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ArticlesBraz. j. oceanogr. 64 (spe1) 2016https://doi.org/10.1590/S1679-875920150988064(sp1)   copy

Atlas of marine bony fish otoliths (sagittae) of Southeastern-Southern Brazil Part III: Clupeiformes (Clupeidae, Engraulidae, Pristigasteridae)

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

This publication is the second in a series that will together constitute an Atlas of Teleostei Otoliths for the Southeastern-Southern Brazilian area. Here we present results of morphologic and morphometric analyses of 12 Clupeiform species (3 Clupeidae, 7 Engraulidae and 2 Pristigasteridae) by means of the most commonly used features, measurements and indices. Three otoliths of each species have been illustrated and photographed whenever possible. The frequency of occurrence has been calculated for each characteristic by total length class (TL), and the ontogenetic differences have been analyzed (multiple χ² test; significance 0.05).

Descriptors:
Otoliths; Morphology; Morphometry; Southwestern Atlantic; Brazil; Clupeiformes

RESUMO

Esta publicação é a segunda de uma série que constituirá um Atlas de Otólitos para os Teleostei da região Sudeste-Sul brasileira. Nela são apresentados os resultados de análises morfológicas e morfométricas de 12 espécies de Clupeiformes (3 Clupeidae, 7 Engraulidae e 2 Pristigasteridae) através de feições, medidas e índices usualmente utilizados. Três otólitos de cada espécie foram desenhados e fotografados, sempre que possível. A frequência de ocorrência foi calculada para cada característica por classes de comprimento total dos peixes (CT) e as diferenças ontogenéticas foram analisadas (Teste χ² múltiplo; significância 0,05).

Descritores:
Otólitos; Morfologia; Morfometria; Atlântico Sudoeste; Brasil; Clupeiformes

INTRODUCTION

Otolith size and shape differ among species, among populations and within each species. These variations are influenced during development by both genetic and environmental factors. Due to their intra and interspecific variation in shape, otoliths are useful in many studies: taxonomy, phylogeny, archeology, paleontology, species' geographical variation, stock identification, food webs and others.

Many papers have been published since the 1980s showing the value of photographs and drawings in the analysis of otolith features. Parallel to this development, otolith collections have proved to be useful in the analysis of past populations' genetics and populations' structure, growth dynamics and environmental conditions.

Recently, during the 5th International Otolith Symposium, held in Palma de Mallorca, between 20 and 24 October 2014, the latest developments in otolith analytical techniques and novel applications were presented. A special workshop on otolith shape analysis was held focusing on these structures as indicators for community, population and individual analysis, and environmental events.

The Collection of Teleostei Fish Otoliths of the Southeastern-Southern Brazilian region (COSS-Brasil) held at the Instituto Oceanográfico - USP, (IOUSP) contains around 45,000 pairs of otoliths from 210 species.

Following ROSSI-WONGTSCHOWSKI et al. (2014)ROSSI-WONGTSCHOWSKI, C. L. D. B.; SILIPRANDI, C. C.; BRENHA, M. R.; GONSALES, S. A.; SANTIFICETUR, C.; VAZ-DOS-SANTOS, A. M. Atlas of marine bony fish otoliths (sagittae) of Southeastern-southern Brazil. Part I: Gadiformes (Macrouridae, Moridae, Bregmacerotidae, Phycidae and Merlucciidae); Part II: Perciformes (Carangidae, Sciaenidae, Scombridae and Serranidae). Braz. J. Oceanogr., v. 62, no.spe1, p. 1-103, 2014., in this second publication (PART III) of a series that will together constitute an Atlas of Otoliths of the Southeastern-southern Brazilian region we present the results of the morphologic and morphometric analyses of Clupeiformes species (3 Clupeidae, 7 Engraulidae and 2 Pristigasteridae), by means of the most commonly used features, measurements and indices.

MATERIAL AND METHODS

The sampling area and the methodology followed those presented in ROSSI-WONGTSCHOWSKI et al. (2014)ROSSI-WONGTSCHOWSKI, C. L. D. B.; SILIPRANDI, C. C.; BRENHA, M. R.; GONSALES, S. A.; SANTIFICETUR, C.; VAZ-DOS-SANTOS, A. M. Atlas of marine bony fish otoliths (sagittae) of Southeastern-southern Brazil. Part I: Gadiformes (Macrouridae, Moridae, Bregmacerotidae, Phycidae and Merlucciidae); Part II: Perciformes (Carangidae, Sciaenidae, Scombridae and Serranidae). Braz. J. Oceanogr., v. 62, no.spe1, p. 1-103, 2014..

