = 17.2 vs. 7.8–12.4% HL, mean = 10.1). Based on ratios C. albellus can be distinguished from C. profundus by a larger "caudal peduncle length / eye cavity length" ratio (CL/EC: 1.97–2.87 vs. 1.56–2.09) (Tables
Coregonus albellus -Coregonus acrinasus
Coregonus albellus
from Thun can be distinguished from C. acrinasus by having a deeper adipose fin (4.5–7.7% SL, mean = 5.8 vs. 3.7–6.2% SL, mean = 4.7), a thinner eye socket (ES: 2–4.9% HL, mean = 3.2 vs. 3.2–6.4% HL, mean = 4.7) and a longer longest gill raker (14.1–20.3% HL, mean = 17.2 vs. 11.4–16.9% HL, mean = 14.5) (Tables
General appearance is shown in Figure 4. Morphological and meristic characters of both sexes can be found in Table
Shape : Body elongate, slender. Greatest body depth anterior of the dorsalfin. Ventral profile and dorsal profile similar and slightly arched. Dorsal and ventral profile from tip of snout to interorbital mostly straight and then slightly convex to dorsal and pelvic fin origin respectively. Head long. Snout often 40–50° angle to the body axis anterior of the eye, such that the profile from the tip of the snout to the vertical projection where the anterior part of the eye crosses the dorsal profile is straight and afterwards slightly convex. Mouth (i.e., width of upper and lower jaw) wide, long and often terminal and only rarely slightly sub-terminal. Snout mostly wider than deep, not strongly pronounced, since the tip of the snout is often fleshy and roundish. Large eye, which is more pronounced in specimens from Lake Brienz. Individuals from both lakes have a thin and roundish eye-socket from the middle to the outer margins. Pectoral fin long and moderately tapered. Anterior unbranched ray of the erected dorsal fin range from almost vertically straight to an approx. 70–80° angle to body axis and only bent slightly posteriorly at the end of the ray. Caudal peduncle narrow and elongated with caudal fin forked and sometimes moderately to strongly asymmetrical with either the ventral or dorsal part being longer. Unbranched ray of anal fin straight and rarely bent posteriorly at the end of the ray. Anal fin longest anteriorly and progressively shortening posteriorly with the outer margin of the anal fin slightly concave.
Meristics : Many and long gill rakers.
Colour : Pigmentation of fins and body overall weak in live specimens. In specimens from Lake Thun the pectoral fin is translucent, sometimes yellowish with faint pigmentation at the median to distal parts of the fin. Pelvic fin is translucent and only weakly to moderately pigmented. Dorsal, adipose, anal and caudal fins are moderately pigmented. In specimens from Lake Brienz all fins are translucent, with the dorsal, anal and caudal fins sometimes showing some very faint pigmentation. In both lakes fish have a silvery appearance along the flanks and dorsally above the lateral line the silvery appearance changes to a pale rose colouration (e.g., RGB (247, 187, 175)) and then to a pale brown (e.g., RGB (230, 202, 110)). In specimens from Lake Thun the flanks very rarely have few pigmented small dots on the scales. Distribution of dots are bound to the scale patterning (i.e., at the edge of the scales or at the boundary point of two scales. In specimens from Lake Brienz the upper dorsum ranges from pale brown (e.g., RGB (230, 202, 110)) to a light green colouration (e.g., RGB (136, 245, 205)) and sometimes has pigmented dots more or less in a row on the upper dorsum that are rather large ("cheetah look") (Suppl. material 1: Figure S7). Distribution of the dots not restricted to the scale patterning (i.e., at the edge of the scales or at the boundary point of two scales), as can be found for the species of C. alpinus, C. steinmanni, C. brienzii and C. fatioi. For a comparison to the main colouration found in the other species see Suppl. material 1: Figure S8. Dorsal part of head of specimens of Lake Brienz is weakly pigmented, whereas that of specimens from Lake Thun is moderately pigmented. Snout around the nostrils is weakly (Lake Brienz) to moderately (Lake Thun) pigmented with a gap of little pigmentation posteriorly of the nostrils up to the height of the middle of the eyes. Operculum and pre-operculum are silvery with one black dot on the lower margin of the pre-operculum. Preserved specimens are pale in colouration with similar pigmentation as described for live specimens. The silvery,translucent,not coloured or unpigmented parts of the body become brown-yellowish (e.g., RGB (239, 210, 40)), whereas the pigmented parts are conserved and the coloured parts (dorsally above the lateral line) become brownish (e.g., RGB (186, 140, 100)).
Coregonus albellus
is found in the lakes Thun (46°40'N, 7°46'E) and Brienz (46°43'N, 7°57'E) that are connected by the short river Bödeli Aare at Interlaken. It is believed to have been endemic to these lakes yet,individual fish have been caught in Lake Biel (47°05'N, 7°10'E) in recent years (since 2005), after it was artificially connected with Lake Thun through the river Aare during the Jura water correction project dating back to 1868–1878. Individuals of C. albellus were first identified by local fishermen and fisherwomen, which reported that they had caught small, ripe fish during the summer months (
Brienzlig, Brienzling; often the time of the year the fish is caught on the spawning grounds is added to the name and shows that this species has a very wide spawning season: Sommer-Brienzlig (for summer) or Winter-Brienzlig (for winter). This species was historically known by local fishermen and fisherwomen as white whitefish (German: "Weissfelchen", but also Albele and Albuli). The common name for this species today is Brienzling which has an ending that is known as a diminutive suffix.
Coregonus
"Albock":
Coregonus balleus:
Coregonus
"Balchen", "THU2": Douglas et al. 1999,
Coregonus
"Balchen":
Coregonus
"Felchen":
Coregonus
"Large type":
Coregonus lavaretus
natio arurensis, oekot. litoralis:
Coregonus lavaretus
natio arurensis, oekot. primigenius:
Coregonus schinzii alpinus:
Coregonus schinzii helveticus:
Coregonus schinzii helveticus
var. Thunensis:
Coregonus
sp. "Balchen":
Coregonus
sp. "Balchen 1":
Coregonus
"Albock", "Uferalbock":
Lectotype. MHNG-717.045, Switzerland, Lake Thun (46°40'N, 7°46'E), 283 mm SL, sex unknown.
Non-types. NMBE-1077241–1077261, Switzerland, Lake Thun (46°40'N,7°46'E), N = 21, 210–364 mm SL; NMBE-1059817; 1059821; 1077134, NMBE-1077110– 1077115, Switzerland, Lake Brienz (46°43'N, 7°57'E), N = 9, 147–290 mm SL.
Coregonus alpinus is a large whitefish with strong pigmentation of all fins and the body; greenish blue colour on the flanks above the lateral line; moderate to many pigmented small dots on the scales along the flank and the dorsum; deep bodied; truncated blunt snout; short head; sub-terminal mouth; small eye with a thick and triangular-shaped eye socket; short and stout caudal peduncle; few and short gill rakers.
Differential diagnosis against C. albellus is given under that species account. The total number of gill rakers of 25 to 34 with mode-values of 28, 29, and 30 distinguishes C. alpinus from all other six whitefish species of lakes Thun and Brienz, by either having more gill rakers than the species C. profundus (total GR: 15–27, mode = 21) or fewer gill rakers than C. fatioi (total GR: 32–43, mode = 38), C. albellus (32–44, mode = 38), C. steinmanni (30–35, mode = 31), C. brienzii (32–39, mode = 37) and C. acrinasus (30–40, mode = 36) (Suppl. material 1: Table S6). The contemporary gill raker range is congruent with the historical gill raker range (23–27) given in
For specimens in Lake Brienz smaller than 163.5 mm SL C. alpinus can be distinguished from the other three whitefish species by a larger "length of the depressed anterior part of the dorsal fin / lower jaw length" ratio (DFAd/LJ: 2.57–2.58 vs. 1.6–2.1). For fish larger than 163.5 mm SL, C. alpinus can be distinguished from C. brienzii and C. fatioi by a larger "length of the erected anterior part of the dorsal fin / upper jaw length" ratio (DFAe/UJ: 3.28–4.1 vs. 2.58–3.19). With the full-size range (100–290 m) of Lake Brienz specimens, C. alpinus can be distinguished from the other three whitefish species by a larger "length of the erected anterior part of the dorsal fin / upper jaw length" ratio (DFAe/UJ: 3.25–4.1 vs. 2.14–3.19) (Table
Coregonus alpinus - Coregonus fatioi
The specimens from lakes Thun and Brienz of C. alpinus can be distinguished from those of C. fatioi by having a shorter under jaw (24.3–30.1% HL, mean = 27.4 vs. 27.6–34.1% HL, mean = 30), and a shorter longest gill raker (10–15.2% HL, mean = 11.9 vs. 12.3–22.6, mean = 15.6).
In Lake Brienz C. alpinus can be distinguished from C. fatioi by having a shorter caudal peduncle (11.3–13.9% SL, mean = 12.5 vs. 13.1–16.1% SL, mean = 14.2) and a shorter and narrower lower jaw (lower jaw length: 33.8–39.4% HL, mean = 38.2 vs. 37.6–48.4% HL, mean = 42.6; lower jaw width: 7.3–10.6% HL, mean = 8.8vs. 8.6– 13.3% HL, mean = 11.6). For fish from Lake Brienz larger than 163.5 mm SL, C. alpinus can be distinguished based on ratios from C. fatioi by having a larger "length of the erected anterior part of the anal fin / upper jaw length" ratio (AFAe/UJ: 1.96–2.5 vs. 1.66–1.96) and a larger "head length / upper jaw length" ratio (HL/UJ: 3.55–3.93 vs. 3.13–3.55). With the full size range (100–290 mm) of Lake Brienz specimens, C. alpinus can be distinguished from C. fatioi by having a larger "length of the erected anterior part of the dorsal fin / upper jaw length" ratio (DFAe/UJ: 3.25–4.1 vs. 2.14–3.19) (Table
In Lake Thun C. alpinus can be further distinguished from C. fatioi by having a shorter postdorsal length (38.3–43.9% SL, mean = 42.7 vs. 41.6–50.7% SL, mean = 44.9) and a thicker eye socket (3.4–6.3% HL, mean = 5.1 vs. 1.7–5.9% HL, mean = 3.6). Based on ratios C. alpinus can be distinguished from C. fatioi by having a larger "caudal peduncle depth / postdorsal length" ratio (CD/PostD: 0.17–0.21 vs. 0.14–0.17) (Tables
Coregonus alpinus -Coregonus brienzii
C. alpinus
from Lake Brienz can be differentiated from C. brienzii by having a shorter caudal peduncle (11.3–13.9% SL, mean = 12.5 vs. 12.2–15.8% SL, mean = 13.8), a shorter upper and lower jaw (upper jaw: 25.4–29.1% HL, mean = 26.8 vs. 27.1–32% HL, mean = 29.5; lower jaw: 33.8–39.4% HL, mean = 38.2 vs. 40.5–45.7% HL, mean = 42.2), a narrower snout (14.6–17.6% HL, mean = 15.7 vs. 15.7–20.2% HL, mean = 17.8), a narrower lower jaw (7.3–10.6% HL, mean = 8.8 vs. 10.1–14.1% HL, mean = 11.5) and shorter gill rakers (middle gill raker length: 8.3–11.2% HL, mean = 9.8 vs. 10.9–15.1% HL, mean = 13.5; longest gill raker length: 10–12.3% HL, mean = 10.8 vs. 12.1–16.8% HL, mean = 14.7). For fish larger than 163.5 mm SL, C. alpinus from Lake Brienz can be distinguished based on ratios from C. brienzii by having a larger "caudal peduncle depth / snout width" ratio (CD/SW: 2.25–2.64 vs. 1.82–2.04), "length of the erected anterior part of the dorsal fin / length from the adipose fin to the caudal fin base" ratio (DFAe/PAdC: 1.11–1.32 vs. 0.96–1.16) and by having a smaller "lower jaw width / upper jaw width" ratio (LJW/UJW: 0.33–0.44 vs. 0.45–0.55). With the full size range (100– 290 mm) of Lake Brienz specimens, C. alpinus can be distinguished from C. brienzii by having a larger "length of the depressed anterior part of the dorsal fin / lower jaw width" ratio (DFAd/LJW: 9.84–14.82 vs. 6.05–8.91), "dorsal head length / lower jaw length" ratio (DHL/LJ: 1.84–2.22 vs. 1.63–1.82), "head depth / lower jaw width" ratio (HD/LJW: 6.72–9.39 vs. 5.23–6.66), "head length / lower jaw length" ratio (HL/LJ: 2.54–2.96 vs. 2.19–2.47) and a smaller "length of the pectoral fin 2 / length of the depressed anterior part of the dorsal fin" ratio (PecF2/DFAd: 0.74–0.85 vs. 0.85–1.03) (Tables
Coregonus alpinus - Coregonus profundus
Coregonus alpinus
from Thun differs from C. profundus by having shorter pectoral fins (pectoral fin 1 length: 13.6–18.7% SL, mean = 16.2 vs. 16.6–21% SL, mean = 18.4; pectoral fin 2 length: 15.3–19.7% HL, mean = 17 vs. 17.7–23.2% SL, mean = 20.2), a deeper caudal peduncle (7.6–8.9% SL, mean = 8.2 vs. 6.5–7.9% SL, mean = 7.3), a shorter head (12.6–15.6% SL, mean = 14.2 vs. 15.5– 18.4% SL, mean = 16.4) and longer gill rakers (middle gill raker length: 9.3–15.2% HL, mean = 11.3 vs. 7.6–11.7% HL, mean = 9.2; longest gill raker length: 10.6–15.2% HL, mean = 12.3 vs. 7.8–12.4% HL, mean = 10.1). Based on ratios C. alpinus can be distinguished from C. profundus by having a larger "caudal peduncle depth / dorsal head length" ratio (CD/DHL: 0.54–0.62 vs. 0.4–0.49) (Tables
Coregonus alpinus - Coregonus acrinasus
Coregonus alpinus
can further be differentiated from C. acrinasus by having a shorter lower jaw (36.6–41.4% HL, mean = 38.6 vs. 38.6–47% HL, mean = 40.9). Based on ratios C. alpinus can be distinguished from C. acrinasus by having a larger "caudal fin length / maxilla length" ratio (CF/M: 5.55–6.55 vs. 4.4–5.57) (Tables
General appearance is shown in Figure 5. Morphological and meristic characters of both sexes can be found in Table
Shape : Generally deep bodied with greatest body depth anterior of the dorsal fin. Dorsal profile strongly arched compared to ventral profile such that the dorsal profile from the tip of snout to the anterior origin of dorsal fin is moderate to strongly convex. Ventral profile slightly arched such that almost straight or slightly convex from the interorbital area to the pelvic fin origin. Head short. Mouth thin (i.e., width of upper and lower jaw), short and sub-terminal. Rostral plate pronounced and almost equally wide as deep resulting in an almost square shape. Tip of the snout often blunt. Small eye, which is less pronounced in specimens from Lake Brienz. Eye-socket thick and triangular (i.e., sickle-shaped). Pectoral fin moderately tapered. Dorsal fin long with the anterior unbranched ray of the erected dorsal fin approx. 60–70° angle to body axis and only slightly bent posteriorly at the end of the ray. Caudal peduncle stout and short with the caudal fin forked and sometimess lightly asymmetrical with either the ventral or dorsal part being longer. Unbranched ray of anal fin slightly bent posteriorly. Anal fin longest anteriorly and progressively shortening posteriorly with the outer margin of the anal fin mostly straight and only rarely slightly concave.
Meristics : Few short gill rakers, which are shorter for specimens from Lake Brienz.
Colour : Pigmentation of fins and body over all strong in live specimens. In specimens from Lake Thun the pectoral fin is moderately to strongly pigmented. Dorsal, adipose, pelvic, anal and caudal fins are strongly pigmented. In specimens from Lake Brienz all fins are less pigmented. The pectoral fin is sometimes yellowish and ranges from translucent to moderately pigmented at the median to distal parts of the fin. Dorsal, adipose, pelvic, anal, and caudal fins are moderately pigmented. In both lakes fish have a silvery appearance along the flanks with few to many pigmented small dots on the scales along the flank and the dorsum (as can be found for the species of C. fatioi, C. steinmanni, C. brienzii). The distribution of the dots is bound to the scale patterning such that the dots are found at the edge of the scales or at the boundary point of two scales. Dorsally above the lateral line the silvery appearance changes to a light (e.g., RGB (135, 236, 179)) or darker greenish blue colour (e.g., RGB (7,168,125)). The dorsal part of the head of specimens of Lake Brienz is moderately pigmented, whereas that of specimens from Lake Thun is strongly pigmented. The snout around the nostrils is moderately (Lake Brienz) to strongly (Lake Thun) pigmented. Specimens in Lake Brienz have a gap of very weak pigmentation posteriorly of the nostrils up to the height of the middle of the eyes. The pre-operculum and operculum are silvery with one black dot on the lower margin of the pre-operculum. In some specimens of Lake Thun, the pre-operculum and operculum has some pigmented dots, similar to those found on the scales and extending also to the dorsal part of the head. For a comparison to the main colouration found in the other species see Suppl. material 1: Figure S8. Preserved specimens are pale in colouration with similar pigmentation as described for live specimens. The silvery, translucent, not coloured or unpigmented parts of the body become brown-yellowish (e.g., RGB (239, 210, 40)), whereas the pigmented parts are conserved and the coloured parts (dorsally above the lateral line) become brownish (e.g., RGB (186, 140, 100)).
Coregonus alpinus
is found in the lakes Thun (46°40'N, 7°46'E) and Brienz (46°43'N, 7°57'E) that are connected through the river Aare at Interlaken. Coregonus alpinus feeds predominantly on benthic prey and parts of the year on zooplankton (stomach content for Lake Brienz:
Balchen.
Coregonus
"Albock":
Coregonus
"Albock", "BRI1": Douglas et al. 1999,
Coregonus
"Felchen":
Coregonus
"Large type":
Coregonus lavaretus wartmanni
natio fatioi:
Coregonus lavaretus
natio arurensis, oekot. pelagicus:
Coregonus lavaretus
natio arurensis, oekot. primigenius:
Coregonus
"Bodenalbock", "Albock", "Schwebalbock", "Wanderalbock":
Coregonus
sp. "Felchen":
Coregonus
sp. "Tiefenalbock":
Coregonus wartmanni alpinus:
Lectotype. MHNG-809.059, Switzerland, Lake Thun (46°40'N, 7°46'E), 154.5 mm SL, sex unknown.
Non-types. NMBE-1077133, NMBE-1077180–1077185, NMBE-1077135– 1077157, Switzerland, Lake Thun (46°40'N, 7°46'E), N = 30, 191–288 mm SL; NMBE-1077342, NMBE-1077291–1077317, NMBE-1077266, NMBE-1077267, Switzerland, Lake Brienz (46°43'N, 7°57'E), N = 30, 132–244 mm SL.
Coregonus fatioi is a medium-sized whitefish with weak pigmentation of all fins and body; light to dark green colour on the flanks above the lateral line; moderate to many pigmented small dots on the scales along the flank and the dorsum; slender, elongated and slightly torpedo-like body; long head; tip of snout is fleshy and roundish; small eye with a thin and triangular to roundish eye socket for individuals from Lake Thun and a thick and triangular shaped eye socket for individuals from Lake Brienz; many and long gill rakers.
Differential diagnoses against C. albellus and C. alpinus are given under those species’ accounts.
Coregonus fatioi -Coregonus brienzii
In Brienz C. fatioi can be differentiated from C. brienzii by being deeper bodied (22.1–26.2% SL, mean = 23.9 vs. 19.6–25.1% SL, mean = 22.6) and having a smaller eye (eye depth: 21.2–27.6% HL, mean = 24.8 vs. 23.1–28.3% SL, mean = 25.3) (Tables
Coregonus fatioi -Coregonus steinmanni
The specimens of C. fatioi from Lake Thun differ from those of C. steinmanni by having longer gill rakers (middle gill raker length: 12.5–21.3% HL, mean = 15.8 vs. 9.1–14.3% HL, mean = 11.5; longest gill raker length: 12.8–22.6% HL, mean = 16.9 vs. 10–14.4% HL, mean = 12.1), a longer and wider underjaw (under jaw length: 28–34.1% HL, mean = 30.5 vs. 25.2–30% HL, mean = 27.3; under jaw width: 21–30.3% HL, mean = 24.7 vs. 19.3–25% HL, mean = 23). Based on ratios C. fatioi can be differentiated from C. steinmanni by having a smaller "caudal peduncle depth / upper jaw length" ratio (CD/UJ: 1.02–1.34 vs. 1.36–1.55) and "caudal peduncle depth / postdorsal length" ratio (CD/PostD: 0.14–0.17 vs. 0.17–0.20 (Tables
Coregonus fatioi–Coregonus profundus
Coregonus fatioi
from Lake Thun can be distinguished from C. profundus by having more and longer gill rakers (upper arch gill raker number: 10– 16, mode = 14 vs. 5–10, mode = 9; lower arch gill raker number: 22– 27, mode = 24 vs. 10–18, mode = 14; total gill raker number: 32–43, mode = 38 vs. 15–27, mode = 21; middle gill raker length: 12.5– 21.3% HL, mean = 15.8 vs. 7.6–11.7% HL, mean = 9.2; longest gill raker length: 12.8–22.6% HL, mean = 16.9 vs. 7.8–12.4% HL, mean = 10.1), shorter pectoral fin (pectoral fin 1 length: 13.3–18.9% SL, mean = 16.5 vs. 16.6–21% SL, mean = 18.4; pectoral fin 2 length: 13.8–20.6% SL, mean = 17.7 vs. 17.7–23.2% SL, mean = 20.2), a shorter head (13.6–16.2% SL, mean = 14.8 vs. 15.5–18.4% SL, mean = 16.4), a longer postdorsal length (41.6–50.7% SL, mean = 44.9 vs. 38.9–44.5% SL, mean = 42.5), and a longer upper jaw (28–34.1% HL, mean = 30.5 vs. 26.4–30.6% HL, mean = 28.7) (Tables
Coregonus fatioi -Coregonus acrinasus
Coregonus fatioi
can be distinguished from C. acrinasus by having a longer postdorsal length (41.6–50.7% SL, mean = 44.9 vs. 40.3– 45.6% SL, mean = 43) and longer gill rakers (middle gill raker length: 12.5–21.3% HL, mean = 15.8 vs. 9.1–16.6% HL, mean = 13.4; longest gill raker length: 12.8–22.6% HL, mean = 16.9 vs. 11.4–16.9% HL, mean = 14.5) (Tables
General appearance is shown in Figure 6. Morphological and meristic characters of both sexes can be found in Table
Shape : Elongated. Slender bodied with greatest body depth anterior of the dorsal fin resulting in a slightly torpedo-like form. Dorsal and ventral profile similar and slightly arched. Dorsal and ventral profile from tip of snout to interorbital area mostly straight and then slightly convex to dorsal and pelvic fin origin respectively. Head long. Very rarely does the snout have an approx. 40–50° angle to the body axis anterior of the eye, such that the profile from the tip of the snout to the vertical projection where the anterior part of the eye crosses the dorsal profile is straight and afterwards slightly convex. Mouth thick (i.e., width of upper and lower jaw), long and often terminal and only rarely slightly sub-terminal. Snout mostly wider than deep, not strongly pronounced, since the tip of the snout is often fleshy and roundish. Specimens from Lake Thun have a thin, roundish and rarely triangular shaped eye-socket, whereas specimens from Lake Brienz have an eye-socket that is thick and triangular (i.e., sickle-shaped). Pectoral fin moderately tapered. Anterior unbranched ray of the erected dorsal fin ranges from almost vertically straight to an approx. 60–80° angle to body axis and only bent slightly posteriorly at the end of the ray. Caudal peduncle narrow and elongated with caudal fin forked in specimens from both lakes and sometimes moderately asymmetrical (mostly the ventral part is longer) in specimens from Lake Thun but very rarely in specimens from Lake Brienz. Unbranched ray of anal fin straight and rarely bent posteriorly at the end of the ray. Anal fin longest anteriorly and progressively shortening posteriorly with the outer margin of the anal fin ranging from being straight to slightly concave.
Meristics : Specimens of Lake Thun have many and long gill rakers, whereas specimens from Lake Brienz have a bit less and moderately long gill rakers.