The acronyms in the shape indices tables represent: TL = total fish length, OL = otolith length, OH = otolith height and OT = otolith thickness.

RESULTS

FAMILY CLUPEIDAE

Otolith shape tends to be rectangular, the anterior region is clearly peaked to lanceolated, the rostrum and antirostrum being well developed and the pseudorostrum and pseudoantirostrum always absent.

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Harengula clupeola (Cuvier 1829) - Plate 1

Plate 1
Illustrations (above) and photographs (below) of Harengula clupeola otoliths from fishes with total lengths: A. 65 mm; B. 128 mm; C. 190 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; and the ventral profile in A3, B3, C3 (Illustration: Silvia de Almeida Gonsales; Photos: Cesar Santificetur).

Shape: elliptic to rectangular (52.33%), rectangular, elliptic. Anterior region: peaked (97.67%), peaked-round. Posterior region: round (86.05%), angled-round. Dorsal edge: sinuate to entire (75.58%), entire, lobed to sinuate. Ventral edge: lobed to sinuate (44.19%), dentate to sinuate, sinuate to entire. Profile: concave-convex (88.37%), plane. Rostrum and antirostrum orientation: in agreement (88.37%), in disagreement. Rostrum: developed. Antirostrum: developed. Sulcus acusticus: position: median; orientation: slightly ascending (52.33%), horizontal (47.67%); opening: ostial; morphology: heterosulcoid (88.37%), pseudo-archaesulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic (50%), oval, tubular slightly curved.

Significant differences (p < 0.05) were found within some length classes for otolith shape, anterior and posterior regions, dorsal and ventral edges, sulcus acusticus and cauda morphology, otolith profile, rostrum and antirostrum orientation. Over the period of the fishes' development differences were found in otolith shape, anterior and posterior regions, dorsal edge, sulcus acusticus orientation and morphology, cauda morphology, profile and rostrum and antirostrum orientation.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.30 ± 0.33 1.66 3.11 OH/OL (%) 57.15 ± 3.06 51.41 66.67 OT/OL (%) 21.03 ± 2.38 15.53 30.11 OT/OH (%) 36.77 ± 3.34 29.60 46.55 Circularity 21.85 ± 2.36 16.36 27.38 Rectangularity 0.71 ± 0.02 0.67 0.75
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Opisthonema oglinum (Lesueur 1818) - Plate 2

Plate 2
Illustrations (above) and photographs (below) of Opisthonema oglinum otoliths from fishes with total lengths: A. 130 mm; B. 224 mm; C. 312 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; and the ventral profile in A3, B3, C3 (Ilustration: Silvia de Almeida Gonsales; Photos: Cesar Santificetur).

Shape: rectangular to lanceolated (97.73%), rectangular. Anterior region: lanceolated (97.73%), peaked. Posterior region: round. Dorsal edge: sinuate to entire (55.68%), sinuate, entire, lobed to entire. Ventral edge: dentate to entire (46.59%), dentate to sinuate, lobed to sinuate, sinuate to entire. Profile: concave-convex (94.32%), flattened. Rostrum and antirostrum orientation: in agreement (68.18%), in disagreement. Rostrum: developed. Antirostrum: developed. Sulcus acusticus: position: median; orientation: horizontal (92.05%), slightly ascending; opening: ostial; morphology: pseudo-archaesulcoid (65.91%), heterosulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic (97.73%), tubular slightly curved.

Significant differences (p < 0.05) were found inside some length classes for otolith shape, anterior region, dorsal and ventral edges, sulcus acusticus morphology and orientation, cauda morphology, otolith profile and rostrum and antirostrum orientation. Over the period of the fishes' development significant differences were obtained in otolith shape, anterior region, dorsal and ventral edge, sulcus acusticus morphology and orientation, cauda orientation, rostrum and antirostrum orientation.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 1.79 ± 0.23 1.29 2.73 OH/OL (%) 49.16 ± 2.65 44.04 54.98 OT/OL (%) 14.78 ± 1.42 9.36 18.93 OT/OH (%) 30.07 ± 2.51 18.39 36.06 Circularity 27.23 ± 3.60 20.84 37.76 Rectangularity 0.71 ± 0.02 0.65 0.75
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Sardinella brasiliensis (Steindachner 1879) - Plate 3

Plate 3
Illustrations (above) and photographs (below) of Sardinella brasiliensis otoliths from fishes with total lengths: A. 93 mm; B. 170 mm; C. 234 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; and the ventral profile in A3, B3, C3 (Illustration: Alexandre Arackawa; Photos: Cesar Santificetur).

Shape: rectangular to lanceolated (90.91%), elliptic rectangular, rectangular. Anterior region: lanceolated (90.91%), peaked. Posterior region: oblique-round (87.19%), round, blunt-round. Dorsal edge: sinuate to entire (58.44%), lobed to sinuate, entire. Ventral edge: lobed to entire (49.35%), dentate to sinuate, dentate to lobed, sinuate to entire. Profile: concave-convex (71.43%), plane. Rostrum and antirostrum orientation: in agreement (62.34%), in disagreement. Rostrum: developed. Antirostrum: developed. Sulcus acusticus: position: median; orientation: horizontal (72.73%), slightly ascending; opening: ostial; morphology: pseudo-archaesulcoid (68.83%), heterosulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic (71.43%), oval.

Significant differences (p < 0.05) were found within some length classes in otolith shape, anterior and posterior regions, dorsal and ventral edges, morphology and orientation of the sulcus acusticus , cauda morphology and otolith profile. During the fishes' development differences were found in otolith shape, anterior and posterior regions, and sulcus acusticus morphology and orientation.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.04 ± 0.29 1.58 2.75 OH/OL (%) 45.08 ± 5.18 36.10 65.22 OT/OL (%) 14.14 ± 3.29 8.10 25.22 OT/OH (%) 31.11 ± 4.73 20.94 43.33 Circularity 26.31 ± 3.24 17.29 33.04 Rectangularity 0.69 ± 0.02 0.65 0.73

FAMILY ENGRAULIDAE

The shape is elliptic, the anterior region is peaked-round, the antirostrum is undeveloped and pseudorostrum and pseudoantirostrum always absent.

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Anchoa filifera (Fowler 1915) - Plate 4

Plate 4
Illustrations (above) and photographs (below) of Anchoa filifera otoliths from fishes with total lengths: A. 85 mm; B. 135 mm. The medial face is shown in A1, B1; the lateral face in A2, B2; and the ventral profile in A3, B3 (Illustration: Silvia de Almeida Gonsales; Photos: Alexandre Arackawa).

Shape: elliptic. Anterior region: peaked. Posterior region: round (33.33%), angled (33.33%), peaked-angled (33.33%). Dorsal edge: sinuate to entire (66.67%), sinuate. Ventral edge: sinuate to serrate (83.33%), lobed to sinuate. Profile: plane-convex (66.67%), concave-convex. Rostrum and antirostrum orientation: in agreement. Rostrum: developed. Antirostrum: developed (66.67%), undeveloped. Sulcus acusticus: position: median; orientation: horizontal; opening: ostial; morphology: heterosulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic.

The small number of otoliths examined did not permit statistical analysis of the data but their morphometric characteristics are shown below:

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.82 ± 0.67 2.03 3.56 OH/OL (%) 57.36 ± 3.80 52.08 61.39 OT/OL (%) 18.85 ± 2.29 15.80 21.19 OT/OH (%) 32.80 ± 2.61 29.36 36.16 Circularity 17.46 ± 1.15 16.50 19.14 Rectangularity 0.69 ± 0.02 0.67 0.72
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Anchoa lyolepis (Evermann & Marsh 1900) - Plate 5

Plate 5
Illustrations (above) and photographs (below) of Anchoa lyoleps otoliths from fishes with total lengths: A. 59 mm; B. 80 mm. The medial face is shown in A1, B1; the lateral face in A2, B2; the ventral profile in A3, B3 (Illustration: Alexandre Arackawa; Photos: Alexandre Arackawa).

Shape: elliptic. Anterior region: peaked. Posterior region: round. Dorsal edge: sinuate to entire (50%), sinuate, entire. Ventral edge: sinuate to entire (50%), sinuate to serrate (50%). Profile: plane-convex (75%), concave-convex. Rostrum and antirostrum orientation: in agreement. Rostrum: developed. Antirostrum: undeveloped (75%), absent. Sulcus acusticus: position: median; orientation: horizontal; opening: ostial; morphology: heterosulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic.