Colour : Pigmentation of fins and body overall weak in live specimens. In specimens from Lake Thun the pectoral fin is translucent, sometimes yellowish with faint pigmentation at the median to distal parts of the fin. In Thun the pelvic fin ranges from completely translucent to moderately pigmented and the dorsal, adipose, anal and caudal fins are moderately pigmented. Specimens from Lake Brienz have a fully translucent pectoral fin that sometimes has a faint pigmentation on the unbranched ray. Pelvic and anal fins range from fully transparent to moderately pigmented and dorsal, adipose and caudal fins are moderately pigmented. In both lakes fish have a silvery appearance along the flanks. Specimens from both lakes sometimes have many pigmented small dots on the scales along the flank and the dorsum, which is rare in specimens from Lake Thun and common in specimens from Lake Brienz. Distribution of the dots is bound to the scale patterning such that the dots are found at the edge of the scales or at the boundary point of two scales (as can be found for the species of C. alpinus, C. brienzii and C. steinmanni). Colouration on the dorsum above the lateral line of specimens from Lake Thun ranges from a light green colouration (e.g., RGB (136, 245, 205)) to an olive-green colouration (e.g., RGB (176, 192, 125)), where the former is more common. In specimens from Lake Brienz the upper dorsum is light greenish in colouration (e.g., RGB (136, 245, 205)). For a comparison to the main colouration found in the other species see Suppl. material 1: Figure S8. The dorsal part of the head of specimens of Lake Brienz is weakly pigmented, whereas that of specimens from Lake Thun is moderately pigmented. The snout around the nostrils is weakly (Lake Brienz) to moderately (Lake Thun) pigmented with a gap of very weak (Brienz) to moderate (Thun) pigmentation posteriorly of the nostrils up to the height of the middle of the eyes. Operculum and pre-operculum are silvery with one black dot on the lower margin of the pre-operculum. Preserved specimens are pale in colouration with similar pigmentation as described for live specimens. Silvery, translucent, not coloured or unpigmented parts of the body become brown-yellowish (e.g., RGB (239, 210, 40)), whereas the pigmented parts are conserved and the coloured parts (dorsally above the lateral line) become brownish (e.g., RGB (186, 140, 100)).
Coregonus fatioi
is found in the lakes Thun (46°40'N, 7°46'E) and Brienz (46°43'N, 7°57'E) that are connected through the river Aare at Interlaken. Based on isotopic signatures C. fatioi feeds predominantly on zooplankton (
The name given to this species by
Tiefenalbock in Lake Thun and Felchen in Lake Brienz.
Coregonus
"Albock":
Coregonus
"Balchen":
Coregonus
"Balchen", "THU2": Douglas et al. 1999,
Coregonus lavaretus
natio arurensis, oekot. primigenius:
Coregonus
sp. "Balchen":
Coregonus
sp. "Balchen 2":
Coregonus
"Wanderalbock", "Bodenalbock", "Albock":
Holotype. NMBE-1077219, Switzerland, Lake Thun (46°40'N, 7°46'E), 301 mm SL, female.
Paratypes. NMBE-1077132, NMBE-1077212–1077218, NMBE-1077220, NMBE-1077262–1077265, Switzerland, Lake Thun (46°40'N, 7°46'E), N = 13, 211–323 mm SL.
Coregonus steinmanni is a large whitefish with moderate pigmentation of all fins and body; light to dark greenish blue colour on the flanks above the lateral line; moderate to many pigmented small dots on the scales along the flank and the dorsum; deep bodied; stout caudal peduncle; short head; sub-terminal mouth; small eye with a thick and triangular shaped eye socket.
Coregonus steinmanni occurs only in Lake Thun and we therefore compare the characters of this species specifically with the species of Lake Thun. Differential diagnoses against C. albellus, C. alpinus, and C. fatioi are given under those species’ accounts.
Coregonus steinmanni -Coregonus profundus
Coregonus steinmanni
can be distinguished from C. profundus by having more and longer gill rakers (upper arch gill raker number: 10–12, mode = 11 vs. 5–10, mode = 9; lower arch gill raker number: 19–23, mode = 20 vs. 10–18, mode = 14; total gill raker number: 30–35, mode = 31 vs. 15–27, mode = 21; middle gill raker length: 9.1–14.3% HL, mean = 11.5 vs. 7.6–11.7% HL, mean = 9.2; longest gill raker length: 10–14.4% HL, mean = 12.1 vs. 7.8–12.4% HL, mean = 10.1), shorter pectoral fin (pectoral fin 1 length: 13.9–18.2% SL, mean = 16.2 vs. 16.6–21% SL, mean = 18.4; pectoral fin 2 length: 15.2–19.1% SL, mean = 17 vs. 17.7–23.2% SL, mean = 20.2), a shorter head (13.2–15.1% SL, mean = 14 vs. 15.5– 18.4% SL, mean = 16.4), a smaller eye cavity (24.2–27.8% HL, mean = 26.2 vs. 26.2–32.1% HL, mean = 29.2), a narrower underjaw (19.3– 25, mean = 23% HL vs. 22.7–29.2% HL, mean = 26), and a shorter prepelvic distance (48.6–54.3% SL, mean = 51.7 vs. 51.2–58.1% SL, mean = 54.2). Based on ratios C. steinmanni can be differentiated from C. profundus by having a larger "caudal fin depth / dorsal head length" ratio (0.53–0.63 vs. 0.4–0.49) (Tables
Coregonus steinmanni -Coregonus acrinasus
Coregonus steinmanni
differs from C. acrinasus by having a shorter maxilla (18.1–21.8% HL, mean = 19.7 vs. 19.4–23.8% HL, mean = 21.8) (Tables
General appearance is shown in Figure 7. Morphological and meristic characters of both sexes can be found in Table
Shape : Generally deep bodied with greatest body depth anterior of the dorsal fin. Dorsal profile strongly arched compared to ventral profile. Dorsal profile from the tip of snout to the anterior origin of dorsal fin moderate to strongly convex, whereas the ventral profile is slightly arched such that it is almost straight or slightly convex from the interorbital area to the pelvic fin origin. Mouth is rather thin (i.e., width of upper and lower jaw), short and sub-terminal. Snout is pronounced and almost equally wide as deep resulting in an almost square shape. Small eye. Eye-socket is thick and triangular (i.e., sickle-shaped). Pectoral fin moderately tapered. The anterior unbranched ray of the erected dorsal fin has an approx. 60° angle to body axis and at the end of the ray it is bent posteriorly. Caudal peduncle is stout and short. Caudal fin forked and sometimes slightly asymmetrical with the dorsal part being longer. Un-branched ray of anal fin mostly straight and only sometimes slightly bent posteriorly. Anal fin longest anteriorly and progressively shortening posteriorly with the outermargin of the anal fin mostly slightly concave and only rarely straight.
Meristics : Few and short gill rakers.
Colour : Pigmentation of fins and body overall moderately strong in live specimens. Pectoral fin is moderately to strongly pigmented. Dorsal, adipose, pelvic, anal, and caudal fins are moderately to strongly pigmented. Silvery appearance along the flanks with moderate to many pigmented small dots on the scales. The dots are found along the flank and the dorsum. Distribution of the dots is bound to the scale patterning such that the dots are found at the edge of the scales or at the boundary point of two scales (as can be found for the species of C. fatioi, C. alpinus and C. brienzii). Dorsally above the lateral line the silvery appearance changes to a light (e.g., RGB (135, 236, 179)) or darker greenish blue colour (e.g., RGB (7,168,125)). Dorsal part of the head strongly pigmented. Snout around the nostrils strongly pigmented with a gap of moderate pigmentation posteriorly of the nostrils up to the height of the middle of the eyes. Pre-operculum and operculum are silvery with one black dot on the lower margin of the pre-operculum. For a comparison to the main colouration found in the other species see Suppl. material 1: Figure S8. Preserved specimens are pale in colouration with similar pigmentation as described for live specimens. Silvery, translucent, not coloured or unpigmented parts of the body become brown-yellowish (e.g., RGB (239, 210, 40)), whereas the pigmented parts are conserved and the coloured parts (dorsally above the lateral line) become brownish (e.g., RGB (186, 140, 100)).
Coregonus steinmanni
is found in Lake Thun (46°40'N, 7°46'E), which is connected to Lake Brienz through the river Aare at Interlaken. Based on isotopic signatures C. steinmanni feeds on a mix of benthic prey and zooplankton (
Coregonus steinmanni
resembles phenotypically C. alpinus and to some extent C. acrinasus. The average size (total length) at 3 years of age for specimens in this study is 328±23 mm (mean and standard deviation, N = 11) (Suppl. material 1: Figures S4–S6). The average size at 3 years of age for the specimens of C. steinmanni from this study is similar to that for the years 2004–2005 (338.5±19 mm, N = 8) (Bittner et al. unpublished; Vonlanthen et al. unpublished). The size of 3-year-old specimens of C. steinmanni is similar to that of C. alpinus, larger than that of C. acrinasus and considerably larger than that of C. albellus, C. fatioi and C. profundus (Suppl. material 1: Figure S6). Coregonus steinmanni has a short spawning season in late December and only rarely can be found spawning in late autumn (Suppl. material 1: Figure S3;
The specific epithet steinmanni is the genitive of Steinmann. We name this species after the high school teacher and researcher Paul Steinmann, a zoologist from Switzerland who wrote the most comprehensive compendium on Swiss whitefish to date and compiled throughout his lifetime a large collection of preserved specimens of Swiss, but also European, fishes (
None; this species was not recognized by local fishermen or fisherwomen as distinct from C. alpinus and was thus also called "Balchen". We suggest the German name "Steinmann’s Balchen".
Coregonus
"Felchen":
Coregonus
"Large type":
Coregonus
sp. "Balchen":
Coregonus
sp. "Balchen 2":
Holotype. NMBE-1077126, Switzerland, Lake Brienz (46°43'N, 7°57'E), 223 mm SL, female.
Paratypes. NMBE-1077116–1077125, NMBE-1077127–1077128, Switzerland, Lake Brienz (46°43'N, 7°57'E), N = 12, 118–226 mm SL.
Coregonus brienzii is a medium-sized whitefish with moderate pigmentation of all fins and body; light to dark greenish blue colour on the flanks above the lateral line; moderate to many pigmented small dots on the scales along the flank and the dorsum; deep bodied; stout caudal peduncle; short head; moderately large eye with a moderately thick and triangular shaped eye socket.
Coregonus brienzii occurs only in Lake Brienz and we therefore compare the characters of this species specifically with the species of Lake Brienz. Differential diagnoses against C. albellus, C. alpinus, and C. fatioi are given under those species’ accounts.
General appearance is shown in Figure 8. Morphological and meristic characters of both sexes can be found in Table
Shape : Moderately deep bodied with greatest body depth anterior of the dorsal fin. Dorsal profile moderately arched compared to ventral profile. The dorsal profile from the tip of snout to the anterior origin of dorsal fin is moderately convex, whereas the ventral profile is slightly arched such that is almost straight or slightly convex from the interorbital area to the pelvic fin origin. In some specimens the ventral profile and dorsal profile are similar and only slightly arched. Head moderately short. Mouth is rather thin (i.e., width of upper and lower jaw), moderately short and terminal to sub-terminal. The snout can range from almost equally wide as deep to wider than deep, and is only moderately pronounced, since the tip of the snout can sometimes be fleshy and roundish. Moderately large eye. The eye-socket is thick and triangular (i.e., sickle-shaped). Pectoral fin moderately tapered. The anterior unbranched ray of the erected dorsal fin is almost vertically straight with an approx. 70–80° angle to the body axis and is only bent slightly posteriorly at the end of the ray. Caudal peduncle is moderately stout and short. Caudal fin forked and sometimes slightly asymmetrical with the dorsal part being longer. Unbranched ray of anal fin mostly straight and only sometimes slightly bent posteriorly. Anal fin longest anteriorly and progressively shortening posteriorly with the outer margin of the anal fin mostly slightly concave and only rarely straight.
Meristics : Many gill rakers that are moderately long.
Colour : Pigmentation of fins and body overall moderate in live specimens. The pectoral fin is mostly translucent and only rarely moderately pigmented at the median to distal parts of the fin. The dorsal, adipose, pelvic, anal, and caudal fins are moderately pigmented. Silvery appearance along the flanks with moderate to many pigmented small dots on the scales. The dots are found along the flank and the dorsum. The distribution of the dots is bound to the scale patterning such that the dots are found at the edge of the scales or at the boundary point of two scales (as can be found for the species of C. alpinus and C. fatioi from both lakes and C. steinmanni from Lake Thun). Dorsally above the lateral line the silvery appearance changes to a light (e.g., RGB (135, 236, 179)) or darker greenish blue colour (e.g., RGB (7,168,125)). The dorsal part of the head is moderately pigmented. The snout around the nostrils is moderately pigmented with a gap of very weak pigmentation posteriorly of the nostrils up to the height of the middle of the eyes. The pre-operculum and operculum are silvery with one black dot on the lower margin of the pre-operculum. For a comparison to the main colouration found in the other species see Suppl. material 1: Figure S8. Preserved specimens are pale in colouration with similar pigmentation as described for live specimens. The silvery, translucent, not coloured or unpigmented parts of the body become brown-yellowish (e.g., RGB (239, 210, 40)), whereas the pigmented parts are conserved and the coloured parts (dorsally above the lateral line) become brownish (e.g., RGB (186, 140, 100)).
Coregonus brienzii
is found in Lake Brienz (46°43'N, 7°57'E) which is connected with Lake Thun through the river Aare at Interlaken. Our previous genetic work (
Coregonus brienzii
most likely feeds on a mix of benthic prey and zooplankton (stomach content:
The specific epithet brienzii is the genitive of Brienz. We name this species after Lake Brienz, as it is the only endemic whitefish species known for Lake Brienz.
None. We suggest the German name «Brienzer Kleinbalchen»
Coregonus alpinus:
Coregonus lavaretus
natio arurensis, oekot. profundus:
Coregonus
"Tiefenalbock", "Kropfer":
Coregonus
"Kropfer":
Coregonus
"Kropfer":
Coregonus
"Kropfer", "THU3": Douglas et al. 1999,
Holotype. NMBE-1077208, Switzerland, Lake Thun (46°40'N, 7°46'E), 194 mm SL, male.
Paratypes. NMBE-1077161–1077179, NMBE-1077203–1077207, NMBE-1077209–1077211, Switzerland, Lake Thun (46°40'N, 7°46'E), N = 27, 188–316 mm SL.
Coregonus profundus is a small whitefish species with moderate pigmentation of all fins and the body; brown-orange colouration on the flanks above the lateral line; elongate slender body; long head; large eye with a thick and triangular shaped eye socket; tip of snout is fleshy and roundish; few (15–27) and short gill rakers.
Coregonus profundus occurs only in Lake Thun and we therefore compare the characters of this species specifically with the species of Lake Thun. The differential diagnoses against C. albellus, C. alpinus, C. fatioi, and C. steinmanni are given under those species’ accounts. The lower number of gill rakers of C. profundus (total gill raker number: 15–27, mode = 21) distinguishes this species from all other 5 whitefish species, C. albellus (32–44, mode = 38), C. alpinus (25–34, mode = 30), C. fatioi (32–43, mode = 38), C. steinmanni (30–35, mode = 31), and C. acrinasus (30–40, mode = 36) (Suppl. material 1: Table S6).
Coregonus profundus–Coregonus acrinasus
Coregonus profundus
can be distinguished from C. acrinasus by having shorter gill rakers (middle gill raker length: 7.6–11.7% HL, mean = 9.2 vs. 9.1–16.6% HL, mean = 13.4; longest gill raker length: 7.8–12.4% HL, mean = 10.1 vs. 11.4–16.9% HL, mean = 14.5) and a longer head (15.5–18.4% HL, mean = 16.4 vs. 13.8–16.1% HL, mean = 15.2) (Tables
General appearance is shown in Figure 9. Morphological and meristic characters of both sexes can be found in Table
Shape : Body elongate. Slender bodied with greatest body depth anterior of the dorsal fin. Dorsal and ventral profile similar and slightly arched. Dorsal and ventral profile from tip of snout to interorbital area mostly straight and then slightly convex to dorsal and pelvic fin origin respectively. Head long. Snout often 60° angle to the body axis anterior of the eye, such that the profile from the tip of the snout to the vertical projection where the anterior part of the eye crosses the dorsal profile is straight and afterwards slightly convex. Mouth is wide (i.e., width of upper and lower jaw), rather short and mostly strongly sub-terminal and only rarely terminal. Snout is weakly pronounced, since the tip of the snout is often fleshy and roundish. Eye rather large with a large eye cavity and a thick and triangular eye-socket (i.e., sickle-shaped). Pectoral fin long and moderately tapered. Dorsal fin long with the anterior unbranched ray of the erected dorsal fin approx. 70–80° angle to body axis and only slightly bent posteriorly at the end of the ray. Caudal peduncle narrow and short with caudal fin forked and sometimes moderately to strongly asymmetrical with either the ventral or dorsal part being longer. Unbranched ray of anal fin straight and rarely bent posteriorly at the end of the ray. Anal fin is longest anteriorly and progressively shortening posteriorly with the outer margin of the anal fin slightly concave and only rarely straight.
Meristics : Very few and very short gill rakers.
Colour : Pigmentation of fins and body is overall moderate in live specimens. Pectoral fin is translucent or yellowish in colouration with moderate pigmentation at the median to distal parts of the fin. Dorsal, adipose, pelvic, anal and caudal fins are moderately pigmented. Silvery appearance along the flanks and dorsally above the lateral line the silvery appearance changes to a pale brown-orange colouration (e.g., RGB (232, 172, 52)) and very rarely the brown-orange colouration can have a hint of light greenish colour (e.g., RGB (136, 245, 205)). Sometimes the colouration above the lateral line is pale rose (e.g., RGB (247, 187, 175)) and then towards the dorsum becomes a brown-orange. This transition from one colouration to another can also be observed in C. albellus. For a comparison to the main colouration found in the other species see Suppl. material 1: Figure S8. Dorsal part of the head is moderately pigmented. Snout around the nostrils is moderately pigmented and rarely with a gap of less pigmentation posteriorly of the nostrils up to the height of the middle of the eyes. The operculum and pre-operculum are silvery with one black dot on the lower margin of the pre-operculum. Preserved specimens are pale in colouration with similar pigmentation as described for live specimens. Silvery, translucent, not coloured or unpigmented parts of the body become brown-yellowish (e.g., RGB (239, 210, 40)), whereas the pigmented parts are conserved and the coloured parts (dorsally above the lateral line) become brownish (e.g., RGB (186, 140, 100)).
Distribution and notes on biology. Coregonus profundus is found in Lake Thun (46°40'N, 7°46'E). It is believed to have been endemic to this lake. Yet, based on matching genetic (microsatellite) and morphological (gill raker number, morphological characters) evidence one ripe specimen of C. profundus has been caught by a local fisherman, Stefan Dasen, in 2016 in Lake Biel (47°05'N, 7°10'E) (Suppl. material 1: Figure S9). Lake Biel has been artificially connected with Lake Thun through the river Aare since the Jura water correction from 1868–1878, where the river Aare was artificially bypassed downstream from Lake Thun into Lake Biel. For another Lake Thun species, C. albellus, it had been known since at least 2004 that it can be found in Lake Biel (see details in the note on biology for C. albellus) (
It is important to note that native whitefish species of Lake Biel were only known to spawn in the winter months (
Coregonus profundus
is known by the common name "Kropfer" and has previously been described under the name C. alpinus (
The adjective profundus means deep in Latin and is used for C. profundus to describe the species unique ecology of living and breeding in great depths in Lake Thun.
Kropfer.
Coregonus
"Albock":
Coregonus
"Albock", "THU1": Douglas et al. 1999;
Coregonus fatioi:
Coregonus sp. "Albock": Doenz et al. 2018
Holotype. NMBE-1077271, Switzerland, Lake Thun (46°40'N, 7°46'E), 239.5 mm SL, male.
Paratypes. NMBE-1077238–1077240, NMBE-1077268–1077270, NMBE-1077272–1077290, Switzerland, Lake Thun (46°40'N, 7°46'E), N = 25, 197–278 mm SL.
Coregonus acrinasus is a medium-sized whitefish with moderate pigmentation of all fins and body; dark greenish blue colour on the flanks above the lateral line; moderate to many pigmented small dots on the scales; tip of the snout pointy; long head; small eye with a thick and triangular shaped eye socket; many and moderately long gill rakers.
Coregonus acrinasus only occurs in Lake Thun and shows ancestry contributions from whitefish of Lake Constance, besides its Lake Thun ancestry. These derive from historically documented introductions of at least two whitefish species (C. wartmanni and C. macrophthalmus) into Lake Thun. Since, historically undocumented introductions of other whitefish from Lake Constance cannot be excluded and since there is no clear genetic assignment of C. wartmanni or C. macrophthalmus as likely source of the allochthonous introgression we compare the characters of this species with those of all whitefish species from Lake Constance and all other whitefish species from Lake Thun. The differential diagnoses against C. albellus, C. alpinus, C. fatioi, C. steinmanni and C. profundus are given under those species’ accounts.
Lake Constance comparison.
Coregonus acrinasus–all four Lake Constance species
The wider underjaw of C. acrinasus (9.2–14.3% HL, mean = 12.2) differentiates it from all other species from Lake Constance, C. gutturosus (6.8–9.9% HL, mean = 7.7), C. arenicolus (7.8–8.5% HL, mean = 8.1), C. macrophthalmus (6.4–8.8% HL, mean = 8) and C. wartmanni (8.1% HL) (Tables
Coregonus acrinasus–Coregonus wartmanni
Coregonus acrinasus
differs from C. wartmanni by having a larger eye and eye cavity (eye diameter: 21.6–25.5% HL, mean = 23.7 vs. 18.9% HL; eye cavity: 26–29.6% HL, mean = 27.7 vs. 23.9% HL; eye height: 21.7–24.8% HL, mean = 22.9 vs. 19% HL) (Tables
Coregonus acrinasus–Coregonus macrophthalmus
Coregonus acrinasus
differs from C. macrophthalmus by having a wider head (43.9– 56.2% HL, mean = 49.6 vs. 39.3–43.3% HL, mean = 41.6) (Tables
Coregonus acrinasus–Coregonus gutturosus
Coregonus acrinasus
differs from C. gutturosus by having more and longer gill rakers (upper arch gill raker number: 10–15, mode = 13 vs. 7–9, mode = 7; lower arch gill raker number: 20–26, mode = 24 vs. 9–12, mode = 10; total gill raker number: 30–40, mode = 36 vs. 16– 21, mode = 19; middle gill raker length: 9.1–16.6% HL, mean = 13.4 vs. 4.1–8.7% HL, mean = 6.9; longest gill raker length: 11.4– 16.9, mean = 14.5 vs. 6.7–10.6% HL, mean = 8.2), a longer lower jaw (38.6–47% HL, mean = 40.9 vs. 34.3–39.1% HL, mean = 36.6) and a shorter head (13.8–16.1% HL, mean = 15.2 vs. 15.4–18.1% HL, mean = 16.8) (Tables
Coregonus acrinasus–Coregonus arenicolus
Coregonus acrinasus
can be differentiated from C. arenicolus by having more and longer gill rakers (lower arch gill raker number: 20–26, mode = 24 vs. 13–19; total gill raker number: 30–40, mode = 36 vs. 22–31; middle gill raker length: 9.1–16.6% HL, mean = 13.4 vs. 9.8– 10.6% HL, mean = 10.2; longest gill raker length: 11.4–16.9, mean = 14.5 vs. 10.9–12% HL, mean = 11.5), a larger eye (eye diameter: 21.6–25.5% HL, mean = 23.7 vs. 17.3–19.6% HL, mean = 17.7; eye cavity: 26–29.6% HL, mean = 27.7 vs. 24.1–25.7% HL, mean = 25; eye height: 21.7–24.8% HL, mean = 22.9 vs. 18.8–20.8% HL, mean = 19.6) and a shorter anal fin (9.2–13% HL, mean = 11.6 vs. 12.9–13.8 % HL, mean = 13.3) (Tables
General appearance is shown in Figure 10. Morphological and meristic characters of both sexes can be found in Tables
Shape : Only slightly deep bodied with greatest body depth anterior of the dorsal fin. Dorsal and ventral profile equally arched such that both the dorsal profile from the tip of snout to the anterior origin of dorsal fin and the ventral profile from the interorbital area to the pelvic fin origin are moderately convex. Head long. Mouth (i.e., width of upper and lower jaw) is thick, moderately long and often sub-terminal and only rarely terminal. Rostral plate is mostly wider than deep, not strongly pronounced and the tip of the snout is often pointy in the sagittal plane. Eye-socket thick and triangular (i.e., sickle-shaped). Pectoral fin moderately tapered. Anterior unbranched ray of the erected dorsal fin has an approx. 40–60° angle to body axis and from the middle to the end of the ray it is moderately bent posteriorly. Caudal peduncle stout and moderately long. Caudal fin forked and sometimes slightly asymmetrical with the ventral part being longer. Unbranched ray of anal fin mostly straight and only sometimes slightly bent posteriorly. Anal fin is longest anteriorly and progressively shortening posteriorly with the outer margin of the anal fin slightly concave.
Meristics : Many and moderately long gill rakers.
Colour : Pigmentation of fins and body overall moderately strong in live specimens. Pectoral fin is mostly transparent to moderately pigmented with a yellowish faint pigmentation and only very rarely strongly pigmented. Dorsal, adipose, pelvic, anal, and caudal fins are moderately to strongly pigmented. Fish have a silvery appearance along the flanks with moderate to many pigmented small dots on the scales. Dots along the flank and the dorsum. Distribution of the dots is bound to the scale patterning such that the dots are found at the edge of the scales or at the boundary point of two scales. Dorsally above the lateral line the silvery appearance changes to dark greenish blue colour (e.g., RGB (7,168,125)). The snout around the nostrils is strongly pigmented with a gap of very little pigmentation posteriorly of the nostrils up to the height of the middle of the eyes. Pre-operculum and operculum are silvery with one black dot on the lower margin of the pre- operculum. For a comparison to the main colouration found in the other species see Suppl. material 1: Figure S8. Preserved specimens are pale in colouration with similar pigmentation as described for live specimens. Silvery, translucent, not coloured or unpigmented parts of the body become brown-yellowish (e.g., RGB (239, 210, 40)), whereas the pigmented parts are conserved and the coloured parts (dorsally above the lateral line) become brownish (e.g., RGB (186, 140, 100)).