The small number of otoliths examined did not permit the statistical analysis of the data but their morphometric characteristics are shown below:

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 3.04 ± 0.18 2.91 3.30 OH/OL (%) 53.23 ± 2.88 50.64 56.07 OT/OL (%) 20.95 ± 0.95 20.09 22.03 OT/OH (%) 39.44 ± 2.58 36.08 42.37 Circularity 16.62 ± 0.50 16.04 17.24 Rectangularity 0.72 ± 0.01 0.70 0.74
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Anchoa tricolor (Spix & Agassiz 1829) - Plate 6

Plate 6
Illustrations (above) and photographs (below) of Anchoa tricolor from fishes with total lengths: A. 43 mm; B.86 mm; C. 129 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; and the ventral profile in A3, B3, C3 (Illustration: Alexandre Arackawa; Photos: Cesar Santificetur).

Shape: elliptic. Anterior region: peaked (78.13%), peaked-round, angled. Posterior region: round (65.63%), angled-round. Dorsal edge: entire (56.25%), sinuate. Ventral edge: sinuate to entire (34.38%), sinuate to serrate, sinuate, entire to serrate. Profile: flattened (40.63%), concave-convex, plane-convex. Rostrum and antirostrum orientation: in agreement (84.38%), except when the antirostrum is undeveloped or absent. Rostrum: developed. Antirostrum: developed (56.25%), undeveloped, absent. Sulcus acusticus: position: median; orientation: horizontal; opening: ostial; morphology: heterosulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic.

Significant differences (p < 0.05) were found within some length classes in anterior and posterior regions, dorsal edge, otolith profile, rostrum and antirostrum orientation and antirostrum development. Over the period of the fishes' development differences were found only in the posterior region of the otoliths.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.75 ± 0.28 2.17 3.52 OH/OL (%) 59.81 ± 4.43 49.39 67.27 OT/OL (%) 20.22 ± 1.92 16.36 24.55 OT/OH (%) 33.79 ± 1.74 29.93 36.99 Circularity 17.48 ± 1.43 15.10 21.82 Rectangularity 0.70 ± 0.02 0.66 0.74
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Anchovia clupeoides (Swainson 1839) - Plate 7

Plate 7
Illustrations (above) and photographs (below) of Anchovia clupeoides otoliths from fish with total lengths: A. 55 mm; B. 80 mm. The medial face is shown in A1, B1; the lateral face in A2, B2; and the ventral profile in A3, B3 (Illustration: Alexandre Arackawa; Photos: Alexandre Arackawa).

Shape: elliptic. Anterior region: peaked. Posterior region: round (90%), oblique-round. Dorsal edge: sinuate to entire. Ventral edge: sinuate to serrate (70%), lobed to sinuate, sinuate. Profile: biconvex. Rostrum and antirostrum orientation: in agreement. Rostrum: developed. Antirostrum: developed (50%), undeveloped (50%). Sulcus acusticus: position: median; orientation: horizontal; opening: ostial; morphology: heterosulcoid (80%), pseudo-archaesulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic.

Significant differences (p < 0.05) were observed in some length classes in the anterior region, ventral edge and sulcus acusticus morphology. During the fishes' development differences were observed only for the anterior region of these structures.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 3.67 ± 0.28 3.26 4.27 OH/OL (%) 61.30 ± 1.66 58.76 64.36 OT/OL (%) 23.23 ± 1.88 19.71 26.32 OT/OH (%) 37.91 ± 3.23 31.95 44.30 Circularity 16.61 ± 0.82 15.78 18.36 Rectangularity 0.70 ± 0.02 0.68 0.74
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Anchoviella lepidentostole (Fowler 1911) - Plate 8

Plate 8
Illustrations (above) and photographs (below) of Anchoviella lepidentostole otoliths from fishes with total lengths: A. 75 mm; B. 102 mm; C. 126 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; the ventral profile in A3, B3, C3 (Illustration: Silvia de Almeida Gonsales; Photos: Alexandre Arackawa).

Shape: elliptic. Anterior region: peaked (76.47%), peaked-round. Posterior region: angled-round (47.06%), peaked, round, angled. Dorsal edge: sinuate to entire (52.94%), entire, sinuate. Ventral edge: entire to serrate (88.24%), sinuate to serrate. Profile: concave-convex (70.59%), plane-convex. Rostrum and antirostrum orientation: in agreement. Rostrum: developed. Antirostrum: developed (70.59%), undeveloped. Sulcus acusticus: position: median; orientation: horizontal; opening: ostial; morphology: heterosulcoid (94.12%), pseudo-archaesulcoid; colliculum: heteromorphic; ostium: funnel-like; cauda: elliptic.

Significant differences (p < 0.05) were observed in some length classes in the dorsal edge and the sulcus acusticus morphology. No differences were found during the fishes' development.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.72 ± 0.12 2.51 2.93 OH/OL (%) 58.03 ± 3.41 52.26 62.46 OT/OL (%) 18.89 ± 1.08 16.73 20.74 OT/OH (%) 32.60 ± 1.61 30.05 35.48 Circularity 18.08 ± 0.59 16.94 19.37 Rectangularity 0.67 ± 0.01 0.65 0.69
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Cetengraulis edentulus (Cuvier 1829) - Plate 9

Plate 9
Illustrations (above) and photographs (below) of Cetengraulis edentulus otolith from a fish with total length of 93 mm. The medial face is shown in A1; the lateral face in A2; and the ventral profile in A3 (Illustration: Alexandre Arackawa; Photos: Alexandre Arackawa).

Shape: elliptic. Anterior region: peaked round (63.64%), angled-round. Posterior region: angled (54.55%), angled-round, peaked, round. Dorsal edge: sinuate to entire (45%), sinuate (45%), entire. Ventral edge: entire to serrate (63.64%), sinuate to serrate. Profile: plane-convex (90.91%), concave-convex. Rostrum and antirostrum orientation: in agreement. Rostrum: developed. Antirostrum: developed (90.91%), undeveloped. Sulcus acusticus: position: median; orientation: horizontal; opening: ostial; morphology: heterosulcoid (90.91%), pseudo-archaesulcoid; colliculum: heteromorphic; ostium: elliptic; cauda: elliptic.

Significant differences (p < 0.05) were found in some length classes in the posterior region of the otolith, in the sulcus acusticus morphology and the antirostrum development. During the fishes' development differences were present only in the anterior region of these structures.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.85 ± 0.25 2.46 3.35 OH/OL (%) 67.24 ± 2.55 63.49 70.54 OT/OL (%) 20.88 ± 1.77 18.01 23.36 OT/OH (%) 31.03 ± 2.14 26.86 34.97 Circularity 17.04 ± 0.56 16.20 18.31 Rectangularity 0.68 ± 0.01 0.66 0.70
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Engraulis anchoita Hubbs & Marini 1935 - Plate 10

Plate 10
Illustrations (above) and photographs (below) of Engraulis anchoita otoliths from fishes with total lengths: A. 41 mm; B. 102 mm; C. 165 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; the ventral profile in A3, B3, C3 (Illustration: Alexandre Arackawa; Photos: Alexandre Arackawa).

Shape: elliptic (69.35%), fusiform, discoidal, discoidal to elliptic. Anterior region: peaked (91.94%), angled-round, peaked-round. Posterior region: angled-round (41.94%), round, peaked, peaked-round, angled-round. Dorsal edge: entire (48.39%), sinuate, sinuate to entire. Ventral edge: entire to serrate (69.35%), sinuate to serrate, sinuate to entire, lobed to entire. Profile: concave-convex (67.74%), plane-convex, flattened, biconvex. Rostrum and antirostrum orientation: in agreement (87.10%). Rostrum: developed. Antirostrum: developed (59.68%), undeveloped, absent. Sulcus acusticus: position: median; orientation: horizontal; opening: ostial; morphology: heterosulcoid; colliculum: heteromorphic; ostium: funnel-like (77.42%), elliptic; cauda: elliptic.

In some length classes significant differences (p < 0.05) were observed for the otolith shape, anterior and posterior regions, ventral edge, ostium morphology, otolith profile, rostrum and antirostrum orientation and antirostrum development. During the fishes' development differences were found in the posterior region and in the ventral edge of the otoliths.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.73 ± 0.47 1.65 4.56 OH/OL (%) 55.60 ± 7.35 45.80 84.51 OT/OL (%) 18.40 ± 2.77 13.49 29.58 OT/OH (%) 33.10 ± 2.56 29.14 40.54 Circularity 18.14 ± 1.33 14.42 22.43 Rectangularity 0.68 ± 0.02 0.64 0.74

FAMILY PRISTIGASTERIDADE

The anterior region is peaked. The ostium and cauda are always elliptic, and in most otoliths the sulcus acusticus is pseudo-archaesulcoid, and pseudorostrum and pseudoantirostrum: always absent.