Coregonus acrinasus
is found in Lake Thun (46°40'N, 7°46'E). Based on isotopic signatures C. acrinasus most likely feeds on a mix of benthic prey and zooplankton (
Coregonus acrinasus
appears to be a species of partially allochthonous origin, closely related to the radiation of Lake Constance with genetic contributions from Lake Thun. Indications of this situation were seen in several earlier genetic studies (
The name C. acrinasus is a combination of the ablative case of the Latin adjective acer resulting in acri, which means pointed and the noun nasus for nose. The name acrinasus refers to a phenotypic feature of this species, which often has a pointed snout when viewed in the sagittal plane.
Albock
Non-types. NMBE-1076230 (Eawag-246), NMBE-1076232 (Eawag-248–1), NMBE-1076233 (N = 6: Eawag–249–1, Eawag-249–2, Eawag-249–3, Eawag-249–4, Eawag-249–5, Eawag-249–6), NMBE-1076232 (N = 2: Eawag-248–2, Eawag-248–3), Switzerland, Lake Constance (47°38'N, 9°22'E), N = 10, 169–292 mm SL.
Coregonus gutturosus used to be endemic to Lake Constance but is now extinct.
Kilch
Holotype. NMBE-1076223 (Eawag-239–1), Switzerland, Lake Constance (47°38'N, 9°22'E), 296 mm SL, sex unknown.
Paratypes. NMBE-1076223 (N = 3: Eawag-239–2,Eawag-239–3, Eawag-239–4), Switzerland, Lake Constance (47°38'N, 9°22'E), N = 3, 289–314 mm SL.
Coregonus arenicolus is found in the upper and lower basin of Lake Constance.
Sandfelchen.
Syntypes. MHNG-716.052, MHNG-716.051, MHNG-816.02, MHNG-715.094 (N = 2: MHNG-715.094–1, MHNG-715.094–2), NMBE-1076211 (N = 2: Eawag-227–1, Eawag-227–2), Switzerland, Lake Constance (47°38'N, 9°22'E), N = 7, 193–235 mm SL.
Coregonus macrophthalmus is found in Lake Constance, especially in the upper basin (Obersee). It is unclear if it also occurs in the lower basin (Untersee) of the lake.
Gangfisch.
Non-type. NMBE-1076206, Switzerland, Lake Constance (47°38'N, 9°22'E), 301 mm SL, sex female.
Coregonus wartmanni is found in Lake Constance, especially in the upper basin (Obersee). It is unclear if it also occurs in the lower basin (Untersee).
Blaufelchen.
Lake Thun
1 | Caudal peduncle depth / upper jaw length ratio is 1.36–1.65 and caudal peduncle depth / maxilla length ratio is 1.77–2.24 | 2 |
– | Caudal peduncle depth / upper jaw length ratio is 0.96–1.43 | 3 |
2 | Total number of gill rakers 25–30 | C. alpinus |
– | Total number of gill rakers 31–35 | C. steinmanni |
3 | Total number of gill rakers 15–27 | C. profundus |
– | Total number of gill rakers 30–44 | 4 |
4 | Colouration above the lateral line on the dorsum from a pale rose colouration to a pale brown colouration; no or few small pigmented dots on the edge of the scales or on the boundary of two scales on the flank; no pigmented dots on the dorsum | C. albellus |
– | Colouration above the lateral line on the dorsum from a light to dark green and rarely a light olive; moderate to many dots on the edge of the scales or on the boundary of two scales on the flank and/or the dorsum | 5 |
5 | Angle to body axis of the erected dorsal fin approx. 60–80° | C. fatioi |
– | Angle to body axis of the erected dorsal fin approx. 40–60° | C. acrinasus |
Lake Brienz
1 | Total number of gill rakers 26–30 and erected dorsal fin length / upper jaw length ratio is 3.25–4.1 | C. alpinus |
– | Total number of gill rakers 32–42 and erected dorsal fin length / upper jaw length ratio is 2.14–3.19 | 2 |
2 | Predorsal length / eye height ratio is 6.1–7.58 | C. albellus |
– | Predorsal length / eye height ratio is 8.12–10.5 | 3 |
3 | Body depth 19.6–25.1% SL, eye depth 23.1–28.3 % HL | C. brienzii |
– | Body depth 22.1–26.2% SL, eye depth 21.2–27.6% HL | C. fatioi |
Coregonus albellus , lakes Thun and Brienz, Switzerland A lectotype, MHNG-816.022, Lake Thun, 165 mm SL, sex unknown B non-type, Eawag-123825, Lake Thun, 221 mm SL, male C non- type, NMBE-1077320, Lake Brienz, 115.5 mm SL, male. The white scale (1cm) below each fish acts as a reference for the actual size of the specimen.
Morphological and meristic data of C. albellus Fatio, 1890 from lakes Thun and Brienz, MHNG-816.022 lectotype from Lake Thun; non-type material N = 34 from Lake Thun and N = 32 from Lake Brienz.
Morphological/ characters | C. albellus | Both lakes | Lake Thun | Lake Brienz | |||||||||||
Lectotype | Non-types both sexes | Non-types | Non-types | ||||||||||||
N-total = 66 | N-total = 34 | N-females = 21 | N-males = 13 | N-total = 32 | N-females = 19 | N-males = 13 | |||||||||
Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | ||
SL (mm) | 165.0 | 173.2±51.9 | (101–271) | 221.4±16.4 | (177–271) | 224.4±14.9 | (205–271) | 216.6±18.1 | (177–254) | 122.1±11.0 | (101–164) | 122.9±13.5 | (101–164) | 120.9±6.4 | (108–129) |
Percentage of standard length | |||||||||||||||
PelvFB | 3.6 | 3.9±0.4 | (3.2–5.6) | 4.0±0.3 | (3.4–4.7) | 4.0±0.3 | (3.4–4.7) | 4.1±0.2 | (3.7–4.5) | 3.8±0.5 | (3.2–5.6) | 4.0±0.5 | (3.2–5.6) | 3.6±0.2 | (3.3–4.0) |
PelvFS | na | 6.3±0.7 | (5.1–8.6) | 6.2±0.7 | (5.1–7.3) | 6.1±0.7 | (5.1–7.2) | 6.5±0.7 | (5.1–7.3) | 6.4±0.7 | (5.5–8.6) | 6.5±0.8 | (5.5–8.6) | 6.3±0.6 | (5.5–7.8) |
PelvF | 14.1 | 17±1.1 | (14.7–20.9) | 16.7±0.9 | (14.8–18.7) | 16.5±0.6 | (15.2–18) | 17±1.1 | (14.8–18.7) | 17.3±1.1 | (14.7–20.9) | 17.5±1.4 | (14.7–20.9) | 17.1±0.7 | (15.3–18.1) |
PecFB | 3.1 | 3.3±0.3 | (2.7–4.8) | 3.4±0.3 | (2.7–3.9) | 3.3±0.3 | (2.7–3.8) | 3.5±0.2 | (2.9–3.9) | 3.3±0.4 | (2.9–4.8) | 3.5±0.5 | (3.0–4.8) | 3.2±0.2 | (2.9–3.6) |
PecF1 | na | 17.6±1.2 | (14.7–22.6) | 17.3±1.0 | (14.7–19.1) | 17.2±0.9 | (15.4–19.1) | 17.4±1.1 | (14.7–18.8) | 18.0±1.4 | (15.7–22.6) | 18.2±1.5 | (15.7–22.6) | 17.6±1.3 | (15.9–19.8) |
PecF2 | na | 18.9±1.3 | (15.7–23.8) | 18.4±1.1 | (15.7–20.7) | 18.2±1 | (16.4–20.1) | 18.8±1.3 | (15.7–20.7) | 19.4±1.3 | (16.9–23.8) | 19.5±1.5 | (16.9–23.8) | 19.3±1 | (18.1–21.2) |
DFB | 11.7 | 12.1±0.9 | (10.7–16.2) | 11.9±0.6 | (10.8–13.6) | 11.8±0.6 | (10.8–13.3) | 12.0±0.7 | (11.0–13.6) | 12.2±1.1 | (10.7–16.2) | 12.6±1.2 | (10.8–16.2) | 11.8±0.9 | (10.7–13.2) |
DFAe | na | 19.1±1.4 | (16.1–24.7) | 18.5±1.2 | (16.1–21.2) | 18.3±0.9 | (16.1–19.6) | 18.9±1.5 | (16.7–21.2) | 19.7±1.5 | (17.3–24.7) | 20.2±1.6 | (17.8–24.7) | 19.1±0.9 | (17.3–20.8) |
DFAd | na | 20.1±1.4 | (17.1–26.6) | 19.7±1.1 | (17.1–21.9) | 19.5±0.9 | (17.3–21.4) | 20.0±1.3 | (17.1–21.9) | 20.6±1.5 | (18.3–26.6) | 21.0±1.7 | (18.3–26.6) | 20.0±0.9 | (18.9–21.7) |
DFPe | 7 | 5.4±0.7 | (3.7–7.2) | 5.1±0.6 | (3.7–6.1) | 5.0±0.5 | (3.7–5.9) | 5.2±0.7 | (3.8–6.1) | 5.7±0.7 | (4.4–7.2) | 5.7±0.7 | (4.4–7.2) | 5.7±0.6 | (4.4–7.2) |
AFB | 13.1 | 12.9±1 | (10.5–17) | 12.7±0.8 | (11.1–14.9) | 12.4±0.6 | (11.1–13.3) | 13.1±0.8 | (12.0–14.9) | 13.0±1.2 | (10.5–17.0) | 13.3±1.3 | (11.5–17.0) | 12.7±1.0 | (10.5–14.9) |
AFAe | na | 12±0.9 | (9.7–14.4) | 12.3±0.8 | (10.9–14.0) | 12.0±0.7 | (10.9–13.4) | 12.7±0.9 | (11.3–14.0) | 11.7±1.0 | (9.7–14.4) | 11.8±1.0 | (9.7–14.4) | 11.6±1.0 | (9.7–13.8) |
AdFB | 6.8 | 6.5±1.1 | (4.5–9.2) | 5.8±0.7 | (4.5–7.7) | 5.8±0.7 | (4.7–6.8) | 5.9±0.8 | (4.5–7.7) | 7.2±1.1 | (4.5–9.2) | 7.2±1.1 | (4.9–9.2) | 7.1±1.1 | (4.5–8.6) |
CF | na | 25±1.8 | (21.7–32.9) | 24±1.3 | (21.7–26.5) | 23.8±1.1 | (21.7–26.4) | 24.2±1.5 | (21.8–26.5) | 26±1.8 | (24–32.9) | 26.5±1.9 | (24.4–32.9) | 25.3±1.4 | (24–28.6) |
CD | 6.9 | 7.2±0.5 | (6.3–10) | 7.1±0.3 | (6.4–7.9) | 7.1±0.4 | (6.4–7.9) | 7.2±0.3 | (6.8–7.7) | 7.3±0.6 | (6.3–10) | 7.5±0.8 | (6.6–10) | 7±0.3 | (6.3–7.4) |
CL | 14.7 | 13.3±0.8 | (11.7–16) | 13.2±0.7 | (11.7–14.6) | 13.2±0.7 | (11.9–14.5) | 13.1±0.9 | (11.7–14.6) | 13.5±0.9 | (12.1–16.0) | 13.4±0.9 | (12.2–16.0) | 13.6±0.9 | (12.1–15.5) |
PAdC | 18.9 | 19.8±1.5 | (16.9–24.2) | 18.9±1 | (16.9–20.9) | 18.8±0.9 | (16.9–20.9) | 19.3±0.9 | (17.3–20.4) | 20.7±1.4 | (17.7–24.2) | 20.5±1.8 | (17.7–24.2) | 20.9±0.6 | (19.6–21.8) |
DHL | 14.7 | 16.4±1.8 | (14.1–23.1) | 15.0±0.7 | (14.1–16.5) | 14.9±0.7 | (14.1–16.2) | 15.2±0.7 | (14.1–16.5) | 17.9±1.3 | (16.1–23.1) | 18.3±1.4 | (16.8–23.1) | 17.3±0.9 | (16.1–19.7) |
PreP | 49.2 | 51.9±2.4 | (48.4–67.7) | 52.0±1.6 | (49.5–56.0) | 52.1±1.7 | (49.5–56.0) | 51.9±1.4 | (49.5–54.3) | 51.8±3.2 | (48.4–67.7) | 52.2±3.9 | (49.1–67.7) | 51.4±1.7 | (48.4–54.0) |
PreA | 76.2 | 77.1±3.1 | (74–100) | 77.1±1.3 | (74.8–80.0) | 77.2±1.2 | (75.2–79.7) | 76.9±1.6 | (74.8–80.0) | 77.2±4.3 | (74.0–100.0) | 77.7±5.5 | (74.8–100.0) | 76.4±1.4 | (74.0–78.7) |
PreD | 45.5 | 47.2±2.2 | (43.1–61.2) | 46.5±1 | (43.1–48.4) | 46.6±0.9 | (44.9–48.4) | 46.2±1.1 | (43.1–47.7) | 48±2.7 | (45.8–61.2) | 48.5±3.3 | (45.8–61.2) | 47.3±1.3 | (46–51.3) |
BD | 25.2 | 23.4±2.8 | (16.9–30.2) | 25.3±1.4 | (23.0–29.6) | 25.5±1.5 | (23.5–29.6) | 24.9±1.2 | (23.0–26.8) | 21.4±2.5 | (16.9–30.2) | 22.2±2.8 | (19.4–30.2) | 20.2±1.4 | (16.9–22.6) |
PostD | 43.8 | 44.3±2 | (41.2–56.2) | 44.5±1.5 | (41.8–48.3) | 44.6±1.4 | (41.8–46.6) | 44.3±1.7 | (43–48.3) | 44.1±2.5 | (41.2–56.2) | 44.1±3.1 | (41.5–56.2) | 44±1.3 | (41.2–45.8) |
TL | na | 121.3±2.1 | (116.6–130) | 120.7±1.8 | (116.6–123.7) | 120.5±1.8 | (116.6–123.7) | 121.1±1.8 | (118.4–123.7) | 122±2.2 | (118.2–130) | 122.1±2.3 | (119.6–130) | 121.7±2.2 | (118.2–125.5) |
HL (mm) | 34.4 | 38.4±8.8 | (26–51.9) | 46.4±3.2 | (36.1–51.9) | 46.6±2.8 | (41.5–51.9) | 46.1±3.8 | (36.1–51.6) | 29.9±2.5 | (26–39.2) | 30.6±3 | (26–39.2) | 28.8±1 | (27.7–31.1) |
Percentage of head length | |||||||||||||||
SN | 25.4 | 22.8±2 | (18.7–27.2) | 24.2±1.3 | (20.9–27.2) | 24.1±1.3 | (20.9–26.3) | 24.4±1.3 | (22.5–27.2) | 21.2±1.4 | (18.7–25.2) | 21.3±1.2 | (19.7–23) | 21.1±1.6 | (18.7–25.2) |
ED | 23.5 | 26.2±3.3 | (21.4–32) | 23.4±1.3 | (21.4–25.9) | 23.7±1.2 | (21.7–25.9) | 22.9±1.3 | (21.4–25.3) | 29.3±1.5 | (26.1–32) | 29.4±1.7 | (26.1–32) | 29.2±1.2 | (27.4–31.2) |
Morphological/ characters | C. albellus | Both lakes | Lake Thun | Lake Brienz | |||||||||||
Lectotype | Non-types both sexes | Non-types | Non-types | ||||||||||||
N-total = 66 | N-total = 34 | N-females = 21 | N-males = 13 | N-total = 32 | N-females = 19 | N-males = 13 | |||||||||
Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | ||
EC | 27 | 29.9±3.7 | (23.1–36.8) | 26.6±1.4 | (23.1–29.2) | 26.9±1.4 | (24–29.2) | 26.2±1.4 | (23.1–28.1) | 33.3±1.6 | (30.4–36.8) | 33.2±1.9 | (30.4–36.8) | 33.5±1.2 | (31.5–36.2) |
EH | na | 26.1±2.9 | (20.8–30.6) | 23.5±1.3 | (20.8–26.2) | 23.7±1.4 | (20.8–26.2) | 23.4±1 | (21.4–25.1) | 28.7±1.1 | (26.5–30.6) | 28.7±1.2 | (26.5–30.6) | 28.9±0.9 | (27.1–30.4) |
ES | na | 3.4±0.7 | (2–4.9) | 3.2±0.8 | (2.0–4.9) | 3.1±0.8 | (2.0–4.5) | 3.3±1.0 | (2.1–4.9) | 3.5±0.5 | (2.5–4.8) | 3.5±0.5 | (2.9–4.8) | 3.5±0.5 | (2.5–4.3) |
PostO | 49.8 | 50.2±2.5 | (45.5–55.6) | 52±1.5 | (48.5–55.6) | 51.8±1.6 | (48.5–55.6) | 52.3±1.4 | (50.1–55.1) | 48.2±1.8 | (45.5–53.1) | 48.3±2 | (45.5–53.1) | 48.2±1.4 | (45.7–50.5) |
HD | 75.5 | 68.3±4.5 | (59.2–80.3) | 71.8±2.9 | (66.9–80.3) | 71.5±3.2 | (66.9–80.3) | 72.2±2.4 | (67.1–75.8) | 64.6±2.3 | (59.2–69) | 64.4±2.4 | (59.2–68.8) | 64.8±2.3 | (61.3–69) |
MW | na | 10.4±0.8 | (8.8–12.2) | 10.3±0.7 | (8.8–12) | 10±0.6 | (8.8–11.2) | 10.8±0.7 | (9.4–12) | 10.5±0.8 | (8.8–12.2) | 10.5±0.8 | (8.9–12.2) | 10.5±0.8 | (8.8–11.7) |
UJ | na | 31.7±1.5 | (28.6–34.9) | 31.2±1.6 | (28.8–34.7) | 30.9±1.5 | (28.8–33.9) | 31.8±1.7 | (29–34.7) | 32.1±1.3 | (28.6–34.9) | 31.8±1.1 | (28.6–33.4) | 32.6±1.3 | (30.3–34.9) |
LJ | 45.5 | 43.6±2.8 | (38.4–49.2) | 41.4±1.6 | (38.4–44.6) | 41.2±1.7 | (38.6–44.4) | 41.6±1.6 | (38.4–44.6) | 45.9±1.6 | (41.9–49.2) | 45.6±1.7 | (41.9–48.5) | 46.4±1.5 | (43.9–49.2) |
M | na | 23.5±1.7 | (20.1–26.9) | 22.4±1.4 | (20.1–26.8) | 22.1±1.4 | (20.1–26.8) | 22.8±1.3 | (21.5–26.4) | 24.7±1.1 | (22.6–26.9) | 24.4±1.1 | (22.6–26.5) | 25.1±1.2 | (23.4–26.9) |
SD | na | 8.8±1.6 | (5.6–13.1) | 9.6±1.6 | (6–13.1) | 9.2±1.4 | (6–12.7) | 10.3±1.7 | (7.4–13.1) | 8±1 | (5.6–10.4) | 8.2±1.1 | (5.6–10.4) | 7.7±0.6 | (6.4–8.6) |
SW | na | 17.9±1.5 | (13.5–21.1) | 17.4±1.7 | (13.5–20) | 16.9±1.5 | (13.5–19.1) | 18.1±1.6 | (14.3–20) | 18.4±1.2 | (15.4–21.1) | 18.4±1.3 | (15.4–20.6) | 18.4±1.2 | (16.3–21.1) |
HW | 48.1 | 48.5±4.3 | (37.5–56.1) | 50.7±3.3 | (43.5–56.1) | 50.6±3.2 | (45.1–56.1) | 50.7±3.6 | (43.5–55.1) | 46.2±4.1 | (37.5–54.7) | 45.7±3.7 | (37.5–51.7) | 46.9±4.5 | (41.3–54.7) |
IOW | 25.8 | 26.9±2.2 | (22.7–33.6) | 28.4±2 | (24.4–33.6) | 28.4±2 | (24.8–33.6) | 28.4±2.1 | (24.4–31.9) | 25.4±1.2 | (22.7–27.5) | 25.4±1.3 | (23.1–27.5) | 25.5±1.2 | (22.7–27.4) |
INW | na | 11.5±1.3 | (7.8–15.4) | 11.9±1.3 | (9.9–15.4) | 11.8±1.4 | (9.9–15.4) | 12.1±1.3 | (9.9–15) | 11±1.2 | (7.8–13.7) | 11.1±1.1 | (9–13.7) | 11±1.3 | (7.8–13) |
LJW | 12.2 | 11.7±2.4 | (7.5–17.5) | 13.3±2.2 | (8.6–17.5) | 13.1±2 | (9–16.5) | 13.5±2.4 | (8.6–17.5) | 10±1.3 | (7.5–12.3) | 9.9±1.2 | (8.4–12.3) | 10±1.5 | (7.5–12.2) |
UJW | na | 24.5±2.2 | (19.1–28.9) | 25.4±1.9 | (20.9–28.7) | 24.9±1.9 | (20.9–28.7) | 26.2±1.8 | (22.7–28.4) | 23.5±2 | (19.1–28.9) | 23.4±2.1 | (19.1–28.9) | 23.6±1.9 | (19.8–27.4) |
MGR | 16.1 | 16±1.5 | (11.7–19.4) | 15.6±1.7 | (11.7–18.3) | 15.7±1.6 | (11.7–18.3) | 15.5±1.8 | (12–18.2) | 16.5±1.2 | (13.7–19.4) | 16.4±1.3 | (13.7–19.3) | 16.6±1.2 | (15.1–19.4) |
LGR | 17 | 17.7±1.6 | (14.1–21.8) | 17.2±1.5 | (14.1–20.3) | 17.3±1.6 | (14.1–20.3) | 17±1.4 | (14.7–18.9) | 18.2±1.5 | (14.9–21.8) | 18±1.6 | (14.9–21.8) | 18.6±1.2 | (16.8–21.5) |
UA | 20 | 19.5±1.4 | (14.8–22.6) | 19.2±1.4 | (14.8–22.6) | 19.1±1.6 | (14.8–22.6) | 19.5±1.2 | (17.5–21.3) | 19.7±1.4 | (17.2–22.1) | 19.5±1.5 | (17.2–22.1) | 20±1.1 | (17.8–21.3) |
LA | 37.8 | 36.4±2.7 | (29.6–42.2) | 35.4±1.7 | (32.3–39.6) | 35.4±1.9 | (32.3–39.6) | 35.4±1.4 | (32.8–37.5) | 37.5±3.1 | (29.6–42.2) | 36.8±3.6 | (29.6–42.2) | 38.7±1.9 | (35.3–42) |
Meristic characters | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | |
PelvF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
PelvF branched | 11 | 10 | (9–12) | 10 | (9–11) | 10 | (9–11) | 10 | (9–11) | 10 | (10–12) | 10 | (10–11) | 10 | (10–12) |
PecF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
PecF branched | 16 | 16 | (14–17) | 16 | (14–17) | 16 | (14–17) | 16 | (15–17) | 16 | (15–17) | 16 | (15–17) | 16 | (15–17) |
DF unbranched | 3 | 4 | (3–4) | 4 | (3–4) | 4 | (3–4) | 4 | (3–4) | 4 | (3–4) | 4 | (3–4) | 4 | (3–4) |
DF branched | 11 | 10 | (9–12) | 10 | (9–12) | 10 | (9–12) | 10 | (9–12) | 10 | (9–12) | 10 | (9–12) | 10 | (9–11) |
Meristic characters | C. albellus | Both lakes | Lake Thun | Lake Brienz | |||||||||||
Lectotype | Non-types both sexes | Non-types | Non-types | ||||||||||||
N-total = 66 | N-total = 34 | N-females = 21 | N-males = 13 | N-total = 32 | N-females = 19 | N-males = 13 | |||||||||
Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | ||
AF unbranched | 3 | 3 | (2–4) | 3 | (2–4) | 3 | (2–4) | 3 | (2–4) | 4 | (3–4) | 4 | (3–4) | 4 | (3–4) |
AF branched | 14 | 12 | (10–14) | 12 | (10–13) | 12 | (10–13) | 12 | (11–13) | 12 | (10–14) | 12 | (11–14) | 12 | (10–14) |
LS | 75 | 79 | (70–86) | 79 | (73–86) | 79 | (73–83) | 77 | (76–86) | 76 | (70–84) | 77 | (70–80) | 78 | (70–84) |
PDS | na | 31 | (26–37) | 34 | (29–37) | 34 | (29–37) | 34 | (30–37) | 31 | (26–35) | 32 | (30–35) | 31 | (26–34) |
TDS | 9 | 9 | (7–10) | 9 | (8–10) | 9 | (8–10) | 9 | (9–10) | 8 | (7–9) | 8 | (7–9) | 8 | (7–9) |
TAS | 7 | 8 | (6–9) | 8 | (7–9) | 8 | (7–9) | 8 | (8–9) | 7 | (6–8) | 7 | (6–8) | 8 | (6–8) |
TPS | 8 | 9 | (7–9) | 9 | (8–9) | 9 | (8–9) | 9 | (8–9) | 8 | (7–9) | 8 | (7–9) | 8 | (7–8) |
UGR | 11 | 13 | (9–17) | 13 | (9–17) | 13 | (9–15) | 14 | (11–17) | 13 | (11–16) | 13 | (11–16) | 13 | (12–14) |
LGR | 23 | 25 | (20–29) | 24 | (20–28) | 24 | (20–28) | 26 | (22–27) | 25 | (22–29) | 25 | (22–29) | 27 | (24–28) |
total GR | 34 | 38 | (32–44) | 38 | (32–44) | 37 | (32–42) | 38 | (33–44) | 40 | (35–42) | 38 | (35–42) | 40 | (37–42) |
Morphological and meristic data of C. alpinus
Morphological characters | C. alpinus | Both lakes | Lake Thun | Lake Brienz | |||||||||||
Lectotype | Non-types both sexes | Non-types | Non-types | ||||||||||||
N-total = 30 | N-total = 21 | N-females = 12 | N-males = 9 | N-total = 9 | N-females = 6 | N-males = 3 | |||||||||
Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | ||
SL (mm) | 283.0 | 266.1±56.4 | (147-364) | 288.3±45.1 | (210-364) | 299.6±37.3 | (267-364) | 273.3±52.2 | (210-352) | 214.3±46.0 | (147-290) | 240.1±27.9 | (213-290) | 162.7±23.3 | (147-190) |
Percentage of standard length | |||||||||||||||
PelvFB | 4.5 | 4.2±0.4 | (3.1-5.0) | 4.4±0.3 | (3.8-5) | 4.3±0.4 | (3.8-5.0) | 4.4±0.3 | (4.0-4.8) | 3.7±0.3 | (3.1-4.0) | 3.9±0.1 | (3.7-4.0) | 3.5±0.5 | (3.1-4.0) |
PelvFS | 4.7 | 6.1±0.8 | (4.7-7.6) | 5.9±0.7 | (4.7-7.2) | 5.9±0.7 | (4.8-6.6) | 5.9±0.8 | (4.7-7.2) | 6.7±0.5 | (5.9-7.6) | 6.8±0.5 | (6.0-7.6) | 6.5±0.6 | (5.9-7.1) |
PelvF | 18.1 | 16.7±1.1 | (14-18.2) | 16.6±0.9 | (14.7-18.2) | 16.2±0.9 | (14.7-17.3) | 17.2±0.6 | (16.3-18.2) | 16.9±1.5 | (14-18.1) | 16.9±1.6 | (14-18.1) | 16.8±1.4 | (15.2-18) |
PecFB | 3.7 | 3.3±0.3 | (2.5-3.7) | 3.4±0.3 | (2.8-3.7) | 3.4±0.3 | (2.8-3.7) | 3.3±0.2 | (3.0-3.5) | 3.0±0.3 | (2.5-3.5) | 3.0±0.3 | (2.5-3.5) | 3.1±0.3 | (2.8-3.3) |
PecF1 | 18.7 | 16.2±1.2 | (13.6-18.7) | 16.2±1.3 | (13.6-18.7) | 16.0±1.4 | (13.6-18.6) | 16.5±1.1 | (15.1-18.7) | 16.3±1.1 | (13.9-17.1) | 16.4±1.3 | (13.9-17.1) | 16.1±0.9 | (15.1-16.8) |
PecF2 | 19.7 | 17±1.1 | (14.4-19.7) | 17±1.1 | (15.3-19.7) | 16.8±1.1 | (15.3-19.1) | 17.3±1.1 | (15.8-19.7) | 16.9±1.2 | (14.4-17.7) | 17±1.3 | (14.4-17.7) | 16.7±1.1 | (15.5-17.6) |
DFB | 12.9 | 12.8±0.9 | (10.7-14.7) | 12.9±0.9 | (11.5-14.7) | 12.9±0.9 | (11.7-14.4) | 12.9±0.9 | (11.5-14.7) | 12.6±1.1 | (10.7-14.3) | 12.6±1.1 | (10.7-14.0) | 12.7±1.4 | (11.7-14.3) |
DFAe | na | 19.7±1.2 | (16.4-23.0) | 19.5±0.8 | (17.6-20.6) | 19.3±0.8 | (17.6-20.5) | 19.7±0.8 | (18.6-20.6) | 20.3±1.8 | (16.4-23.0) | 20.1±1.9 | (16.4-21.5) | 20.9±1.9 | (19.5-23.0) |
DFAd | 22.6 | 20.8±1.4 | (17.0-24.0) | 20.6±0.9 | (18.6-22.5) | 20.4±0.8 | (18.6-21.3) | 20.9±1.1 | (19.6-22.5) | 21.4±2.0 | (17.0-24.0) | 21.2±2.2 | (17.0-22.7) | 21.7±2.0 | (20.0-24.0) |
DFPe | 5.6 | 5.0±0.6 | (4.0-6.5) | 4.8±0.5 | (4-5.8) | 4.8±0.6 | (4.0-5.8) | 4.9±0.4 | (4.2-5.5) | 5.3±0.7 | (4.3-6.5) | 5.2±0.6 | (4.3-5.9) | 5.5±1.1 | (4.4-6.5) |
AFB | 12.5 | 12.4±0.9 | (9.8-14.2) | 12.5±0.9 | (10.3-14.2) | 12.3±0.9 | (10.3-14.0) | 12.8±0.8 | (11.1-14.2) | 12.1±1.0 | (9.8-13.3) | 12.1±1.1 | (9.8-12.9) | 12.2±1.0 | (11.4-13.3) |
AFAe | 14 | 12.3±0.9 | (9.8-13.8) | 12.2±0.7 | (10.5-13.3) | 11.9±0.7 | (10.5-12.7) | 12.5±0.7 | (10.9-13.3) | 12.5±1.3 | (9.8-13.8) | 12.6±1.4 | (9.8-13.8) | 12.4±1.3 | (11.2-13.7) |
AdFB | 4.8 | 4.4±0.6 | (3.4-5.5) | 4.3±0.6 | (3.4-5.5) | 4.3±0.6 | (3.5-5.5) | 4.2±0.5 | (3.4-4.7) | 4.7±0.5 | (3.8-5.4) | 4.6±0.5 | (3.8-5.1) | 4.9±0.5 | (4.5-5.4) |
CF | na | 24±1.4 | (19.1-26.3) | 24±1 | (21.9-26) | 23.8±0.7 | (22.7-24.8) | 24.3±1.2 | (21.9-26) | 24.1±2.2 | (19.1-26.3) | 24±2.6 | (19.1-26.3) | 24.3±1.5 | (22.9-25.9) |
CD | 8.8 | 8.1±0.5 | (6.7-8.9) | 8.2±0.4 | (7.6-8.9) | 8.1±0.3 | (7.6-8.6) | 8.3±0.4 | (7.8-8.9) | 7.8±0.6 | (6.7-8.6) | 7.8±0.6 | (6.7-8.6) | 7.8±0.8 | (7-8.4) |
CL | 12.6 | 12.6±0.8 | (11.2-14.4) | 12.6±0.9 | (11.2-14.4) | 12.5±0.8 | (11.2-13.6) | 12.9±0.9 | (11.8-14.4) | 12.5±0.9 | (11.3-13.9) | 12.5±0.8 | (11.3-13.6) | 12.5±1.2 | (11.5-13.9) |
PAdC | 18.4 | 17.7±1.1 | (15.3-19.5) | 17.8±1 | (15.7-19.4) | 17.8±1.1 | (15.7-19.4) | 17.8±1 | (16.2-19.4) | 17.6±1.3 | (15.3-19.5) | 17.3±1.4 | (15.3-19.5) | 18.3±1.1 | (17.2-19.3) |
DHL | 15.3 | 14.6±0.9 | (12.6-16.3) | 14.2±0.6 | (12.6-15.6) | 14.1±0.8 | (12.6-15.6) | 14.3±0.5 | (13.7-15.0) | 15.4±0.8 | (14.0-16.3) | 15.2±0.9 | (14.0-16.3) | 15.8±0.2 | (15.6-16.0) |
PreP | 53.6 | 51.5±2.3 | (42.7-55.2) | 51.9±1.8 | (48-55.2) | 51.8±1.8 | (49.3-55.2) | 52.1±1.9 | (48.0-54.5) | 50.5±3.1 | (42.7-53.0) | 50.1±3.8 | (42.7-53.0) | 51.4±0.7 | (50.6-51.9) |
PreA | 77.2 | 78.3±1.5 | (75.2-81.8) | 78.5±1.4 | (75.2-81.1) | 78.8±1.3 | (76.5-81.1) | 78.1±1.5 | (75.2-80.3) | 77.8±1.8 | (76.1-81.8) | 78.2±2.0 | (76.1-81.8) | 76.8±0.3 | (76.5-77.0) |
PreD | 45 | 47.8±2 | (39.9-50.3) | 48±1.5 | (45.5-50.3) | 48.3±1.5 | (45.5-50.3) | 47.6±1.7 | (45.6-50) | 47.3±3 | (39.9-50.2) | 47.1±3.6 | (39.9-50.2) | 47.8±1.6 | (46.3-49.5) |
BD | 27.6 | 26.5±2.7 | (19.9-31.8) | 27.5±1.9 | (24.5-31.8) | 28.2±2.0 | (25.2-31.8) | 26.5±1.4 | (24.5-28.8) | 24.2±2.9 | (19.9-27.0) | 24.8±2.8 | (19.9-27.0) | 23.1±3.3 | (20.5-26.8) |
PostD | 43.7 | 42.6±2 | (34.7-46) | 42.7±1.3 | (38.3-43.9) | 42.3±1.5 | (38.3-43.9) | 43.2±0.5 | (42.1-43.8) | 42.3±3.3 | (34.7-46) | 42.3±4.1 | (34.7-46) | 42.5±0.9 | (41.4-43) |
TL | 118 | 120.5±4.2 | (100-124.2) | 121±1.3 | (118.7-123.4) | 120.6±1.5 | (118.7-123.4) | 121.5±0.7 | (120.8-122.8) | 119.2±7.5 | (100-124.2) | 118.6±9.3 | (100-124.2) | 120.5±1.7 | (118.9-122.4) |
HL (mm) | 58.6 | 54.2±10.6 | (31.1-73.1) | 58.3±8.6 | (41.9-73.1) | 60.2±6.8 | (53-73.1) | 55.7±10.4 | (41.9-72.2) | 44.6±8.7 | (31.1-58.3) | 49.5±4.7 | (45.7-58.3) | 34.9±6 | (31.1-41.8) |
Percentage of head length | |||||||||||||||
SN | 22.2 | 23.1 ± 1.6 | (20.1-26.4) | 23.5 ± 1.5 | (20.9-26.4) | 23.7 ± 1.5 | (21.4-26.4) | 23.2 ± 1.5 | (20.9-25.3) | 22.4 ± 1.6 | (20.1-25) | 22.8 ± 1.7 | (20.3-25) | 21.7 ± 1.4 | (20.1-22.7) |
ED | 22.1 | 22.5 ± 2 | (19.5-27.2) | 21.7 ± 1.5 | (19.5-26.1) | 21.3 ± 1.1 | (19.5-22.9) | 22.3 ± 2 | (19.8-26.1) | 24.3 ± 1.7 | (21.8-27.2) | 23.3 ± 1.1 | (21.8-24.9) | 26.1 ± 1 | (25.4-27.2) |
EC | 28.9 | 27.4 ± 1.7 | (24.5-31.5) | 26.7 ± 1.2 | (24.5-29) | 26.6 ± 1 | (24.9-28.3) | 26.9 ± 1.4 | (24.5-29) | 29 ± 1.9 | (26.4-31.5) | 28.1 ± 1.7 | (26.4-30.6) | 30.6 ± 0.8 | (29.9-31.5) |
Morphological characters | C. alpinus | Both lakes | Lake Thun | Lake Brienz | |||||||||||
Lectotype | Non-types both sexes | Non-types | Non-types | ||||||||||||
N-total = 30 | N-total = 21 | N-females = 12 | N-males = 9 | N-total = 9 | N-females = 6 | N-males = 3 | |||||||||
Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | ||
EH | 23.7 | 22.2 ± 1.8 | (19.1-27.1) | 21.4 ± 1.4 | (19.1-23.6) | 21.1 ± 1.2 | (19.1-23) | 21.9 ± 1.6 | (19.6-23.6) | 23.9 ± 1.5 | (22.4-27.1) | 23.3 ± 0.9 | (22.4-24.6) | 25.1 ± 2 | (23.2-27.1) |
ES | 5.7 | 5.0 ± 0.8 | (3.3-6.3) | 5.1 ± 0.8 | (3.4-6.3) | 5.0 ± 0.7 | (3.7-6.0) | 5.2 ± 0.9 | (3.4-6.3) | 4.7 ± 0.8 | (3.3-5.8) | 4.6 ± 0.9 | (3.3-5.5) | 4.9 ± 0.8 | (4.3-5.8) |
PostO | 51.2 | 52.4 ± 1.5 | (48.9-55.4) | 52.6 ± 1.2 | (50.2-55.4) | 52.5 ± 1.3 | (50.8-55.4) | 52.8 ± 1.2 | (50.2-54.4) | 51.7 ± 1.9 | (48.9-54.8) | 52.2 ± 1.5 | (50.7-54.8) | 50.8 ± 2.6 | (48.9-53.8) |
HD | 71.7 | 71 ± 3.7 | (65.5-79.6) | 71.6 ± 4 | (65.6-79.6) | 71.5 ± 4.6 | (65.6-79.6) | 71.8 ± 3.4 | (67.9-76.7) | 69.4 ± 2.5 | (65.5-73.2) | 69.7 ± 2.7 | (65.5-73.2) | 68.7 ± 2.3 | (66.3-70.8) |
MW | 8.9 | 9.4 ± 0.5 | (8.4-10.4) | 9.4 ± 0.5 | (8.4-10.4) | 9.3 ± 0.6 | (8.4-10.4) | 9.4 ± 0.6 | (8.8-10.2) | 9.5 ± 0.5 | (8.7-10.2) | 9.6 ± 0.5 | (9.2-10.2) | 9.3 ± 0.5 | (8.7-9.7) |
UJ | 27.8 | 27.4 ± 1.5 | (24.3-30.1) | 27.7 ± 1.5 | (24.3-30.1) | 27.2 ± 1.5 | (24.3-29.4) | 28.4 ± 1.3 | (26.5-30.1) | 26.8 ± 1.3 | (25.4-29.1) | 26.5 ± 1 | (25.6-28.2) | 27.3 ± 1.8 | (25.4-29.1) |
LJ | 38.2 | 38.4 ± 1.7 | (33.8-41.4) | 38.6 ± 1.7 | (36.6-41.4) | 38.5 ± 1.8 | (36.6-41.4) | 38.7 ± 1.6 | (37-41.2) | 38.2 ± 1.8 | (33.8-39.4) | 38 ± 2.1 | (33.8-39.2) | 38.5 ± 1.3 | (36.9-39.4) |
M | 22.5 | 20 ± 1.2 | (16.6-22.5) | 20 ± 1.1 | (17.7-22.1) | 19.7 ± 0.9 | (18.4-21) | 20.3 ± 1.3 | (17.7-22.1) | 20 ± 1.6 | (16.6-22.5) | 19.6 ± 1.6 | (16.6-21.1) | 20.8 ± 1.5 | (19.5-22.5) |
SD | 9.9 | 10.1 ± 1.4 | (7.2-12.9) | 10.5 ± 1.3 | (8.5-12.9) | 10.5 ± 1.4 | (8.5-12.9) | 10.6 ± 1.2 | (8.7-12.2) | 9.2 ± 1.1 | (7.2-10.5) | 9.2 ± 0.8 | (7.9-10) | 9.3 ± 1.9 | (7.2-10.5) |
SW | 13.8 | 15.6 ± 1.1 | (13.7-17.6) | 15.6 ± 1.2 | (13.7-17.6) | 15.7 ± 1.1 | (14.1-17.6) | 15.5 ± 1.4 | (13.7-17.2) | 15.7 ± 0.9 | (14.6-17.6) | 15.6 ± 0.8 | (14.6-16.7) | 16 ± 1.3 | (15.3-17.6) |
HW | 47.1 | 50 ± 4.5 | (39.2-59.5) | 51.3 ± 4.1 | (44.2-59.5) | 51.5 ± 5 | (44.2-59.5) | 51 ± 2.8 | (46.3-55.9) | 46.9 ± 4 | (39.2-52.3) | 47.4 ± 5 | (39.2-52.3) | 45.8 ± 0.4 | (45.4-46.1) |
IOW | 24.5 | 27.7 ± 2.2 | (22.4-32.5) | 28.3 ± 2.3 | (22.4-32.5) | 28 ± 2.4 | (22.4-32.4) | 28.7 ± 2.3 | (24.9-32.5) | 26.5 ± 1.2 | (24.9-28) | 26.5 ± 1.4 | (24.9-28) | 26.6 ± 1 | (25.5-27.4) |
INW | 10.7 | 11.7 ± 1 | (9.5-14.1) | 12.1 ± 1 | (10.5-14.1) | 12 ± 1.1 | (10.5-14.1) | 12.1 ± 0.9 | (10.7-14) | 11 ± 0.7 | (9.5-11.9) | 10.9 ± 0.9 | (9.5-11.9) | 11.2 ± 0.4 | (10.9-11.6) |
LJW | 10.3 | 11.1 ± 2.2 | (7.3-15.7) | 12.1 ± 1.7 | (10.1-15.7) | 11.9 ± 1.8 | (10.1-15.4) | 12.4 ± 1.6 | (10.5-15.7) | 8.8 ± 1.2 | (7.3-10.6) | 9 ± 1.2 | (7.5-10.6) | 8.5 ± 1.4 | (7.3-10.1) |
UJW | 19.8 | 23.2 ± 2.2 | (18.4-27.2) | 23.5 ± 2.2 | (19.9-27.2) | 23 ± 2.5 | (19.9-27.2) | 24.1 ± 1.6 | (21.9-26.5) | 22.8 ± 2.2 | (18.4-25.6) | 23.7 ± 1.6 | (21.4-25.6) | 20.9 ± 2.2 | (18.4-22.8) |
MGR | 10.6 | 10.9 ± 1.4 | (8.3-15.2) | 11.3 ± 1.4 | (9.3-15.2) | 11.3 ± 1.4 | (9.3-15.2) | 11.3 ± 1.4 | (9.5-13.2) | 9.8 ± 1 | (8.3-11.2) | 9.9 ± 1.1 | (8.3-11.2) | 9.7 ± 0.8 | (8.7-10.2) |
LGR | 11.5 | 11.9 ± 1.2 | (10-15.2) | 12.3 ± 1.1 | (10.6-15.2) | 12.2 ± 1.2 | (10.6-15.2) | 12.5 ± 1 | (11.3-14.1) | 10.8 ± 0.7 | (10-12.3) | 10.9 ± 0.8 | (10-12.3) | 10.6 ± 0.6 | (10-11.2) |
UA | na | 18.5 ± 1.4 | (15.6-21.5) | 18.4 ± 1.3 | (15.6-20.7) | 18.6 ± 1.5 | (15.6-20.7) | 18.2 ± 1.1 | (16.1-19.7) | 18.7 ± 1.7 | (16.4-21.5) | 18.2 ± 1.4 | (16.4-20) | 19.8 ± 1.7 | (18-21.5) |
LA | 35 | 33.9 ± 2.1 | (28.6-38.8) | 33.5 ± 1.8 | (28.6-36.3) | 34.1 ± 1.5 | (30.9-36.3) | 32.7 ± 1.9 | (28.6-35) | 34.7 ± 2.7 | (30.4-38.8) | 34.5 ± 2.7 | (30.4-38.2) | 35.1 ± 3.2 | (32.8-38.8) |
Meristic characters | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | |
PelvF unbranched | 1 | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) |
PelvF branched | 11 | 11 | (10-11) | 11 | (10-11) | 11 | (10-11) | 11 | (10-11) | 10 | (10-11) | 10 | (10-11) | 11 | (10-11) |
PecF unbranched | 1 | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) |
PecF branched | 16 | 15 | (14-17) | 15 | (14-17) | 15 | (14-17) | 16 | (14-16) | 15 | (15-17) | 15 | (15-16) | na | (15-17) |
DF unbranched | 3 | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (4-4) |
DF branched | 11 | 11 | (10-13) | 11 | (10-13) | 11 | (10-13) | 11 | (10-12) | 11 | (10-11) | 11 | (10-11) | 11 | (11-11) |
AF unbranched | 3 | 3 | (3-4) | 3 | (3-4) | 3 | (3-3) | 3 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) |
Meristic characters | C. alpinus | Both lakes | Lake Thun | Lake Brienz | |||||||||||
Lectotype | Non-types both sexes | Non-types | Non-types | ||||||||||||
N-total = 30 | N-total = 21 | N-females = 12 | N-males = 9 | N-total = 9 | N-females = 6 | N-males = 3 | |||||||||
Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | ||
AF branched | 12 | 12 | (10-14) | 12 | (10-14) | 12 | (10-14) | 12 | (10-13) | 11 | (11-13) | 12 | (11-13) | 11 | (11-11) |
LS | 82 | 84 | (77-93) | 81 | (77-93) | 84 | (77-93) | 80 | (78-84) | 84 | (80-88) | 86 | (80-88) | na | (81-84) |
PDS | 39 | 36 | (32-42) | 36 | (32-42) | 36 | (32-42) | 33 | (33-38) | 33 | (32-42) | na | (33-42) | na | (32-37) |
TDS | 10 | 10 | (8-11) | 10 | (9-11) | 10 | (9-11) | 10 | (9-11) | 10 | (8-10) | 10 | (8-10) | 9 | (9-10) |
TAS | 8 | 8 | (7-9) | 8 | (8-9) | 8 | (8-9) | 8 | (8-9) | 8 | (7-8) | 8 | (7-8) | 8 | (7-8) |
TPS | 8 | 8 | (7-9) | 9 | (8-9) | 9 | (8-9) | 8 | (8-9) | 8 | (7-8) | 8 | (8-8) | 8 | (7-8) |
UGR | 10 | 10 | (8-11) | 10 | (8-11) | 10 | (9-11) | 11 | (8-11) | 9 | (9-11) | 9 | (9-11) | na | (9-11) |
LGR | 18 | 19 | (15-23) | 19 | (16-23) | 19 | (16-21) | 20 | (17-23) | 18 | (15-21) | 17 | (17-21) | na | (15-19) |
total GR | 28 | 29 | (25-34) | 30 | (25-34) | 28 | (26-32) | 30 | (25-34) | 28 | (26-30) | 29 | (27-30) | 28 | (26-28) |
Coregonus alpinus , lakes Thun and Brienz, Switzerland A lectotype, MHNG-717.045, Lake Thun, 283 mm SL, sex unknown B close-up of head of lectotype MHNG-717.045 C non-type, NMBE-1077246, Lake Thun, 251.5 mm SL, male, freshly caught specimen D non-type, NMBE-1077115, Lake Brienz, 253 mm SL, female, frozen and defrosted specimen. The white scale (1cm) below each fish acts as a reference for the actual size of the specimen.
Morphological and meristic data of C. fatioi Kottelat, 1997 from lakes Thun and Brienz, MHNG-809.059 lectotype from Lake Thun; non-type material N = 30 from Lake Thun and N = 30 from Lake Brienz.
Morphological characters | C. fatioi | Both lakes | Lake Thun | Lake Brienz | |||||||||||
Lectotype | Non-types both sexes | Non-types | Non-types | ||||||||||||
Ntotal = 60 | Ntotal = 30 | Nfemales = 17 | Nmales = 13 | Ntotal = 30 | Nfemales = 12 | Nmales = 18 | |||||||||
Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | Mean ± StDev | Range | ||
SL (mm) | 154.5 | 207.5±35.2 | (132-288) | 230.2±21.2 | (191-288) | 226.6±14.3 | (191-245) | 234.9±27.8 | (202-288) | 184.8±31.7 | (132-244) | 195.9±29.7 | (141-244) | 177.3±31.6 | (132-225) |
Percentage of standard length | |||||||||||||||
PelvFB | 3.6 | 3.8±0.4 | (3.1-4.8) | 4.0±0.4 | (3.2-4.8) | 3.9±0.3 | (3.3-4.4) | 4.0±0.4 | (3.2-4.8) | 3.7±0.4 | (3.1-4.6) | 3.7±0.3 | (3.1-4.1) | 3.7±0.4 | (3.2-4.6) |
PelvFS | 5.4 | 6.2±0.8 | (3.9-8.0) | 6.2±0.9 | (3.9-8.0) | 6.3±0.8 | (4.6-7.4) | 6.1±1.0 | (3.9-8.0) | 6.2±0.8 | (3.9-7.4) | 6.2±0.8 | (3.9-7.0) | 6.2±0.9 | (3.9-7.4) |
PelvF | 17.4 | 16.1±1 | (13.7-19.3) | 16.4±1.2 | (13.7-19.3) | 16.6±1 | (15.1-19.3) | 16.1±1.4 | (13.7-18.6) | 15.8±0.8 | (14.6-17.4) | 15.8±0.7 | (14.7-17.1) | 15.9±0.8 | (14.6-17.4) |
PecFB | 3.1 | 3.2±0.3 | (2.7-3.8) | 3.3±0.3 | (2.8-3.8) | 3.2±0.3 | (2.8-3.7) | 3.4±0.3 | (2.9-3.8) | 3.1±0.2 | (2.7-3.4) | 3.0±0.2 | (2.7-3.4) | 3.1±0.2 | (2.7-3.4) |
PecF1 | 17.8 | 16.2±1.3 | (13.3-18.9) | 16.5±1.4 | (13.3-18.9) | 16.8±1.2 | (14.7-18.9) | 16.1±1.5 | (13.3-18.4) | 16.0±1.1 | (14.1-18.7) | 15.8±1.0 | (14.2-17.3) | 16.0±1.2 | (14.1-18.7) |
PecF2 | 18.4 | 17.2±1.4 | (13.8-20.6) | 17.7±1.5 | (13.8-20.6) | 18±1.4 | (15.5-20.6) | 17.2±1.7 | (13.8-19.8) | 16.8±1.1 | (14.9-19.7) | 16.5±0.9 | (14.9-17.9) | 17±1.2 | (15.3-19.7) |
DFB | 11.4 | 11.9±0.7 | (10.3-13.3) | 11.8±0.7 | (10.3-13.1) | 11.6±0.7 | (10.3-12.9) | 12.0±0.6 | (11.2-13.1) | 12.0±0.7 | (10.3-13.3) | 12.0±0.4 | (11.3-12.6) | 12.0±0.9 | (10.3-13.3) |
DFAe | na | 17.9±1.3 | (15.4-21.9) | 18.0±1.4 | (15.4-21.9) | 18.4±1.4 | (15.4-21.9) | 17.4±1.2 | (15.8-19.8) | 17.8±1.1 | (15.7-20.0) | 17.6±1.0 | (15.7-19.4) | 18.0±1.2 | (16.5-20.0) |
DFAd | 19.1 | 19.1±1.3 | (16.7-23.5) | 19.3±1.4 | (16.7-23.5) | 19.7±1.4 | (16.7-23.5) | 18.8±1.3 | (17.0-21.3) | 18.8±1.1 | (17.1-21.1) | 18.8±0.9 | (17.1-20.3) | 18.8±1.3 | (17.1-21.1) |
DFPe | 6.3 | 5.1±0.6 | (3.9-7.0) | 5.0±0.7 | (3.9-6.9) | 5.1±0.7 | (3.9-6.9) | 4.8±0.7 | (4.1-6.3) | 5.3±0.5 | (4.3-7.0) | 5.3±0.5 | (4.7-6.3) | 5.3±0.6 | (4.3-7.0) |
AFB | 12.1 | 12.3±0.9 | (10.6-15.1) | 12.6±1.0 | (10.7-15.1) | 12.5±1.0 | (10.7-14.0) | 12.8±1.1 | (11.7-15.1) | 11.9±0.8 | (10.6-13.3) | 12.0±0.6 | (11.4-13.0) | 11.9±0.8 | (10.6-13.3) |
AFAe | na | 11.5±0.9 | (9.8-13.9) | 11.9±0.9 | (10.2-13.9) | 12.1±0.9 | (10.5-13.9) | 11.7±1.0 | (10.2-13.3) | 11.1±0.6 | (9.8-12.7) | 11.0±0.5 | (9.8-11.9) | 11.1±0.7 | (10.2-12.7) |
AdFB | 5.7 | 5.5±0.8 | (4.0-8.1) | 5.6±0.7 | (4.6-8.1) | 5.7±0.7 | (4.8-8.1) | 5.4±0.6 | (4.6-6.9) | 5.5±0.8 | (4.0-7.7) | 5.5±0.7 | (4.3-6.7) | 5.5±0.9 | (4.0-7.7) |
CF | na | 23.8±1.3 | (19.6-27.2) | 23.6±1.3 | (19.6-26.6) | 23.9±1.1 | (22.1-26.4) | 23.3±1.6 | (19.6-26.6) | 24±1.2 | (22.4-27.2) | 23.8±1.3 | (22.4-27.2) | 24.1±1.1 | (22.7-26.4) |
CD | 7.7 | 7.2±0.3 | (6.7-8.5) | 7.1±0.3 | (6.7-8.5) | 7.1±0.4 | (6.7-8.5) | 7.2±0.2 | (6.9-7.7) | 7.3±0.3 | (6.8-8) | 7.3±0.3 | (6.8-7.8) | 7.4±0.3 | (6.9-8) |
CL | 13.9 | 13.7±0.9 | (11.5-16.1) | 13.3±0.8 | (11.5-14.7) | 13.1±0.8 | (11.5-14.7) | 13.5±0.6 | (12.6-14.6) | 14.2±0.8 | (13.1-16.1) | 13.9±0.7 | (13.1-15.5) | 14.3±0.8 | (13.2-16.1) |
PAdC | 19.1 | 18.9±1 | (16.8-22.2) | 18.8±1 | (16.8-22.2) | 18.6±1.1 | (16.8-22.2) | 19±0.8 | (17.8-20) | 19±1.1 | (16.9-20.8) | 18.7±1.1 | (16.9-20.4) | 19.1±1.1 | (17.2-20.8) |
DHL | 15.9 | 15.2±0.8 | (13.6-16.8) | 14.8±0.7 | (13.6-16.2) | 14.9±0.6 | (13.9-16.1) | 14.6±0.9 | (13.6-16.2) | 15.7±0.7 | (14.5-16.8) | 15.4±0.8 | (14.5-16.8) | 15.8±0.6 | (14.7-16.7) |
PreP | 52.1 | 52.0±1.5 | (47.5-55.5) | 51.8±1.7 | (47.5-55.1) | 52.2±1.7 | (47.5-55.1) | 51.3±1.6 | (48.5-53.8) | 52.1±1.3 | (48.8-55.5) | 52.7±1.4 | (51.3-55.5) | 51.8±1.1 | (48.8-53.9) |
PreA | 78.8 | 77.0±1.3 | (74.4-80.2) | 76.9±1.5 | (74.4-80.2) | 77.4±1.6 | (74.7-80.2) | 76.3±1.1 | (74.4-78.1) | 77.1±1.0 | (75.2-79.2) | 77.4±0.9 | (76.4-79.2) | 76.8±1.0 | (75.2-78.6) |
PreD | 48.4 | 46.8±1.3 | (41.5-49.1) | 46.8±1.5 | (41.5-49.1) | 46.5±1.7 | (41.5-48.8) | 47.2±1.1 | (44.8-49.1) | 46.8±1 | (43.4-49) | 46.7±1.4 | (43.4-49) | 46.9±0.7 | (45.9-48) |
BD | 24.9 | 24.4±1.4 | (22.1-28.1) | 24.9±1.4 | (22.7-28.1) | 25.3±1.3 | (23.2-28.1) | 24.4±1.4 | (22.7-28.1) | 23.9±1.2 | (22.1-26.2) | 24.7±1.1 | (22.4-26.2) | 23.4±0.9 | (22.1-24.9) |
PostD | 45.4 | 44.5±1.4 | (41.6-50.7) | 44.9±1.7 | (41.6-50.7) | 44.5±2 | (41.6-50.7) | 45.3±1.2 | (43.4-47.1) | 44.2±0.9 | (42.5-45.8) | 44±0.8 | (42.5-45.6) | 44.3±1 | (42.5-45.8) |
TL | na | 121.1±1.8 | (117.3-126) | 120.7±1.9 | (117.3-124.2) | 121.3±1.7 | (117.3-124) | 120±1.9 | (117.4-124.2) | 121.5±1.8 | (118.8-126) | 121.3±2.1 | (119-126) | 121.6±1.5 | (118.8-124.2) |
HL (mm) | 35.1 | 43.5±6.5 | (27.9-55.9) | 47.5±3.4 | (42-55.9) | 47.4±2.8 | (42.6-50.9) | 47.7±4.2 | (42-55.9) | 39.5±6.3 | (27.9-48.8) | 41.3±5.1 | (31.4-48.2) | 38.3±6.9 | (27.9-48.8) |
Percentage of head length | |||||||||||||||
SN | 19.9 | 23.6±1.9 | (18.2-27) | 24.3±1.6 | (18.2-27) | 24.2±2 | (18.2-27) | 24.5±1.1 | (23-26.5) | 22.8±1.9 | (18.5-26.4) | 23.2±1.4 | (21.4-25.5) | 22.5±2.2 | (18.5-26.4) |
ED | 25.8 | 23.6±2 | (19.9-27.6) | 22.4±1.4 | (19.9-25.9) | 22.8±1.3 | (20.9-25.9) | 22±1.5 | (19.9-24.7) | 24.8±1.7 | (21.2-27.6) | 24.9±1 | (22.9-26.6) | 24.8±2.1 | (21.2-27.6) |
EC | 31.8 | 27.6±2.2 | (23.2-33) | 26.3±1.6 | (23.2-29) | 26.6±1.5 | (23.6-29) | 25.9±1.7 | (23.2-28.6) | 29±1.9 | (25.3-33) | 29.1±0.9 | (27.5-30.6) | 28.9±2.4 | (25.3-33) |
EH | 25.8 | 23.4±1.6 | (19.7-26.3) | 22.4±1.3 | (19.7-25.3) | 22.6±1.2 | (20.8-25.3) | 22.1±1.4 | (19.7-25) | 24.4±1.3 | (22.1-26.3) | 24.4±1.2 | (22.8-26.2) | 24.4±1.4 | (22.1-26.3) |
ES | 3.6 | 4.3±1.2 | (1.7-6.8) | 3.6±1.1 | (1.7-5.9) | 3.3±0.9 | (1.7-5.2) | 4.1±1.1 | (2.1-5.9) | 4.9±0.9 | (3.4-6.8) | 4.9±0.8 | (4.0-6.8) | 4.9±1.1 | (3.4-6.5) |
PostO | 49.8 | 51.3±1.8 | (46.8-54.8) | 52.2±1.4 | (48.7-54.8) | 52±1.6 | (48.7-54.1) | 52.5±1.1 | (51.4-54.8) | 50.5±1.7 | (46.8-54) | 50.7±1 | (49.8-53) | 50.3±2.1 | (46.8-54) |
HD | 68.3 | 69.6±3.1 | (63.6-78.6) | 70.7±3.3 | (65.5-78.6) | 70.6±3.7 | (65.5-78.6) | 70.8±2.7 | (66.3-74.8) | 68.5±2.6 | (63.6-73.2) | 68.8±2.8 | (65.7-73.2) | 68.3±2.5 | (63.6-72.2) |
MW | 11.5 | 10.1±0.8 | (8.2-12.1) | 10±0.9 | (8.2-12.1) | 10.1±0.9 | (8.5-12.1) | 9.8±0.9 | (8.2-11) | 10.1±0.8 | (8.5-11.4) | 10±0.9 | (8.5-11.4) | 10.2±0.8 | (8.6-11.4) |
UJ | 30.5 | 30±1.4 | (27.6-34.1) | 30.5±1.5 | (28-34.1) | 30.8±1.6 | (28-34.1) | 30.2±1.3 | (28.2-33.1) | 29.5±1.3 | (27.6-32) | 29.4±1.2 | (28.1-31.2) | 29.6±1.3 | (27.6-32) |
LJ | 38.4 | 41.6±2.6 | (36.9-48.4) | 40.7±2.1 | (36.9-46.1) | 41.3±2.1 | (37.4-46.1) | 39.8±1.8 | (36.9-42.3) | 42.6±2.6 | (37.6-48.4) | 43.1±2.3 | (40.6-47.8) | 42.2±2.9 | (37.6-48.4) |
M | 26.6 | 21.8±1.3 | (18.5-25.6) | 21.8±1.6 | (18.5-25.6) | 22.1±1.4 | (19.8-25.6) | 21.5±1.7 | (18.5-25.1) | 21.7±1 | (18.7-24.2) | 22±0.8 | (21-23.8) | 21.5±1.1 | (18.7-24.2) |
SD | 8.1 | 9.3±1.2 | (6.7-12.4) | 9.5±1.2 | (6.7-12.4) | 9±1 | (6.7-10.5) | 10.1±1.1 | (8.7-12.4) | 9±1.1 | (6.7-10.9) | 9.4±1.2 | (6.9-10.9) | 8.8±1 | (6.7-10.4) |
SW | 15 | 17.7±1.3 | (14.7-20.4) | 17.5±1.3 | (14.7-20.4) | 17.6±1.5 | (14.7-20.4) | 17.5±1.1 | (16-19.6) | 17.8±1.3 | (14.7-19.7) | 17.4±1.6 | (14.7-19.7) | 18±1.1 | (15.8-19.7) |
HW | 45.2 | 49.8±3.1 | (42.3-57.2) | 51.1±3 | (45.8-56.6) | 51.5±3.4 | (45.8-56.6) | 50.6±2.3 | (47.8-54.1) | 48.5±2.7 | (42.3-57.2) | 48.8±3.5 | (42.3-57.2) | 48.3±2 | (44.8-52.8) |
IOW | 24.5 | 27±1.5 | (22.8-31.5) | 27.7±1.6 | (23.6-31.5) | 27.2±1.4 | (23.6-29.7) | 28.3±1.6 | (25.4-31.5) | 26.4±1.1 | (22.8-28.8) | 26.6±0.9 | (25.4-28.8) | 26.2±1.3 | (22.8-28.5) |
INW | 10.9 | 11.5±1.1 | (9.2-13.5) | 11.7±1 | (9.8-13.5) | 11.6±1.1 | (9.8-13.3) | 11.8±0.9 | (10.6-13.5) | 11.4±1.2 | (9.2-13.5) | 11.2±1 | (10.1-13.3) | 11.5±1.3 | (9.2-13.5) |
LJW | 14.7 | 12±1.9 | (7.9-16) | 12.4±2.3 | (7.9-16) | 12.5±2.2 | (7.9-15.8) | 12.4±2.5 | (7.9-16) | 11.6±1.2 | (8.6-13.3) | 11.4±1.3 | (8.7-13.3) | 11.8±1.2 | (8.6-13.2) |
UJW | 23.7 | 24±1.8 | (20.3-30.3) | 24.7±1.8 | (21-30.3) | 25.2±2 | (21-30.3) | 24.1±1.3 | (22.1-26.8) | 23.4±1.5 | (20.3-26.5) | 23.1±1.7 | (20.3-26.5) | 23.5±1.5 | (21-26) |
MGR | 14.3 | 14.5±2 | (10.5-21.3) | 15.8±1.9 | (12.5-21.3) | 16.3±1.8 | (13.9-21.3) | 15±1.8 | (12.5-19.6) | 13.2±1.2 | (10.5-15) | 13±1 | (11.5-14.4) | 13.3±1.4 | (10.5-15) |
LGR | 14.9 | 15.6±2.1 | (12.3-22.6) | 16.9±2 | (12.8-22.6) | 17.5±1.9 | (15.4-22.6) | 16.1±1.9 | (12.8-19.6) | 14.3±1.1 | (12.3-16.4) | 14.3±0.9 | (12.7-15.5) | 14.3±1.2 | (12.3-16.4) |
UA | 19 | 18.6±1.5 | (15.7-22.6) | 19.1±1.6 | (16.1-22.6) | 18.6±1.4 | (16.1-21.2) | 19.7±1.7 | (17.3-22.6) | 18.2±1.1 | (15.7-20.1) | 18±0.8 | (16.7-19.4) | 18.4±1.3 | (15.7-20.1) |
LA | 35.3 | 35.8±1.8 | (32.5-41.3) | 35.9±1.7 | (32.5-41.3) | 36.1±1.4 | (34-38.6) | 35.7±2.1 | (32.5-41.3) | 35.7±1.9 | (32.9-39.8) | 35.7±1.2 | (33.4-37.3) | 35.8±2.3 | (32.9-39.8) |
Meristic characters | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | Mode | Range | |
PelvF unbranched | 1 | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) |
PelvF branched | 11 | 10 | (9-11) | 10 | (9-11) | 10 | (9-11) | 10 | (9-11) | 10 | (9-11) | 10 | (10-11) | 10 | (9-11) |
PecF unbranched | 1 | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) |
PecF branched | 16 | 16 | (14-17) | 16 | (14-17) | 16 | (14-17) | 16 | (15-17) | 16 | (14-17) | 16 | (14-17) | 16 | (14-17) |
DF unbranched | 4 | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) |
DF branched | 10 | 10 | (10-13) | 10 | (10-11) | 10 | (10-11) | 10 | (10-11) | 11 | (10-13) | 11 | (10-12) | 11 | (10-13) |
AF unbranched | 3 | 3 | (2-5) | 3 | (2-4) | 3 | (2-4) | 2 | (2-4) | 4 | (3-5) | 3 | (3-5) | 4 | (3-4) |
AF branched | 12 | 12 | (10-14) | 12 | (10-14) | 12 | (11-14) | 12 | (10-14) | 12 | (11-13) | 12 | (11-13) | 12 | (11-13) |
LS | 82 | 86 | (78-93) | 86 | (78-93) | 85 | (78-86) | 86 | (78-93) | 86 | (79-92) | 86 | (81-92) | 86 | (79-91) |
PDS | 32 | 36 | (30-44) | 32 | (30-44) | 36 | (30-40) | 38 | (31-44) | 34 | (30-40) | 34 | (30-38) | 34 | (33-40) |
TDS | 10 | 9 | (8-11) | 9 | (8-11) | 9 | (9-10) | 10 | (8-11) | 10 | (9-10) | 10 | (9-10) | 10 | (9-10) |
TAS | 7 | 8 | (7-10) | 8 | (7-9) | 8 | (7-9) | 8 | (7-9) | 8 | (7-9) | 8 | (8-9) | 8 | (7-9) |
TPS | 8 | 9 | (7-10) | 9 | (7-9) | 9 | (8-9) | 9 | (7-9) | 9 | (8-9) | 9 | (8-9) | 9 | (8-9) |
UGR | 11 | 12 | (10-16) | 14 | (10-16) | 14 | (12-16) | 14 | (10-15) | 12 | (11-15) | 12 | (11-14) | 12 | (11-15) |
LGR | 22 | 24 | (19-27) | 24 | (22-27) | 24 | (22-27) | 24 | (22-26) | 22 | (19-27) | 22 | (22-26) | 24 | (19-27) |
total GR | 33 | 38 | (32-43) | 38 | (32-43) | 38 | (34-43) | 38 | (32-40) | 35 | (32-40) | 37 | (33-38) | 39 | (32-40) |
Coregonus fatioi , lakes Thun and Brienz, Switzerland A, B lectotype, MHNG-809.059, Lake Thun, 154.5 mm SL, sex unknown, left and right side of the specimen C non-type, NMBE-1077139, Lake Thun, 240 mm SL, male, freshly caught specimen D non-type, NMBE-1077317, Lake Brienz, 202 mm SL, male, frozen and defrosted specimen. The white scale (1 cm) below each fish acts as a reference for the actual size of the specimen.
Morphological and meristic data of C. steinmanni from Lake Thun, Switzerland, NMBE-1077219, female, holotype from Lake Thun; paratypes N = 12. For females and for both sexes the range and mean include the holotype.
Morphological characters | C. steinmanni | Lake Thun | |||||
Holotype | Both sexes | ||||||
N-total = 12 | N-females = 3 | N-males = 9 | |||||
Mean ± Stdev | Range | Mean ± Stdev | Range | Mean ± Stdev | Range | ||
SL (mm) | 301 | 275.3±29.4 | (211-323) | 276.5±36.9 | (234-301) | 274.9±29.2 | (211-323) |
Percentage of standard length | |||||||
PelvFB | 4.0 | 4.4±0.3 | (4.0-4.8) | 4.1±0.2 | (4.0-4.3) | 4.5±0.3 | (4.1-4.8) |
PelvFS | 5.7 | 6.2±0.5 | (5.3-6.9) | 6.2±0.4 | (5.7-6.5) | 6.2±0.6 | (5.3-6.9) |
PelvF | 15.3 | 16.5±1.1 | (14.6-18.3) | 16.1±1.1 | (15.3-17.4) | 16.6±1.1 | (14.6-18.3) |
PecFB | 3.2 | 3.4±0.3 | (3.1-3.8) | 3.2±0.2 | (3.1-3.4) | 3.4±0.3 | (3.1-3.8) |
PecF1 | 14.7 | 16.2±1.3 | (13.9-18.2) | 15.8±1.1 | (14.7-16.9) | 16.4±1.4 | (13.9-18.2) |
PecF2 | 15.2 | 17±1.3 | (15.2-19.1) | 16.2±1 | (15.2-17.2) | 17.3±1.3 | (15.5-19.1) |
DFB | 11.4 | 12.6±0.8 | (11.4-13.8) | 12.4±1.2 | (11.4-13.7) | 12.6±0.7 | (11.7-13.8) |
DFAe | 16.2 | 18.8±1.7 | (16.2-21.2) | 18.4±2.3 | (16.2-20.9) | 19.0±1.6 | (16.2-21.2) |
DFAd | 17.8 | 20.1±1.6 | (17.5-22.4) | 20.0±2.3 | (17.8-22.4) | 20.2±1.4 | (17.5-22.1) |
DFPe | 4.8 | 4.8±0.7 | (3.9-6.3) | 4.6±0.2 | (4.4-4.8) | 4.9±0.7 | (3.9-6.3) |
AFB | 12.1 | 12.6±0.8 | (11.5-14.2) | 12.6±0.5 | (12.1-13.0) | 12.6±0.9 | (11.5-14.2) |
AFAe | 11.2 | 12.4±1.0 | (10.8-13.7) | 12.3±1.3 | (11.2-13.7) | 12.4±0.9 | (10.8-13.5) |
AdFB | 5 | 4.5±0.6 | (3.7-5.4) | 4.4±0.5 | (4.0-5.0) | 4.5±0.6 | (3.7-5.4) |
CF | 23.6 | 23.4±1.2 | (22.2-25.9) | 23.7±1.2 | (22.4-24.9) | 23.3±1.3 | (22.2-25.9) |
CD | 7.8 | 8±0.4 | (7.5-8.6) | 7.9±0.2 | (7.7-8.1) | 8±0.4 | (7.5-8.6) |
CL | 13 | 13.0±0.7 | (11.4-14.0) | 13.5±0.5 | (13.0-14.0) | 12.9±0.7 | (11.4-13.9) |
PAdC | 18.2 | 18±1 | (16.4-19.6) | 17.8±0.8 | (16.9-18.4) | 18±1.1 | (16.4-19.6) |
DHL | 13.6 | 14.0±0.7 | (13.2-15.1) | 14.3±0.7 | (13.6-14.9) | 13.9±0.7 | (13.2-15.1) |
PreP | 53.4 | 51.7±1.9 | (48.6-54.3) | 52.8±1.2 | (51.4-53.6) | 51.3±2.0 | (48.6-54.3) |
PreA | 78.1 | 77.5±0.9 | (75.0-78.4) | 78.0±0.6 | (77.4-78.4) | 77.3±0.9 | (75.0-77.9) |
PreD | 50 | 47.2±1.5 | (44.5-50) | 48.2±1.7 | (46.7-50) | 46.9±1.4 | (44.5-49.7) |
BD | 30 | 27.0±1.5 | (24.6-30.0) | 28.0±1.8 | (26.5-30.0) | 26.7±1.3 | (24.6-28.7) |
PostD | 43.3 | 43.3±1.2 | (41.9-45.6) | 42.5±0.8 | (41.9-43.3) | 43.6±1.2 | (42-45.6) |
TL | 120.1 | 119.6±2.3 | (115.3-122.5) | 119.5±0.6 | (118.8-120.1) | 119.6±2.7 | (115.3-122.5) |
HL (mm) | 58.7 | 55.3±4.9 | (44.8-63.3) | 55.6±5.3 | (49.4-58.7) | 55.2±5.1 | (44.8-63.3) |
Percentage of head length | |||||||
SN | 22.2 | 23.2±1.7 | (20.5-26.3) | 23.5±1.2 | (22.2-24.6) | 23.1±1.9 | (20.5-26.3) |
ED | 22.2 | 22±1.1 | (20.5-24.5) | 22.6±1.7 | (21.1-24.5) | 21.8±0.8 | (20.5-23) |
EC | 25.5 | 26.2±1.2 | (24.2-27.8) | 26.3±1.3 | (25.5-27.8) | 26.2±1.2 | (24.2-27.4) |
EH | 22.5 | 21.6±1.1 | (19.6-24.1) | 22.5±1.5 | (21-24.1) | 21.3±0.8 | (19.6-22) |
ES | 5.1 | 4.8±0.6 | (3.9-5.6) | 4.9±0.5 | (4.3-5.2) | 4.8±0.7 | (3.9-5.6) |
PostO | 54.4 | 52.4±1.4 | (50.3-54.4) | 53±1.4 | (51.6-54.4) | 52.2±1.5 | (50.3-54.3) |
HD | 72.1 | 72.1±2.1 | (68.9-76.3) | 72.8±0.9 | (72.1-73.8) | 71.8±2.4 | (68.9-76.3) |
MW | 10.7 | 9.3±0.7 | (8.3-10.7) | 9.7±0.8 | (9.1-10.7) | 9.2±0.7 | (8.3-10.6) |
UJ | 27 | 27.3±1.4 | (25.2-30) | 27.3±0.7 | (26.9-28.1) | 27.3±1.6 | (25.2-30) |
LJ | 39.4 | 39±1.2 | (36.6-40.4) | 39.7±0.3 | (39.4-40) | 38.7±1.3 | (36.6-40.4) |
M | 19.7 | 19.7±1.2 | (18.1-21.8) | 19.4±0.7 | (18.6-19.9) | 19.8±1.3 | (18.1-21.8) |
SD | 10.4 | 10±1.7 | (6.5-13.2) | 10.1±0.4 | (9.7-10.4) | 10±2 | (6.5-13.2) |
SW | 15.8 | 16.7±1.1 | (15.3-18.9) | 16±0.8 | (15.3-17) | 16.9±1.1 | (15.7-18.9) |
HW | 53.1 | 51.6±3.1 | (44.5-56.9) | 49±4.3 | (44.5-53.1) | 52.4±2.2 | (49.5-56.9) |
IOW | 29.6 | 27.6±2.3 | (23.8-31.2) | 27.9±2.2 | (25.4-29.6) | 27.5±2.4 | (23.8-31.2) |
INW | 11.6 | 12.1±0.7 | (11-13.2) | 11.7±0.1 | (11.6-11.8) | 12.3±0.7 | (11-13.2) |
LJW | 14.3 | 11.9±1.4 | (9.7-14.3) | 12±2.3 | (9.7-14.3) | 11.9±1.1 | (10.1-13.6) |
UJW | 24.1 | 23±1.6 | (19.3-25) | 21.6±2.4 | (19.3-24.1) | 23.4±1.1 | (21.2-25) |
MGR | 11.3 | 11.5±1.7 | (9.1-14.3) | 11.3±1.1 | (10.2-12.4) | 11.5±1.9 | (9.1-14.3) |
LGR | 11.7 | 12.1±1.5 | (10-14.4) | 11.6±1.2 | (10.4-12.9) | 12.3±1.6 | (10-14.4) |
UA | 19.6 | 18.6±0.6 | (17.8-19.8) | 18.9±0.6 | (18.4-19.6) | 18.6±0.6 | (17.8-19.8) |
LA | 34.7 | 34.3±1.2 | (31.6-36.5) | 33.9±0.8 | (33-34.7) | 34.4±1.3 | (31.6-36.5) |
Meristic characters | Mode | Range | Mode | Range | Mode | Range | |
PelvF unbranched | 1 | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) |
PelvF branched | 10 | 10 | (10-12) | na | (10-12) | 10 | (10-12) |
PecF unbranched | 1 | 1 | (1-1) | 1 | (1-1) | 1 | (1-1) |
PecF branched | 15 | 15 | (14-16) | na | (14-16) | 15 | (15-16) |
DF unbranched | 4 | 4 | (3-4) | 4 | (3-4) | 4 | (3-4) |
DF branched | 10 | 10 | (10-12) | 10 | (10-11) | 10 | (10-12) |
AF unbranched | 3 | 3 | (3-3) | 3 | (3-3) | 3 | (3-3) |
AF branched | 11 | 12 | (11-13) | 12 | (11-12) | 12 | (11-13) |
LS | 78 | 78 | (78-87) | 78 | (78-80) | 85 | (78-87) |
PDS | 40 | 36 | (32-40) | na | (32-40) | 35 | (33-40) |
TDS | 9 | 10 | (8-10) | 9 | (9-10) | 10 | (8-10) |
TAS | 8 | 8 | (8-9) | 8 | (8-8) | 8 | (8-9) |
TPS | 8 | 9 | (8-9) | 8 | (8-8) | 9 | (8-9) |
UGR | 10 | 11 | (10-12) | 11 | (10-11) | 12 | (10-12) |
LGR | 20 | 20 | (19-23) | 20 | (20-21) | 21 | (19-23) |
total GR | 30 | 31 | (30-35) | na | (30-32) | 31 | (30-35) |
Coregonus steinmanni , Lake Thun, Switzerland A holotype, NMBE-1077219, Lake Thun, 301 mm SL, female, freshly caught specimen B, C NMBE-1077219, holotype, preserved specimen D paratype, NMBE-1077214, Lake Thun, 234 mm SL, female, freshly caught specimen. The white scale (1cm) below each fish acts as a reference for the actual size of the specimen.
Morphological and meristic data of C. brienzii from Lake Brienz, Switzerland, NMBE-1077126, female, holotype; paratypes N = 12. For females and for both sexes the range and the mean include the holotype.
Morphological characters | C. brienzii | Lake Brienz | |||||
Holotype | Both sexes | ||||||
N-total = 13 | N-females = 4 | N-males = 9 | |||||
Mean ± Stdev | Range | Mean ± Stdev | Range | Mean ± Stdev | Range | ||
SL (mm) | 223.0 | 181.5±37.0 | (118–226) | 187.8±47.4 | (118–223) | 178.7±34.3 | (129–226) |
Percentage of standard length | |||||||
PelvFB | 4.1 | 3.7±0.6 | (2.8–4.8) | 3.6±0.6 | (2.8–4.2) | 3.8±0.6 | (2.9–4.8) |
PelvFS | 6.1 | 6.1±0.8 | (4.6–7.4) | 5.8±0.4 | (5.1–6.1) | 6.3±0.9 | (4.6–7.4) |
PelvF | 15.2 | 15.6±1.1 | (14–17.5) | 15±0.5 | (14.6–15.7) | 15.9±1.2 | (14–17.5) |
PecFB | 3.1 | 3.1±0.2 | (2.6–3.4) | 3.0±0.3 | (2.6–3.2) | 3.1±0.2 | (2.8–3.4) |
PecF1 | 16.0 | 15.9±1.6 | (13.9–20.1) | 15.4±0.7 | (14.5–16.0) | 16.2±1.8 | (13.9–20.1) |
PecF2 | 17.0 | 16.8±1.6 | (14–20.7) | 16.4±0.7 | (15.5–17) | 17±1.9 | (14–20.7) |
DFB | 12.3 | 11.8±0.8 | (10.4–12.9) | 11.7±0.4 | (11.3–12.3) | 11.9±1.0 | (10.4–12.9) |
DFAe | 17.6 | 17.9±1.2 | (15.5–19.8) | 17.7±0.7 | (16.9–18.6) | 18.0±1.4 | (15.5–19.8) |
DFAd | 18.7 | 18.6±1.5 | (15.3–20.8) | 18.3±0.4 | (17.8–18.7) | 18.8±1.8 | (15.3–20.8) |
DFPe | 5.1 | 5.2±0.6 | (4.2–6.5) | 5.0±0.2 | (4.7–5.2) | 5.3±0.7 | (4.2–6.5) |
AFB | 13.7 | 12.4±0.9 | (11.1–13.7) | 12.9±1.1 | (11.4–13.7) | 12.2±0.7 | (11.1–13.6) |
AFAe | 11.1 | 11.2±1.0 | (9.4–12.6) | 11.2±0.5 | (10.5–11.6) | 11.2±1.2 | (9.4–12.6) |
AdFB | 5.1 | 5.5±0.8 | (4.0–7.1) | 5.2±0.3 | (5.0–5.7) | 5.6±0.9 | (4.0–7.1) |
CF | 23.8 | 24.1±1.1 | (22.6–26.3) | 23.2±0.5 | (22.6–23.8) | 24.5±1.1 | (22.7–26.3) |
CD | 7.3 | 7.3±0.3 | (6.7–7.7) | 7.1±0.4 | (6.7–7.5) | 7.4±0.2 | (7.1–7.7) |
CL | 13.9 | 13.8±1.0 | (12.2–15.8) | 14.0±0.4 | (13.7–14.6) | 13.7±1.1 | (12.2–15.8) |
PAdC | 18.8 | 19.1±0.7 | (17.9–20.7) | 19±0.4 | (18.6–19.4) | 19.1±0.9 | (17.9–20.7) |
DHL | 15.0 | 15.6±0.7 | (14.6–16.8) | 15.4±0.6 | (15.0–16.3) | 15.7±0.7 | (14.6–16.8) |
PreP | 48.6 | 51.1±1.7 | (47.8–54.0) | 50.9±1.8 | (48.6–52.8) | 51.2±1.8 | (47.8–54.0) |
PreA | 75.3 | 77.1±1.5 | (74.3–79.5) | 76.2±1.7 | (74.3–78.2) | 77.5±1.3 | (75.4–79.5) |
PreD | 46.2 | 47.5±1.7 | (43.9–49.4) | 47.2±1.1 | (46.2–48.2) | 47.6±2 | (43.9–49.4) |
BD | 24.6 | 22.6±1.7 | (19.6–25.1) | 22.7±2.5 | (20.5–25.1) | 22.6±1.5 | (19.6–24.2) |
PostD | 45.9 | 44.1±1.1 | (42.4–45.9) | 44.6±1.3 | (43–45.9) | 43.9±1.1 | (42.4–45.5) |
TL | 122.0 | 121.5±1.9 | (117.8–124.4) | 121.2±2.5 | (117.8–123.8) | 121.6±1.7 | (119.2–124.4) |
HL (mm) | 45.4 | 38.7±7.3 | (26.7–47.4) | 39.2±8.5 | (26.7–45.4) | 38.5±7.3 | (28.3–47.4) |
Percentage of head length | |||||||
SN | 25.6 | 23.3±1.8 | (20.5–26.3) | 23.6±2.1 | (21.1–25.6) | 23.2±1.7 | (20.5–26.3) |
ED | 24.4 | 25.3±1.6 | (23.1–28.3) | 25.2±1.6 | (24.2–27.6) | 25.3±1.7 | (23.1–28.3) |
EC | 27.8 | 29±2.3 | (25.6–32.9) | 28.8±3.1 | (25.6–32.9) | 29.1±2.1 | (26.5–32.7) |
EH | 22.0 | 24.4±1.4 | (22–27.2) | 23.9±1.7 | (22–26.2) | 24.7±1.3 | (23–27.2) |
ES | 3.5 | 4.7±1.2 | (3.3–7.2) | 4.8±1.4 | (3.5–6.5) | 4.7±1.2 | (3.3–7.2) |
PostO | 50.9 | 50.7±1.1 | (48.2–52.3) | 49.8±1.5 | (48.2–51.1) | 51.1±0.7 | (50.3–52.3) |
HD | 75.2 | 68.5±3.3 | (64.4–75.2) | 69.8±4.4 | (65.2–75.2) | 67.9±2.8 | (64.4–73.1) |
MW | 9.7 | 9.9±0.9 | (8.5–10.9) | 9.4±0.8 | (8.5–10.3) | 10.1±0.8 | (8.6–10.9) |
UJ | 30.2 | 29.5±1.6 | (27.1–32) | 29±1.8 | (27.1–30.8) | 29.6±1.6 | (27.3–32) |
LJ | 42.9 | 42.2±1.5 | (40.5–45.7) | 43.2±1.7 | (42–45.7) | 41.8±1.2 | (40.5–43.7) |
M | 23.4 | 21±2.4 | (15.4–24) | 21±3.9 | (15.4–24) | 21.1±1.7 | (18.3–23.8) |
SD | 7.0 | 8.8±1.4 | (6.4–11.6) | 7.4±0.9 | (6.4–8.6) | 9.4±1.2 | (8–11.6) |
SW | 18.0 | 17.8±1.2 | (15.7–20.2) | 17.6±0.6 | (16.7–18) | 17.8±1.4 | (15.7–20.2) |
HW | 52.1 | 48.1±3.1 | (44.1–52.4) | 48.5±4 | (44.1–52.1) | 47.9±2.9 | (44.1–52.4) |
IOW | 28.4 | 26.2±1.9 | (22.8–30.7) | 26.3±1.7 | (25–28.4) | 26.1±2.1 | (22.8–30.7) |
INW | 9.7 | 11.1±0.8 | (9.7–12.6) | 10.8±0.7 | (9.7–11.2) | 11.3±0.9 | (10–12.6) |
LJW | 14.1 | 11.5±1.2 | (10.1–14.1) | 11.9±2 | (10.1–14.1) | 11.3±0.6 | (10.5–12.4) |
UJW | 25.9 | 23.4±1.6 | (20.2–26.1) | 23.3±2.3 | (20.2–25.9) | 23.5±1.3 | (21.4–26.1) |
MGR | 13.5 | 13.5±1.3 | (10.9–15.1) | 13.7±1.6 | (11.6–15.1) | 13.3±1.3 | (10.9–14.9) |
LGR | 13.9 | 14 .7±1.6 | (12.1–16.8) | 14.8±2.2 | (12.1–16.8) | 14.7±1.4 | (13–16.7) |
UA | 20.4 | 18.5±1.7 | (15.3–20.5) | 19.6±0.8 | (18.5–20.4) | 18±1.7 | (15.3–20.5) |
LA | 40.4 | 35.5±2 | (33–40.4) | 37.2±2.5 | (35–40.4) | 34.8±1.4 | (33–37.5) |
Meristic characters | Mode | Range | Mode | Range | Mode | Range | |
PelvF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
PelvF branched | 10 | 10 | (9–11) | 10 | (9–10) | 10 | (10–11) |
Meristic characters | C. brienzii | Lake Brienz | |||||
Holotype | Both sexes | ||||||
N-total = 13 | N-females = 4 | N-males = 9 | |||||
Mode | Range | Mode | Range | Mode | Range | ||
PecF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
PecF branched | 15 | 15 | (15–17) | 15 | (15–17) | 15 | (15–17) |
DF unbranched | 4 | 4 | (3–4) | 4 | (4–4) | 4 | (3–4) |
DF branched | 12 | 11 | (10–13) | 11 | (10–12) | 10 | (10–13) |
AF unbranched | 4 | 4 | (3–4) | 4 | (4–4) | 4 | (3–4) |
AF branched | 13 | 12 | (11–13) | 13 | (11–13) | 12 | (12–12) |
LS | 89 | 86 | (80–91) | 89 | (80–91) | 86 | (80–88) |
PDS | 36 | 35 | (32–40) | na | (34–37) | 32 | (32–40) |
TDS | 9 | 9 | (7–10) | 9 | (7–9) | 9 | (8–10) |
TAS | 8 | 8 | (7–8) | 8 | (7–8) | 8 | (7–8) |
TPS | 8 | 8 | (8–9) | 8 | (8–8) | 8 | (8–9) |
UGR | 14 | 14 | (11–14) | 13 | (13–14) | 12 | (11–14) |
LGR | 25 | 24 | (20–25) | 24 | (24–25) | 23 | (20–25) |
total GR | 39 | 37 | (32–39) | 37 | (37–39) | 32 | (32–38) |
Morphological and meristic data of C. profundus from Lake Thun, NMBE-1077208, male, holotype; paratypes N = 27. For ranges of males and for both sexes, the total range and mean include the holotype.
Morphological characters | C. profundus | Lake Thun | |||||
Holotype | Both sexes | ||||||
N-total = 28 | N-females = 6 | N-males = 22 | |||||
Mean ± Stdev | Range | Mean ± Stdev | Range | Mean ± Stdev | Range | ||
SL (mm) | 194.0 | 223.3±26.7 | (188–316) | 248.7±42.2 | (188–316) | 216.3±16 | (188–241) |
Percentage of standard length | |||||||
PelvFB | 4.4 | 4.2±0.3 | (3.6–5.0) | 4.2±0.2 | (4–4.5) | 4.2±0.4 | (3.6–5) |
PelvFS | 7.2 | 6.0±0.8 | (4.0–7.2) | 5.7±1 | (4–6.8) | 6.1±0.7 | (4.8–7.2) |
PelvF | 16.9 | 17.7±1.1 | (15.1–19.6) | 17.3±0.9 | (16.5–18.9) | 17.9±1.1 | (15.1–19.6) |
PecFB | 3.5 | 3.7±0.2 | (3.2–4.3) | 3.6±0.2 | (3.2–3.8) | 3.7±0.2 | (3.4–4.3) |
PecF1 | 16.9 | 18.4±1.1 | (16.6–21.0) | 18.1±1.3 | (16.6–19.8) | 18.5±1 | (16.8–21) |
PecF2 | 17.8 | 20.2±1.3 | (17.7–23.2) | 19.9±1.5 | (17.7–22.1) | 20.2±1.3 | (17.8–23.2) |
DFB | 12.6 | 12.5±0.9 | (10.5–14.5) | 12.3±0.7 | (11.3–13.4) | 12.5±1 | (10.5–14.5) |
DFAe | 18.7 | 19.5±1.4 | (15.9–21.9) | 18.7±1.9 | (15.9–21.6) | 19.7±1.2 | (17–21.9) |
DFAd | 20.6 | 20.7±1.3 | (17.5–23.2) | 19.9±1.4 | (17.5–21.5) | 20.9±1.2 | (18.3–23.2) |
DFPe | 5.1 | 5.0±0.5 | (3.9–6.1) | 5.1±0.4 | (4.5–5.6) | 5±0.6 | (3.9–6.1) |
AFB | 13.5 | 13.2±1.0 | (10.8–15.3) | 13.4±0.8 | (12.1–14.4) | 13.1±1.1 | (10.8–15.3) |
AFAe | 13.6 | 13.3±1.0 | (10.9–14.7) | 12.8±1 | (10.9–13.9) | 13.4±0.9 | (11.3–14.7) |
AdFB | 5.1 | 5.3±0.6 | (3.8–6.3) | 5.3±0.4 | (4.6–5.8) | 5.2±0.6 | (3.8–6.3) |
CF | 24.1 | 24.5±1.4 | (21.8–27.8) | 24.3±2 | (21.8–27.8) | 24.6±1.3 | (22.2–27.8) |
CD | 7.5 | 7.3±0.3 | (6.5–7.9) | 7.5±0.2 | (7.2–7.8) | 7.3±0.3 | (6.5–7.9) |
CL | 12.5 | 11.8±0.7 | (10.2–13.0) | 12±0.8 | (10.9–13) | 11.8±0.7 | (10.2–13) |
PAdC | 16.9 | 18.3±1.1 | (15.8–20.1) | 18.5±0.9 | (17.1–19.6) | 18.2±1.1 | (15.8–20.1) |
DHL | 16.4 | 16.4±0.6 | (15.5–18.4) | 16.2±0.5 | (15.5–16.7) | 16.5±0.6 | (15.7–18.4) |
PreP | 55.2 | 54.2±1.5 | (51.2–58.1) | 53.3±1.2 | (51.2–54.1) | 54.5±1.4 | (52.1–58.1) |
PreA | 79.2 | 78.4±1.4 | (75.0–80.6) | 77.8±1.3 | (75.8–79.4) | 78.6±1.4 | (75–80.6) |
PreD | 48.5 | 48.3±1.3 | (45.8–51.1) | 47.8±1.8 | (45.8–50) | 48.5±1.2 | (46.9–51.1) |
BD | 24.4 | 24.2±1.4 | (22.1–27.6) | 25.4±1.3 | (24–27.6) | 23.9±1.2 | (22.1–26.6) |
PostD | 40.6 | 42.5±1.5 | (38.9–44.5) | 43.2±1.4 | (41.3–44.5) | 42.3±1.5 | (38.9–44.4) |
TL | 122.2 | 121.3±1.7 | (117.3–125.6) | 120.5±1.1 | (118.9–121.8) | 121.5±1.8 | (117.3–125.6) |
HL (mm) | 41.2 | 48.9±5.5 | (39.8–66.2) | 54.1±8.7 | (39.8–66.2) | 47.4±3.2 | (41.2–53.7) |
Percentage of head length | |||||||
SN | 23.6 | 23.5±0.8 | (21.8–24.8) | 23.3±0.6 | (22.5–24) | 23.6±0.8 | (21.8–24.8) |
ED | 23.3 | 23.8±1.4 | (21.3–26.2) | 23.7±1.5 | (21.9–25.7) | 23.8±1.4 | (21.3–26.2) |
EC | 30.9 | 29.2±1.4 | (26.2–32.1) | 28.2±1.6 | (26.2–31.1) | 29.5±1.3 | (26.9–32.1) |
EH | 24.5 | 23.6±0.9 | (21.8–25.5) | 23.2±0.7 | (21.9–23.9) | 23.7±0.9 | (21.8–25.5) |
ES | 5.7 | 4.6±0.8 | (3.0–5.9) | 4.3±0.9 | (3.5–5.9) | 4.7±0.7 | (3–5.7) |
PostO | 51.1 | 50.9±1.4 | (48–54) | 52.2±1.8 | (49.2–54) | 50.6±1 | (48–52.1) |
HD | 78.3 | 71.8±2.8 | (65.9–78.3) | 73±2.1 | (69.4–75.7) | 71.5±2.9 | (65.9–78.3) |
MW | 11.2 | 10±0.8 | (8.5–11.7) | 10±0.5 | (9.4–10.7) | 10±0.9 | (8.5–11.7) |
UJ | 29.1 | 28.7±1.2 | (26.4–30.6) | 28.1±1.3 | (26.4–30) | 28.9±1.1 | (26.8–30.6) |
LJ | 41.4 | 39.9±1.7 | (37–43.6) | 39.1±1.4 | (37–40.9) | 40.1±1.8 | (37.2–43.6) |
M | 24 | 20.7±1.2 | (17.3–24) | 20.1±1.4 | (17.3–21.2) | 20.8±1.1 | (18.7–24) |
SD | 10.1 | 10±0.8 | (8.1–11.3) | 9.7±0.6 | (8.8–10.7) | 10±0.8 | (8.1–11.3) |
SW | 17.6 | 15.8±1.3 | (12.5–17.8) | 15.3±1.6 | (13.7–17.3) | 16±1.1 | (12.5–17.8) |
HW | 57.3 | 52.4±3.3 | (46.7–58.6) | 53.1±3.9 | (46.7–58.6) | 52.2±3.1 | (47.4–57.7) |
IOW | 28.7 | 28.1±1.2 | (26.1–30.3) | 28.9±1.4 | (26.5–30.3) | 27.9±1.1 | (26.1–29.5) |
INW | 11.1 | 11.1±1 | (8.2–13.3) | 11.7±1.1 | (10.3–13.3) | 10.9±1 | (8.2–12.5) |
LJW | 9.3 | 11.7±2.2 | (7.8–16.2) | 12.7±0.7 | (11.4–13.6) | 11.5±2.4 | (7.8–16.2) |
UJW | 28.9 | 26±1.7 | (22.7–29.2) | 25.2±1.5 | (22.7–27.4) | 26.2±1.7 | (22.8–29.2) |
MGR | 10 | 9.2±1.1 | (7.6–11.7) | 9.4±1.2 | (7.6–10.9) | 9.2±1.1 | (8–11.7) |
LGR | 10.7 | 10.1±1.2 | (7.8–12.4) | 10.5±1.6 | (7.8–12.4) | 9.9±1.1 | (8.1–12.3) |
UA | 19.6 | 18±1.8 | (15.5–21.8) | 18.7±2.4 | (15.5–21.8) | 17.8±1.6 | (15.5–21.2) |
LA | 35.8 | 34.3±1.8 | (30.3–37.7) | 35.1±2.1 | (32.9–37.7) | 34.1±1.7 | (30.3–36.6) |
Meristic characters | Mode | Range | |||||
PelvF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
PelvF branched | 10 | 10 | (9–11) | 10 | (10–11) | 10 | (9–11) |
PecF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
Meristic characters | C. profundus | Lake Thun | |||||
Holotype | Both sexes | ||||||
N-total = 28 | N-females = 6 | N-males = 22 | |||||
Mode | Range | Mode | Range | Mode | Range | ||
PecF branched | 16 | 16 | (13–17) | 16 | (16–16) | 16 | (13–17) |
DF unbranched | 5 | 4 | (3–5) | 4 | (3–4) | 4 | (3–5) |
DF branched | 10 | 10 | (9–12) | 11 | (10–12) | 10 | (9–11) |
AF unbranched | 5 | 3 | (2–5) | 2 | (2–4) | 3 | (2–5) |
AF branched | 11 | 12 | (11–14) | 12 | (12–14) | 12 | (11–13) |
LS | 83 | 84 | (76–90) | 83 | (80–89) | 84 | (76–90) |
PDS | 34 | 34 | (32–38) | 32 | (32–37) | 34 | (32–38) |
TDS | 9 | 9 | (8–10) | 9 | (8–10) | 9 | (8–10) |
TAS | 8 | 8 | (6–8) | 8 | (8–8) | 8 | (6–8) |
TPS | 8 | 8 | (7–9) | 9 | (8–9) | 8 | (7–9) |
UGR | 8 | 9 | (5–10) | 7 | (6–10) | 9 | (5–9) |
LGR | 13 | 14 | (10–18) | 17 | (11–18) | 14 | (10–18) |
total GR | 21 | 21 | (15–27) | na | (18–27) | 21 | (15–26) |
Coregonus profundus , Lake Thun, Switzerland A holotype, NMBE-1077208, Lake Thun, 194 mm SL, male, freshly caught specimen B, C holotype, NMBE-1077208, preserved specimen D paratype, NMBE-1077203, Lake Thun, 315.5 mm SL, male E paratype, NMBE-1077166, Lake Thun, 253.5 mm SL, female. The white scale (1cm) below each fish acts as a reference for the actual size of the specimen.
Morphological and meristic data of C. acrinasus from Lake Thun, NMBE-1077271, male, holotype; paratypes N = 25. For males and for both sexes, the range and mean include the holotype.
Morphological characters | C. acrinasus | Lake Thun | |||||
Holotype | Both sexes | ||||||
N-total = 26 | N-females = 4 | N-males = 22 | |||||
Mean±Stdev | Range | Mean±Stdev | Range | Mean±Stdev | Range | ||
SL (mm) | 239.5 | 237.3±21.2 | (197–278) | 235.5±26.5 | (197–254) | 237.6±20.8 | (197–278) |
Percentage of standard length | |||||||
PelvFB | 5.1 | 4.1±0.4 | (3.5–5.1) | 3.7±0.4 | (3.5–4.3) | 4.1±0.4 | (3.5–5.1) |
PelvFS | 7 | 6.2±0.7 | (4.6–7.5) | 6.2±0.3 | (5.7–6.4) | 6.2±0.7 | (4.6–7.5) |
PelvF | 17.4 | 16±0.9 | (14.3–17.5) | 15.6±1.2 | (14.6–17.2) | 16.1±0.8 | (14.3–17.5) |
PecFB | 3.6 | 3.4±0.2 | (3.1–4.0) | 3.2±0.1 | (3.1–3.4) | 3.5±0.2 | (3.1–4) |
PecF1 | 17.4 | 15.9±1.1 | (13.8–18.2) | 15.6±1.8 | (14.1–18.1) | 16±1 | (13.8–18.2) |
PecF2 | 18.6 | 16.9±1.3 | (15–19.7) | 16.5±2.2 | (15–19.7) | 17±1.1 | (15–19) |
DFB | 14.8 | 12.4±0.8 | (11.2–14.8) | 12.3±0.8 | (11.5–13.4) | 12.4±0.9 | (11.2–14.8) |
DFAe | 20.9 | 18.1±1.2 | (15.7–20.9) | 17.8±1.5 | (15.8–19.1) | 18.1±1.2 | (15.7–20.9) |
DFAd | 21.7 | 19.3±1.1 | (17.0–21.7) | 19.1±1.1 | (18.0–20.3) | 19.3±1.2 | (17–21.7) |
DFPe | 5.5 | 5.0±0.5 | (4.0–6.1) | 4.9±0.5 | (4.2–5.3) | 5±0.5 | (4–6.1) |
AFB | 13.6 | 12.6±0.6 | (11.3–13.6) | 12.6±0.6 | (11.9–13.3) | 12.6±0.6 | (11.3–13.6) |
AFAe | 13 | 11.6±0.8 | (9.2–13.0) | 11.4±0.5 | (11.0–12.2) | 11.7±0.9 | (9.2–13) |
AdFB | 4.5 | 4.7±0.7 | (3.7–6.2) | 4.8±0.6 | (4.2–5.6) | 4.7±0.7 | (3.7–6.2) |
CF | 24 | 23.3±0.9 | (21.5–25.1) | 23.2±0.2 | (23–23.4) | 23.4±1 | (21.5–25.1) |
CD | 7.5 | 7.6±0.4 | (7.1–8.3) | 7.8±0.3 | (7.6–8.2) | 7.6±0.4 | (7.1–8.3) |
CL | 11.7 | 12.8±0.6 | (11.7–14.2) | 12.4±0.4 | (11.9–12.8) | 12.9±0.6 | (11.7–14.2) |
PAdC | 15 | 18.1±1.2 | (15–20.1) | 17.6±1 | (16.2–18.4) | 18.2±1.2 | (15–20.1) |
DHL | 14.9 | 15.2±0.6 | (13.8–16.1) | 14.9±0.9 | (14.0–15.9) | 15.2±0.5 | (13.8–16.1) |
PreP | 50.3 | 52.6±1.6 | (49.1–56.8) | 51.9±0.5 | (51.4–52.4) | 52.7±1.8 | (49.1–56.8) |
PreA | 78.5 | 77.7±1.2 | (75.3–80.3) | 77.1±0.5 | (76.5–77.6) | 77.8±1.3 | (75.3–80.3) |
PreD | 45.4 | 47.5±1.4 | (45–50.7) | 47.5±1.1 | (46.3–48.6) | 47.5±1.4 | (45–50.7) |
BD | 25.6 | 24.7±1.6 | (20.7–28.1) | 26.1±1.6 | (24.4–28.1) | 24.4±1.5 | (20.7–26.7) |
PostD | 41.2 | 43±1.3 | (40.3–45.6) | 42.2±1.6 | (41–44.3) | 43.1±1.3 | (40.3–45.6) |
TL | 123.2 | 120.6±1.7 | (116–123.2) | 119±2.5 | (116–121.5) | 120.8±1.4 | (118.2–123.2) |
HL (mm) | 49 | 49.9±4 | (41.5–58.4) | 48.5±4.7 | (41.5–51.3) | 50.1±3.9 | (41.5–58.4) |
Percentage of head length | |||||||
SN | 23.4 | 23.9±1.4 | (20.5–27) | 22.6±1.8 | (20.5–24.6) | 24.1±1.3 | (21.6–27) |
ED | 23.2 | 23.7±0.8 | (21.6–25.5) | 23.8±0.8 | (22.6–24.4) | 23.7±0.9 | (21.6–25.5) |
EC | 27.4 | 27.7±1 | (26–29.6) | 28.6±1 | (27.2–29.6) | 27.6±0.9 | (26–28.8) |
EH | 22.8 | 22.9±0.9 | (21.7–24.8) | 23.6±1.1 | (22.2–24.8) | 22.8±0.8 | (21.7–24.5) |
ES | 4.9 | 4.7±0.8 | (3.2–6.4) | 5.6±0.9 | (4.8–6.4) | 4.5±0.6 | (3.2–6.1) |
PostO | 51 | 50.9±1.5 | (48.5–54.1) | 52±1.8 | (49.8–54.1) | 50.7±1.4 | (48.5–53) |
HD | 69.8 | 69.1±2.4 | (65.1–74.9) | 69.8±2 | (67.8–72.5) | 68.9±2.5 | (65.1–74.9) |
MW | 9.7 | 9.8±0.7 | (8.1–11.4) | 9.8±0.6 | (8.8–10.3) | 9.8±0.8 | (8.1–11.4) |
UJ | 28.8 | 29.4±1.2 | (26.7–30.9) | 30.1±0.8 | (29.3–30.8) | 29.2±1.3 | (26.7–30.9) |
LJ | 40.5 | 40.9±1.7 | (38.6–47) | 40.5±1.1 | (39–41.5) | 41±1.8 | (38.6–47) |
M | 21.1 | 21.8±1 | (19.4–23.8) | 21.9±0.9 | (21.3–23.2) | 21.8±1 | (19.4–23.8) |
SD | 9.8 | 8.6±1.3 | (6–11.3) | 9±1.1 | (7.9–10.5) | 8.6±1.3 | (6–11.3) |
SW | 17.1 | 16±1.5 | (13.1–18.1) | 16.2±1.3 | (14.7–17.6) | 15.9±1.5 | (13.1–18.1) |
HW | 53.8 | 49.6±3.2 | (43.9–56.2) | 51.1±2.4 | (48.2–53.8) | 49.4±3.3 | (43.9–56.2) |
IOW | 25.8 | 27±2.1 | (21.3–31.5) | 27.1±1.4 | (25.1–28.1) | 27±2.3 | (21.3–31.5) |
INW | 10.8 | 11.7±1 | (9.5–13.4) | 11.7±1.2 | (10.5–13.3) | 11.7±1 | (9.5–13.4) |
LJW | 12.4 | 12.2±1.2 | (9.2–14.3) | 12.5±1 | (11–13.4) | 12.1±1.2 | (9.2–14.3) |
UJW | 24 | 22.8±2.1 | (18.2–27.5) | 23.7±2.7 | (20.4–26.3) | 22.6±2 | (18.2–27.5) |
MGR | 13.1 | 13.4±1.6 | (9.1–16.6) | 14.4±1.9 | (11.9–16.6) | 13.2±1.6 | (9.1–15.1) |
LGR | 15 | 14.5±1.4 | (11.4–16.9) | 15.7±1.2 | (14.4–16.9) | 14.3±1.3 | (11.4–16.3) |
UA | 19.7 | 18.1±1.6 | (13.5–20.3) | 18.5±1.6 | (16.2–19.8) | 18.1±1.6 | (13.5–20.3) |
LA | 36.7 | 34.9±1.7 | (32.3–38.9) | 35.9±2.1 | (34–38.9) | 34.8±1.7 | (32.3–38.4) |
Meristic characters | Mode | Range | Mode | Range | Mode | Range | |
PelvF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
PelvF branched | 11 | 10 | (9–12) | 10 | (10–11) | 11 | (9–12) |
PecF unbranched | 1 | 1 | (1–1) | 1 | (1–1) | 1 | (1–1) |
PecF branched | 15 | 15 | (13–16) | 16 | (15–16) | 15 | (13–16) |
Meristic characters | C. acrinasus | Lake Thun | |||||
Holotype | Both sexes | ||||||
N-total = 26 | N-females = 4 | N-males = 22 | |||||
Mode | Range | Mode | Range | Mode | Range | ||
DF unbranched | 3 | 4 | (3–4) | 3 | (3–4) | 4 | (3–4) |
DF branched | 12 | 10 | (9–12) | 11 | (10–12) | 10 | (9–12) |
AF unbranched | 3 | 3 | (2–4) | 3 | (3–3) | 3 | (2–4) |
AF branched | 13 | 11 | (11–13) | 12 | (11–13) | 11 | (11–13) |
LS | 80 | 84 | (79–88) | 85 | (84–85) | 80 | (79–88) |
PDS | 34 | 34 | (33–42) | 34 | (34–41) | 35 | (33–42) |
TDS | 10 | 10 | (9–10) | 10 | (9–10) | 10 | (9–10) |
TAS | 8 | 8 | (8–9) | 8 | (8–8) | 8 | (8–9) |
TPS | 9 | 8 | (8–9) | 9 | (8–9) | 8 | (8–9) |
UGR | 13 | 13 | (10–15) | na | (10–15) | 13 | (10–14) |
LGR | 20 | 24 | (20–26) | 24 | (21–24) | 24 | (20–26) |
total GR | 33 | 36 | (30–40) | 35 | (34–36) | 36 | (30–40) |
Coregonus acrinasus , Lake Thun, Switzerland A holotype, NMBE-1077271, Lake Thun, 239.5 mm SL, male, freshly caught specimen B, C holotype, NMBE-1077271, preserved specimen D paratype, NMBE-1077270, Lake Thun, 270 mm SL, male, freshly caught specimen E paratype, NMBE-1077279, Lake Thun, 234 mm SL, male, freshly caught specimen. The white scale (1cm) below each fish acts as a reference for the actual size of the specimen.
Types of the Lake Constance species, Switzerland A Coregonus gutturosus, non-type, NMBE-1076232 (Eawag-248–1), 250 mm, sex unknown, preserved specimen B Coregonus arenicolus, holotype, 296 mm, NMBE-1076223 (Eawag-239–1), sex unknown, preserved specimen C Coregonus macrophthalmus, syntype, MHNG-716.052, 215 mm, sex unknown, preserved specimen D Coregonus wartmanni, non-type, NMBE-1076206, 301 mm, female, preserved specimen. The white scale (1cm) below each fish acts as a reference for the actual size of the specimen.
The first- and second-best ratios retrieved from the LDA ratio extractor of either head or body characters (see Table
Characters | Species comparison | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
---|---|---|---|---|---|---|
head + body | C. albellus vs. C. alpinus | 1: CD/UJ * | 0.96–1.29 | 1.36–1.65 | 18.09 | 0.1 |
2: AdFB/ES | 5.54–13.54 | 2.87–5.94 | 17.49 | 0.1 | ||
body | C. albellus vs. C. alpinus | 1: CD/DHL * | 0.44–0.54 | 0.54–0.62 | 5.98 | 0.26 |
2: DFB/AdFB | 1.6–2.66 | 2.31–4.02 | 4.86 | 0.31 | ||
head | C. albellus vs. C. alpinus | 1: UJ/ES | 6.48–16.01 | 4.52–7.93 | 6 | 0.22 |
2: HL/UJ | 2.88–3.47 | 3.33–4.11 | 5.26 | 0.25 | ||
head + body | C. albellus vs. C. fatioi | 1: TL/EH | 21.93–27.57 | 21.91–29.46 | 3.07 | 0.08 |
2: PelvF/PecF1 | 0.87–1.03 | 0.87–1.07 | 2.89 | 0.08 | ||
body | C. albellus vs. C. fatioi | 1: PecF1/TL | 0.12–0.16 | 0.11–0.15 | 1.4 | 0.19 |
2: DFAe/DFAd | 0.88–1 | 0.9–0.98 | 1.18 | 0.21 | ||
head | C. albellus vs. C. fatioi | 1: EH/HL | 0.21–0.26 | 0.2–0.25 | 1.63 | 0.08 |
2: LJW/ES | 2.14–7.79 | 1.59–8.18 | 1.35 | 0.1 | ||
head + body | C. albellus vs. C. steinmanni | 1: CD/UJ * | 0.96–1.29 | 1.36–1.55 | 13.8 | 0.12 |
2: AdFB/ES | 5.54–13.54 | 3.31–6.31 | 13 | 0.12 | ||
head | C. albellus vs. C. steinmanni | 1: HL/UJ | 2.88–3.47 | 3.33–3.97 | 5.3 | 0.21 |
2: LJ/ES | 8.25–20.33 | 6.65–12.45 | 4.59 | 0.23 | ||
head + body | C. albellus vs. C. profundus | 1: CL/EC * | 1.97–2.87 | 1.56–2.09 | 13.19 | 0.03 |
2: DHL/M | 2.77–3.53 | 3.21–3.79 | 12.79 | 0.03 | ||
body | C. albellus vs. C. profundus | 1: CL/DHL | 0.75–1.04 | 0.61–0.82 | 4.43 | 0.06 |
2: CD/BD | 0.26–0.31 | 0.28–0.34 | 3.38 | 0.07 | ||
head | C. albellus vs. C. profundus | 1: EC/UJ | 0.74–0.95 | 0.87–1.05 | 5.02 | 0.1 |
2: SW/ES | 3.22–9.67 | 2.31–5.26 | 4.05 | 0.12 | ||
head + body | C. albellus vs. C. acrinasus | 1: AdFB/ES | 5.54–13.54 | 3.31–6.5 | 9.13 | 0.06 |
2: CD/UJW | 1.14–1.79 | 1.4–2 | 8.69 | 0.07 | ||
body | C. albellus vs. C. acrinasus | 1: PecF1/CD | 2.13–2.76 | 1.8–2.39 | 4.5 | 0.11 |
2: DFB/AdFB | 1.6–2.66 | 1.98–3.45 | 3.88 | 0.13 | ||
head | C. albellus vs. C. acrinasus | 1: UJW/ES | 5.27–13.65 | 3.22–7.96 | 4.19 | 0.14 |
2: ED/UJ | 0.66–0.84 | 0.74–0.9 | 3.51 | 0.16 | ||
Characters | Species comparison | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (shape vs. Size) |
head + body | C. alpinus vs. C. fatioi | 1: CD/PostD * | 0.17–0.21 | 0.14–0.17 | 22.73 | 0.07 |
2: DFAe/UJ | 3.14–3.93 | 2.43–3.41 | 22.33 | 0.07 | ||
body | C. alpinus vs. C. fatioi | 1: CD/PostD * | 0.17–0.21 | 0.14–0.17 | 8.98 | 0.17 |
2: DFAe/DHL | 1.26–1.55 | 1.02–1.36 | 7.9 | 0.19 | ||
head | C. alpinus vs. C. fatioi | 1: HD/UJ | 2.34–2.9 | 2.13–2.57 | 3.86 | 0.3 |
2: MW/ES | 1.47–3 | 1.82–6.16 | 3.15 | 0.34 | ||
head + body | C. alpinus vs. C. steinmanni (a) | ED/EC | 0.74–0.9 | 0.74–0.9 | 8.07 | 0.05 |
CD/CL | 0.6–0.75 | 0.54–0.7 | 8.02 | 0.05 | ||
body | C. alpinus vs. C. steinmanni | 1: DFAe/AFAe | 1.5–1.83 | 1.43–1.62 | 5.7 | 0.06 |
2: PelvFS/DFAe | 0.24–0.36 | 0.29–0.37 | 5.58 | 0.07 | ||
head | C. alpinus vs. C. steinmanni | 1: EC/SW | 1.47–2.13 | 1.43–1.7 | 2.45 | 0.16 |
2: ED/EC | 0.74--0.9 | 0.79–0.9 | 2.2 | 0.18 | ||
head + body | C. alpinus vs. C. profundus | 1: CD/DHL * | 0.54–0.62 | 0.4–0.49 | 19.86 | 0.07 |
2: PecF2/CF | 0.63–0.82 | 0.74–0.90 | 19.01 | 0.07 | ||
body | C. alpinus vs. C. profundus | 1: CD/DHL * | 0.54–0.62 | 0.4–0.49 | 9.31 | 0.15 |
2: PecF2/CF | 0.63–0.82 | 0.74–0.90 | 7.32 | 0.19 | ||
head | C. alpinus vs. C. profundus | 1: EH/PostD | 0.09–0.11 | 0.11–0.15 | 4.32 | 0.21 |
2: SD/UJW | 0.35–0.51 | 0.30–0.44 | 3.93 | 0.23 | ||
head + body | C. alpinus vs. C. acrinasus | 1: CD/LJ | 0.95–1.11 | 0.79–1 | 65.21 | 0.02 |
2: CF/M * | 5.55–6.55 | 4.4–5.57 | 65.13 | 0.02 | ||
body | C. alpinus vs. C. acrinasus | 1: CD/DHL | 0.54–0.62 | 0.46–0.58 | 4.69 | 0.25 |
2: DFAe/DFPe | 3.39–4.72 | 2.84–4.54 | 3.91 | 0.29 | ||
head | C. alpinus vs. C. acrinasus | 1: PostO/M | 2.4–3 | 2.17–2.56 | 4.26 | 0.21 |
2: HD/MW | 6.57–8.7 | 6.02–8.87 | 3.65 | 0.24 | ||
Characters | Species comparison | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (shape vs. Size) |
head + body | C. fatioi vs. C. steinmanni (b) | 1: CD/UJ * | 1.02–1.34 | 1.36–1.55 | 33.96 | 0.04 |
2: PelvF/PAdC | 0.73–1 | 0.84–0.1 | 33.71 | 0.04 | ||
body | C. fatioi vs. C. steinmanni | 1: CD/PostD * | 0.14–0.17 | 0.17–0.20 | 6.34 | 0.22 |
2: DHL/BD | 0.5–0.7 | 0.45–0.58 | 5.37 | 0.25 | ||
head | C. fatioi vs. C. steinmanni | 1: HD/UJ | 2.13–2.57 | 2.42–2.83 | 4.41 | 0.23 |
2: HW/LJW | 3.17–6.12 | 3.72–5.1 | 3.25 | 0.29 | ||
head + body | C. fatioi vs. C. profundus | 1: CL/EC | 1.84–2.98 | 1.56–2.09 | 10.03 | 0.02 |
2: DHL/UJ | 2.11–2.70 | 2.32–2.92 | 9.54 | 0.02 | ||
body | C. fatioi vs. C. profundus | 1: CL/DHL | 0.76–1.04 | 0.61–0.82 | 4.44 | <0.01 |
2: DFPe/CD | 0.56–0.87 | 0.56.0.82 | 3.2 | <0.01 | ||
head | C. fatioi vs. C. profundus | 1: EC/SW | 1.32–1.73 | 1.63–2.38 | 5.05 | 0.08 |
2: UJ/UJW | 1.04–1.50 | 1–1.29 | 4.28 | 0.09 | ||
head + body | C. fatioi vs. C. acrinasus | 1: CD/PostD | 0.14–0.17 | 0.16–0.2 | 8.3 | 0.05 |
2: ED/SW | 1.08–1.5 | 1.3–1.79 | 8 | 0.05 | ||
body | C. fatioi vs. C. acrinasus | 1: CD/PostD | 0.14–0.17 | 0.16–0.2 | 3.66 | 0.07 |
2: AFAe/DHL | 0.69–0.9 | 0.61–0.93 | 2.93 | 0.09 | ||
head | C. fatioi vs. C. acrinasus | 1: ED/SW | 1.08–1.5 | 1.3–1.79 | 3.05 | 0.15 |
2: MW/ES | 1.82–6.16 | 1.4–3.02 | 2.45 | 0.18 | ||
Characters | Species comparison | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (shape vs. Size) |
head + body | C. steinmanni vs. C. profundus (c) | 1: CD/DHL * | 0.53–0.63 | 0.4–0.49 | 23.9 | 0.05 |
2: CL/IOW | 2.05–2.69 | 1.69–2.28 | 23.3 | 0.05 | ||
body | C. steinmanni vs. C. profundus | 1: CD/DHL * | 0.53–0.63 | 0.4–0.49 | 9.13 | 0.14 |
2: PecF2/DFAe | 0.76–0.96 | 0.82–1.21 | 7.44 | 0.17 | ||
head | C. steinmanni vs. C. profundus | 1: SW/UJW | 0.65–0.80 | 0.54–0.69 | 5.9 | 0.12 |
2: EH/PostO | 0.36–0.47 | 0.41–0.52 | 5.37 | 0.13 | ||
head + body | C. steinmanni vs. C. acrinasus (d) | 1: CD/M * | 1.86–2.24 | 1.4–1.9 | 160.64 | <0.01 |
2: PostD/LJ | 4.96–5.9 | 4.65–5.43 | 160.6 | <0.01 | ||
body | C. steinmanni vs. C. acrinasus | 1: CD/DHL | 0.53–0.63 | 0.46–0.58 | 4.46 | 0.23 |
2: PelvF/DHL | 1.08–1.26 | 0.95–1.16 | 3.83 | 0.26 | ||
head | C. steinmanni vs. C. acrinasus | 1: ED/HD | 0.29–0.33 | 0.31–0.37 | 4.54 | 0.13 |
2: HL/M | 4.6–5.53 | 4.21–5.17 | 3.41 | 0.17 | ||
Characters | Species comparison | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (shape vs. Size) |
head + body | C. profundus vs. C. acrinasus | 1: PecF2/CD | 2.37–3.16 | 1.91–2.59 | 13.46 | 0.01 |
2: LJ/UJW | 1.34–1.86 | 1.54–2.27 | 13.12 | 0.01 | ||
body | C. profundus vs. C. acrinasus | 1: PecF2/CD | 2.37–3.16 | 1.91–2.59 | 4.58 | 0.05 |
2: DHL/TL | 0.13–0.15 | 0.12–0.13 | 3.48 | 0.06 | ||
head | C. profundus vs. C. acrinasus | 1: M/UJW | 0.69–0.94 | 0.8–1.22 | 4.45 | 0.02 |
2: EC/LJ | 0.66–0.81 | 0.58–0.72 | 3.88 | 0.02 | ||
Characters | Mulitple species comparison | Best ratios | Range group 1 | Range group 2 | Standard distance | δ (shape vs. Size) |
head + body | C. alpinus + C. steinmanni vs. 4 other species | 1: CD/UJ * | 1.36–1.65 | 0.96–1.43 | 5.34 | 0.24 |
The first- and second-best ratios retrieved from the LDA ratio extractor of either head or body characters (see Table
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
---|---|---|---|---|---|---|---|
head + body | C. albellus vs. C. alpinus (a) | <163.5mm | 1: PreA/LJ * | 6.33-7.44 | 9.24-9.97 | 27.13 | 0.04 |
2: AFAe/M | 1.65-2.25 | 2.58-2.63 | 25.94 | 0.04 | |||
body | C. albellus vs. C. alpinus | <163.5mm | 1: PecF2/DFAd * | 0.81-1.06 | 0.78-0.8 | 9.97 | 0.14 |
2: DHL/PreD | 0.34-0.42 | 0.32-0.34 | 9.4 | 0.15 | |||
head | C. albellus vs. C. alpinus | <163.5mm | 1: HD/LJ | 1.30-1.55 | 1.77-1.92 | 15.43 | 0.02 |
2: IOW/UJW | 0.89-1.30 | 1.20-1.26 | 14.14 | 0.02 | |||
head + body | C. albellus vs. C. fatioi | <163.5mm | 1: PecF2/PreA * | 0.22-0.28 | 0.2-0.22 | 5.78 | 0.16 |
2: DHL/PreP | 0.31-0.38 | 0.30-0.32 | 4.49 | 0.2 | |||
body | C. albellus vs. C. fatioi | <163.5mm | 1: PecF2/PreA * | 0.22-0.28 | 0.2-0.22 | 6.76 | 0.17 |
2: DHL/TL | 0.13-0.18 | 0.13-0.14 | 5.7 | 0.19 | |||
head | C. albellus vs. C. fatioi | <163.5mm | 1: UJ/ES * | 6.81-12.42 | 4.51-6.15 | 8.63 | 0.12 |
2: EH/HL * | 0.27-0.31 | 0.23-0.27 | 7.3 | 0.14 | |||
head + body | C. albellus vs. C. brienzii (b) | <163.5mm | 1: PreD/LJ * | 3.99-4.68 | 5.05-5.57 | 47.9 | 0.01 |
2: M/ES * | 5.35-9.76 | 3.31-4.37 | 47.63 | 0.01 | |||
body | C. albellus vs. C. brienzii | <163.5mm | 1: PecF2/PreD * | 0.36-0.45 | 0.29-0.32 | 15.95 | 0.06 |
2: DHL/TL | 0.13-0.18 | 0.13-0.14 | 9.91 | 0.05 | |||
head | C. albellus vs. C. brienzii | <163.5mm | 1: LJ/ES * | 9.62-17.28 | 6.01-6.49 | 12.51 | 0.05 |
2: HL/UJ | 2.87-3.5 | 3.19-3.6 | 8.87 | 0.04 | |||
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
head + body | C. alpinus vs. C. fatioi (b) | >163.5mm | 1: AFAe/UJ * | 1.96-2.5 | 1.66-1.96 | 26.08 | 0.04 |
2: CL/PreA | 0.14-0.18 | 0.17-0.21 | 26.46 | 0.04 | |||
body | C. alpinus vs. C. fatioi | >163.5mm | 1: AFae/TL | 0.1-0.11 | 0.09-0.1 | 13.41 | 0.11 |
2: CL/PreA | 0.14-0.18 | 0.17-0.21 | 13.41 | 0.11 | |||
head | C. alpinus vs. C. fatioi | >163.5mm | 1: HL/UJ * | 3.55-3.93 | 3.13-3.55 | 11.51 | 0.07 |
2: LJW/UJW | 0.33-0.44 | 0.38-0.55 | 11.02 | 0.07 | |||
head + body | C. alpinus vs. C. brienzii (c) | >163.5mm | 1: CD/SW * | 2.25-2.64 | 1.82-2.04 | 34.25 | 0.02 |
2: LJW/UJW * | 0.33-0.44 | 0.45-0.55 | 33.91 | 0.02 | |||
body | C. alpinus vs. C. brienzii (d) | >163.5mm | 1: DFAe/PAdC * | 1.11-1.32 | 0.96-1.16 | 18.53 | 0.07 |
2: CD/AFB | 0.61-0.68 | 0.52-0.62 | 18.31 | 0.07 | |||
head | C. alpinus vs. C. brienzii (e) | >163.5mm | 1: LJW/UJW * | 0.33-0.44 | 0.45-0.55 | 7.44 | 0.08 |
2: PostO/UJ | 1.8-2.12 | 1.57-1.86 | 6.78 | 0.08 | |||
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
head + body | C. fatioi vs. C. brienzii (f) | >163.5mm | 1: CL/PAdC | 0.71-0.86 | 0.66-0.76 | 7.46 | 0.08 |
2: BD/LJ | 2.44-3.05 | 2.31-2.82 | 7.36 | 0.08 | |||
body | C. fatioi vs. C. brienzii | >163.5mm | 1: CL/PAdC | 0.71-0.86 | 0.66-0.76 | 6.04 | 0.1 |
2: CF/BD | 0.87-1.13 | 0.93-1.12 | 5.92 | 0.1 | |||
head | C. fatioi vs. C. brienzii | >163.5mm | 1: ED/M | 1.03-1.19 | 1.04-1.57 | 3.58 | 0.18 |
2: HW/UJW | 1.89-2.23 | 1.88-2.33 | 3.38 | 0.19 | |||
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
head + body | C. alpinus vs. other 3 species | <163.5mm | 1: DFAd/LJ * | 2.57-2.58 | 1.6-2.1 | 23.47 | 0.03 |
2: AdFB/PAdC | 0.26-0.28 | 0.21-0.42 | 22.66 | 0.03 | |||
head + body | C. albellus vs. other 3 species | <163.5mm | 1: PostD/EH * | 5.47-6.93 | 7.5-8.9 | 48.36 | 0.02 |
2: UJW/ES | 4.88-9.3 | 3.41-5.31 | 48.13 | 0.02 | |||
head + body | C. alpinus vs. C. fatioi + C. brienzii (g) | >163.5mm | 1: DFAe/UJ * | 3.28-4.1 | 2.58-3.19 | 24.71 | 0.05 |
2: CD/SW * | 2.25-2.64 | 1.76-2.27 | 24.37 | 0.05 | |||
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
head + body | C. albellus vs. C. alpinus (h) | 100-290 | 1: PreD/LJ * | 3.99-4.68 | 5.6-6.81 | 22.86 | 0.13 |
2: DFAe/UJ * | 2.14-2.79 | 3.25-4.1 | 21.65 | 0.14 | |||
head | C. albellus vs. C. alpinus | 100-290 | 1: HD/UJ * | 1.87-2.2 | 2.38-2.78 | 14.39 | 0.18 |
2: LJ/IOW * | 1.53-1.99 | 1.33-1.57 | 13.25 | 0.19 | |||
head + body | C. albellus vs. C. fatioi | 100-290 | 1: PreP/EH * | 6.56-7.98 | 8.94-11.43 | 15.95 | 0.13 |
2: CL/UJ | 1.44-2.02 | 1.93-2.72 | 15.09 | 0.14 | |||
head + body | C. albellus vs. C. brienzii (i) | 100-290 | 1: PreD/EH * | 6.1-7.58 | 8.12-10.32 | 50.86 | 0.04 |
2: CL/LJ | 0.99-1.45 | 1.38-1.65 | 50.6 | 0.04 | |||
head | C. albellus vs. C. brienzii | 100-290 | 1: EH/HL * | 0.27-0.31 | 0.22-0.27 | 9.33 | 0.18 |
2: LJ/ES | 9.62-17.28 | 6.08-12.43 | 8.57 | 0.22 | |||
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
head + body | C. alpinus vs. C. brienzii (j) | 100-290 | 1: DFAd/LJW * | 9.84-14.82 | 6.05-8.91 | 20.72 | 0.03 |
2: DHL/LJ * | 1.84-2.22 | 1.63-1.82 | 20.47 | 0.02 | |||
body | C. alpinus vs. C. brienzii (k) | 100-290 | 1: PecF2/DFAd * | 0.74-0.85 | 0.85-1.03 | 87.52 | <0.01 |
2: CD/PostD | 0.17-0.2 | 0.15-0.18 | 87.48 | <0.01 | |||
head | C. alpinus vs. C. brienzii | 100-290 | 1: HD/LJW * | 6.72-9.39 | 5.23-6.66 | 11.94 | 0.04 |
2: HL/LJ * | 2.54-2.96 | 2.19-2.47 | 11.61 | 0.04 | |||
head + body | C. alpinus vs. C. fatioi (h) | 100-290 | 1: DFAe/UJ * | 3.25-4.1 | 2.45-3.17 | 18.98 | 0.03 |
2: PecF2/AFAe | 1.24-1.47 | 1.37-1.63 | 18.63 | 0.03 | |||
body | C. alpinus vs. C. fatioi | 100-290 | 1: PecF2/DFAe | 0.77-0.89 | 0.87-1.02 | 9.25 | 0.08 |
2: AFAe/PostD | 0.27-0.32 | 0.22-0.29 | 8.71 | 0.08 | |||
head | C. alpinus vs. C. fatioi | 100-290 | 1: LJW/UJW | 0.33-0.47 | 0.37-0.55 | 5.62 | 0.08 |
2: HL/UJ | 3.43-3.93 | 3.13-3.63 | 4.98 | 0.08 | |||
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
head + body | C. fatioi vs. C. brienzii (l) | 100-290 | 1: AFB/BD | 0.45-0.67 | 0.44-0.58 | 28.19 | <0.01 |
2: PreD/M | 8.87-14.85 | 9.13-11.41 | 28.16 | <0.01 | |||
body | C. fatioi vs. C. brienzii | 100-290 | 1: AFB/BD | 0.45-0.67 | 0.44-0.58 | 2.76 | 0.05 |
2: PreP/PreA | 0.58-0.65 | 0.57-0.64 | 2.51 | 0.05 | |||
head | C. fatioi vs. C. brienzii | 100-290 | 1: ED/M | 1.04-1.57 | 1.03-1.28 | 1.72 | 0.1 |
2: SN/MW | 2.09-2.63 | 1.78-2.87 | 1.52 | 0.1 | |||
Characters | Species comparison | Size range | Best ratios | Range species 1 | Range species 2 | Standard distance | δ (Shape vs. size) |
head + body | C. albellus vs. other 3 species | 100-290 | 1: PreD/EH * | 6.1-7.58 | 8.12-10.5 | 10.89 | 0.16 |
2: CL/UJ | 1.44-2.02 | 1.85-2.72 | 9.79 | 0.17 | |||
head + body | C. alpinus vs. other 3 species | 100-290 | 1: DFAe/UJ * | 3.25-4.1 | 2.14-3.19 | 9.59 | 0.11 |
2: LJW/UJW | 0.33-0.47 | 0.34-0.55 | 8.98 | 0.12 |
Morphological and meristic data of C. gutturosus Gmelin, 1818, C. arenicolus Kottelat, 1997, C. macrophthalmus Nüsslin, 1882 and C. wartmanni Bloch, 1784 from Lake Constance. Coregonus gutturosus Gmelin, 1818, non-types N = 10. Coregonus arenicolus Kottelat, 1997, holotype, NMBE-1076223 (Eawag-239–1), sex unknown; paratypes N = 3. Coregonus macrophthalmus Nüsslin, 1882, syntypes N = 7. C. wartmanni Bloch, 1784, non- type, NMBE-1076206, female.
Morphological characters | C. gutturosus | C. arenicolus | C. macrophthalmus | C. wartmanni | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|
Non-types (N=10) | Holotype | Paratypes (N=3) | Syntypes (N=7) | Non-type | |||||||
N -total | Mean±StDev | Range | N -total | Mean±StDev | Range | N -total | Mean±StDev | Range | |||
SL (mm) | 10 | 220.4±36.8 | (169–292) | 296.0 | 3 | 301.3±12.5 | (289–314) | 7 | 213.9±12.4 | (193–235) | 301 |
Percentage of standard length | |||||||||||
PelvFB | 10 | 4.1±0.2 | (3.7–4.4) | 3.9 | 3 | 4.4±0.3 | (3.9–4.6) | 7 | 3.8±0.3 | (3.3–4.2) | 3.8 |
PelvFS | 10 | 6.1±0.4 | (5.3–6.7) | 5.4 | 3 | 5.7±0.5 | (5.2–6.1) | 7 | 5.7±0.7 | (4.8–6.9) | 6.5 |
PelvF | 10 | 17.1±1.2 | (15.4–19.1) | 17.3 | 3 | 17.3±0.7 | (16.8–18.1) | 7 | 16.5±0.9 | (15.2–17.6) | 15.4 |
PecFB | 10 | 3.4±0.3 | (2.9–3.9) | 3.3 | 3 | 3.4±0.2 | (3.2–3.5) | 7 | 3.2±0.4 | (2.8–3.9) | 3 |
PecF1 | 10 | 16.8±1.1 | (14.8–18.9) | 14.4 | 3 | 16.8±0.5 | (14.4–17.2) | 7 | 16.4±1.2 | (15.1–18.1) | 16 |
PecF2 | 10 | 18.2±1.5 | (16.8–20.3) | 15.7 | 3 | 17.4±0.8 | (15.7–18) | 7 | 17.1±1 | (15.6–18.4) | 17 |
DFB | 10 | 11.9±0.7 | (10.7–12.8) | 12.2 | 3 | 12.2±1.1 | (11.0–13.1) | 7 | 11.6±0.7 | (10.8–12.4) | 11.2 |
DFAe | 10 | 19.3±1.3 | (17.6–21.6) | 18.9 | 3 | 19.2±1.2 | (18.0–20.3) | 7 | 18.2±1.2 | (16.6–19.6) | 16.6 |
DFAd | 10 | 20.4±1.1 | (19.0–22.2) | 20.2 | 3 | 20.5±1.3 | (19.3–21.9) | 7 | 19.2±1.3 | (17.2–20.5) | 18.2 |
DFPe | 10 | 5.5±0.7 | (4.8–7.0) | 5.2 | 3 | 5.5±0.2 | (5.2–5.7) | 7 | 5.2±0.6 | (4.4–5.9) | 4.6 |
AFB | 10 | 12.4±0.8 | (11.4–13.4) | 11.9 | 3 | 11.5±1.1 | (10.7–12.7) | 7 | 12.3±1.3 | (10.6–14.2) | 12.5 |
AFAe | 10 | 12.3±1.0 | (10.7–13.9) | 13.2 | 3 | 13.3±0.5 | (12.9–13.8) | 5 | 12.1±1.3 | (10.8–13.9) | 11.1 |
AdFB | 10 | 5.6±0.4 | (4.9–6.1) | 5.7 | 3 | 5.0±1.3 | (3.7–6.2) | 7 | 5.3±0.3 | (4.9–5.8) | 4 |
CF | 9 | 23.2±1.9 | (20.8–25.6) | na | 2 | 24±0.1 | (24–24.1) | 3 | 22.6±1.2 | (21.8–24) | 23.8 |
CD | 10 | 7.4±0.4 | (6.7–8.2) | 7.7 | 3 | 8.1±0.1 | (7.7–8.2) | 7 | 7.4±0.4 | (6.9–8) | 7.4 |
CL | 10 | 12.9±0.8 | (11.5–13.9) | 14.4 | 3 | 12.9±0.8 | (12.0–14.4) | 7 | 13.8±1.3 | (12.4–16.5) | 13.2 |
PAdC | 10 | 18.5±0.6 | (17.4–19.3) | 19.6 | 3 | 17.2±2.2 | (14.6–19.6) | 7 | 18.9±1.1 | (17.6–20.2) | 17.8 |
DHL | 10 | 16.8±0.8 | (15.4–18.1) | 15.1 | 3 | 15.1±0.2 | (14.8–15.3) | 7 | 15.7±0.8 | (14.4–16.5) | 14.5 |
PreP | 10 | 52.7±1.4 | (50.4–54.1) | 49.5 | 3 | 50.6±0.5 | (49.5–51.0) | 7 | 51.7±1.7 | (48.1–53.1) | 50.7 |
PreA | 10 | 77.9±1.4 | (76.0–80.4) | 75.0 | 3 | 79.2±0.9 | (75.0–80.3) | 7 | 76.8±0.9 | (75.7–78.3) | 77.4 |
PreD | 10 | 48.4±0.9 | (46.8–49.6) | 47.9 | 3 | 49.2±0.5 | (47.9–49.6) | 7 | 47±1 | (45.8–48.5) | 47.3 |
BD | 10 | 25.9±1.9 | (22.9–29.6) | 24.4 | 3 | 26.2±0.8 | (24.4–27.1) | 7 | 23.5±1.9 | (21.0–26.9) | 23.5 |
PostD | 10 | 43±1.5 | (40.6–45.4) | 44.8 | 3 | 42.2±1.7 | (40.4–44.8) | 7 | 43±1.4 | (41.6–45.7) | 44 |
TL | 9 | 120.2±3 | (115.1–124.3) | na | 2 | 121.5±2.9 | (119.4–123.5) | 3 | 119.2±0.7 | (118.9–120) | 120.6 |
HL (mm) | 10 | 50.3±7.1 | (41.6–62.4) | 61.8 | 3 | 63.7±3.9 | (59.6–67.2) | 7 | 47.5±3.2 | (42.6–51.3) | 64.7 |
Percentage of head length | |||||||||||
SN | 10 | 22.4±0.7 | (21.1–23.1) | 23.4 | 3 | 23.4±1.6 | (21.6–24.6) | 7 | 21.7±2.7 | (18–25.6) | 24 |
ED | 10 | 21.1±1.4 | (19.4–23) | 19.6 | 3 | 17.7±0.4 | (17.3–19.6) | 7 | 24.1±1.7 | (21.3–26.1) | 18.9 |
EC | 10 | 26.9±1.2 | (25.4–29.3) | 25.7 | 3 | 25±0.8 | (24.1–25.7) | 7 | 28.9±2 | (25.4–30.8) | 23.9 |
EH | 10 | 21.3±0.6 | (20.5–22.6) | 20.8 | 3 | 19.6±0.9 | (18.8–20.8) | 7 | 23.2±2.1 | (19.5–25.6) | 19 |
ES | 10 | 4.8±0.7 | (3.5–5.6) | 4.9 | 3 | 5.2±0.5 | (4.6–5.5) | 7 | 3.9±0.8 | (2.7–4.6) | 5.1 |
PostO | 10 | 52.8±1 | (51.5–54.4) | 55.7 | 3 | 54±1 | (53–55.7) | 7 | 50.2±1.9 | (48.5–53.2) | 53.4 |
HD | 10 | 74.2±3.2 | (69.9–80.6) | 68.2 | 3 | 72.6±3 | (68.2–75) | 7 | 68.6±4.8 | (61.6–76.3) | 67.6 |
MW | 10 | 9.8±0.6 | (9–11.2) | 10.4 | 3 | 10.5±0.5 | (10–11) | 6 | 10.1±0.8 | (8.7–11.1) | 10.6 |
UJ | 10 | 26.8±1.2 | (24.6–29) | 27.2 | 3 | 29.3±1 | (27.2–30.1) | 7 | 30.3±2.3 | (26.7–33.8) | 28.8 |
LJ | 10 | 36.6±1.4 | (34.3–39.1) | 37.8 | 3 | 38.7±0.6 | (37.8–39.1) | 7 | 42.2±2 | (40–44.4) | 43.5 |
M | 10 | 18.9±1.3 | (17.3–21.7) | 21.1 | 3 | 19.7±0.9 | (18.6–21.1) | 5 | 23.1±1.9 | (20.1–24.7) | 22 |
SD | 10 | 10.2±0.8 | (9.3–11.9) | 9.7 | 3 | 10.9±1.3 | (9.7–12.3) | 7 | 7.4±1.2 | (5.5–9.5) | 6.8 |
SW | 10 | 15.1±1.6 | (12.3–17.6) | 14.9 | 3 | 17.8±0.7 | (14.9–18.5) | 7 | 15.6±1.2 | (14.1–17.4) | 15 |
HW | 10 | 56.1±4.3 | (46.7–62.3) | 51.8 | 3 | 50.8±0.5 | (50.5–51.8) | 7 | 41.6±1.5 | (39.3–43.3) | 45.5 |
IOW | 10 | 28.4±1.7 | (26.2–31.6) | 29.6 | 3 | 29.7±1 | (28.8–30.8) | 7 | 26.1±1.6 | (23.8–28.9) | 24.2 |
INW | 10 | 11.9±0.7 | (10.7–12.7) | 12.0 | 3 | 13.7±0.1 | (12–13.8) | 5 | 11.9±1.3 | (10.7–14.1) | 12.7 |
LJW | 10 | 7.7±1 | (6.8–9.9) | 7.8 | 3 | 8.1±0.3 | (7.8–8.5) | 5 | 7.8±1 | (6.4–8.8) | 8.1 |
UJW | 10 | 25.2±1.2 | (23.1–26.8) | 24.9 | 3 | 26.4±0.8 | (24.9–27.2) | 7 | 21.6±1.9 | (18.6–24.6) | 22.7 |
MGR | 9 | 6.9±1.3 | (4.1–8.7) | 9.9 | 2 | 10.2±0.6 | (9.8–10.6) | 4 | 12.5±1.4 | (11.6–14.7) | 10.8 |
LGR | 9 | 8.2±1.4 | (6.7–10.6) | 10.9 | 2 | 11.5±0.6 | (10.9–12) | 4 | 14.6±1.2 | (13.3–16.1) | 11.3 |
UA | na | na | na | na | na | na | na | na | na | na | na |
LA | na | na | na | na | na | na | na | na | na | na | na |
Meristic character | N-total | Mode | Range | N-total | Mode | Range | N-total | Mode | Range | ||
PelvF nbranched | 10 | 1 | (1–1) | 1 | 3 | 1 | (1–1) | 7 | 1 | (1–1) | 1 |
PelvF branched | 10 | 11 | (9–11) | 11 | 3 | 11 | (11–11) | 7 | 10 | (10–11) | 12 |
PecF nbranched | 10 | 1 | (1–1) | 1 | 3 | 1 | (1–1) | 7 | 1 | (1–1) | 1 |
PecF branched | 10 | 13 | (12–14) | 12 | 3 | 12 | (12–14) | 7 | 15 | (14–15) | 16 |
DF unbranched | 10 | 4 | (3–4) | 4 | 3 | 4 | (4–4) | 7 | 4 | (4–4) | 4 |
DF branched | 10 | 10 | (9–10) | 9 | 3 | 10 | (9–10) | 7 | 9 | (9–10) | 10 |
AF unbranched | 10 | 3 | (3–4) | 3 | 3 | 3 | (3–3) | 7 | 3 | (3–4) | 4 |
AF branched | 10 | 11 | (10–12) | 10 | 3 | 10 | (10–11) | 7 | 11 | (10–13) | 13 |
LS | 10 | 78 | (76–82) | 82 | 3 | na | (82–90) | 7 | 80 | (73–80) | 84 |
PDS | 10 | 33 | (31–35) | 36 | 3 | na | (36–44) | 7 | 32 | (32–36) | 34 |
TDS | 10 | 10 | (9–10) | 10 | 3 | 10 | (10–11) | 7 | 9 | (9–10) | 10 |
TAS | 10 | 8 | (7–9) | 8 | 3 | 9 | (8–9) | 7 | 7 | (7–9) | 8 |
TPS | 10 | 8 | (8–9) | 8 | 3 | 9 | (8–9) | 7 | 7 | (7–9) | 8 |
UGR | 9 | 7 | (7–9) | 9 | 2 | na | (9–12) | 4 | 14 | (12–14) | 11 |
LGR | 9 | 10 | (9–12) | 13 | 2 | na | (13–19) | 4 | 24 | (22–24) | 23 |
total GR | 9 | 19 | (16–21) | 22 | 2 | na | (22–31) | 4 | 36 | (36–38) | 34 |
Illustrations of specimens of each species from Lake Thun. From top to bottom: Coregonus alpinus: non-type, NMBE-1077244, 343 mm, male; Coregonus steinmanni: paratype, NMBE-1077218, 289.5 mm, male; Coregonus acrinasus: paratype, NMBE-1077270, 270 mm, male; Coregonus fatioi: nontype, NMBE-1077138, 267 mm, male; Coregonus albellus: non-type, NMBE-1077188, 215 mm, male; Coregonus profundus: non-type, Eawag-123850, 195 mm, male. The black scale (1cm) below each fish acts as a reference for the actual size of the specimen.
Phylogeographic studies have shown that the pre-alpine whitefish are a monophyletic clade, most closely related to whitefish from northern Europe. The clade is of hybrid origin involving two glacial lineages that must have come into secondary contact several hundred thousand years after their separation. Independent events of intra-lacustrine speciation led to a series of adaptive radiations in each major lake system of the northern pre-Alps (
Based on genetic, morphological and ecological data at least two species from the Lake Thun-Brienz radiation, namely C. albellus (since at least 2004:
Lakes Thun and Brienz in the Bernes Highlands today harbour the most speciose pre-alpine whitefish radiation. These lakes have also suffered the least anthropogenic pressures of all the large pre-alpine lakes in Switzerland. Species delineation and description in such rich radiations require an integrative approach to taxonomy, combining morphology with population genetics and ecology and extensive contemporary and historical specimen collections. Such work is also much needed for conservation-minded fisheries management because, as we have shown here and others before us (
Many thanks to the commercial fisherwomen and fishermen of lakes Thun, Brienz, and Biel and the cantonal fisheries authorities of Bern for their help, hospitality, and sharing of knowledge about the whitefish species of all three lakes. Especially the fisherwomen and fishermen Edith Klopfenstein, Kurt Klopfenstein, Elsbeth Abegglen, Beat Abegglen and Stefan Dasen and the cantonal fisheries warden of Bern, Benjamin Gugger, have been essential in many aspects and especially so in the collection of specimens of the rare species from all three lakes. We would also like to thank the people who helped in the field (Marta Reyes, Pascal Reichlin, Felix Vögtli, Jana Jucker, Andreas Taverna, Dr. Marcel Häsler, Jonas Walker, Dr. Philine Feulner, Dr. Miguel Leal, Dr. Jaime Mauricio-Anayas, Hélène Hefti, Dr. Florian Moser, Andrin Krähenbühl, David Frei, Dr. Kotaro Kagawa). We are grateful to Dr. Rudolf Müller in introducing OMS into the methods of how to read and age scales. We thank Dr. Lukas Rüber and the Natural History Museum in Bern for the adoption and curation of the Seehausen/Steinmann whitefish collection and the Natural History Museum in Geneva for granting us access to their collection. Many thanks to Verena Kälin (www.rubia-tinctorum.ch) for the brilliant scientific illustrations. Finally, thanks to Dr. David Bittner and the Eawag Fish Ecology & Evolution group and University of Bern Aquatic Ecology group for helpful discussions. This work was funded through the BAFU (Swiss Federal Officefor the Environment) grant "A2310.0132 Wasser", financing the project "Felchenvielfalt der Schweizer Seen", which is an action plan to revise the Swiss whitefish taxonomy granted to OS. Additional funding derived from the Department of Fish Ecology and Evolution at EAWAG and the division Aquatic Ecology and Evolution at the University of Bern.