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Chirocentrodon bleekerianus (Poey 1867) - Plate 11

Plate 11
Illustrations (above) and photographs (below) of Chirocentrodon bleekerianus otoliths from fishes with total length: A. 65 mm; B. 92 mm; C. 116 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; the ventral profile in A3, B3, C3 (Illustration: Alexandre Arackawa; Photos: Cesar Santificetur).

Shape: elliptic. Anterior region: peaked. Posterior region: round. Dorsal edge: sinuate to entire (70%), entire, sinuate. Ventral edge: serrate to entire. Profile: biconvex. Rostrum and antirostrum orientation: in agreement. Rostrum: developed. Antirostrum: underdeveloped. Sulcus acusticus: position: median; orientation: horizontal (93.33%), slightly ascending; opening: ostial (73.33%), pseudo-ostial; morphology: pseudo-archaesulcoid; colliculum: heteromorphic; ostium: elliptic; cauda: elliptic.

Significant differences (p < 0.05) were found in some length classes for the posterior region, dorsal edge, sulcus acusticus orientation and opening, and antirostrum development. During the fishes' ontogeny significant differences were observed for the posterior region, sulcus acusticus orientation and opening and antirostrum development.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 2.38 ± 0.35 1.98 3.49 OH/OL (%) 69.96 ± 4.44 61.99 77.01 OT/OL (%) 20.23 ± 1.79 16.87 24.62 OT/OH (%) 29.01 ± 2.94 24.44 35.76 Circularity 17.66 ± 0.95 15.85 19.39 Rectangularity 0.69 ± 0.02 0.62 0.72
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Pellona harroweri (Fowler 1917) - Plate 12

Plate 12
llustrations (above) and photographs (below) of Pellona harroweri otoliths from fishes with total length: A. 93 mm; B. 123 mm; C. 154 mm. The medial face is shown in A1, B1, C1; the lateral face in A2, B2, C2; the ventral profile in A3, B3, C3 (Illustration: Silvia de Almeida Gonsales; Photos: Cesar Santificetur).

Shape: elliptic. Anterior region: peaked. Posterior region: round. Dorsal edge: sinuate to entire (93.94%), lobed. Ventral edge: dentate to entire (90.91%), dentate to sinuate. Profile: concave-convex. Rostrum and antirostrum orientation: in agreement. Rostrum: developed. Antirostrum: developed. Sulcus acusticus: position: median; orientation: horizontal; opening: ostial (93.94%), pseudo-ostial; morphology: pseudo-archaesulcoid (63.64%), heterosulcoid; colliculum: heteromorphic; ostium: elliptic; cauda: elliptic.

Significant differences (p < 0.05) were found in some total length classes for the dorsal and ventral edges, and sulcus acusticus morphology and opening. No differences were observed during the fishes' development.

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Shape indices Mean ± SD Minimum Maximum OL/TL (%) 3.22 ± 0.27 2.74 3.74 OH/OL (%) 66.92 ± 2.93 61.96 77.17 OT/OL (%) 19.89 ± 1.59 17.06 24.76 OT/OH (%) 29.72 ± 2.08 25.97 34.22 Circularity 19.52 ± 1.09 17.84 21.99 Rectangularity 0.69 ± 0.01 0.66 0.72

ACKNOWLEDGMENTS

The organization of the collection and the analysis of the otoliths began five years ago when substantial financial support was received from the Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP Processes -2010/51631-2 and 2014/03764-4) which permitted the improvement of the laboratory and its equipment and the addition of human resources to the LABIC. The authors wish to express their gratitude to everyone who participated in this long process. In relation to this volume special thanks are due to Silvia de Almeida Gonsales, Marcella Bockis Giaretta and Alexandre Y. Gomes Arackawa for their drawings, measurements of the otoliths and organization of the collection.

Special thanks also to Dr. Carlos A. Assis and the anonymous referee for their valuable comments which greatly improved this paper.

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    2016
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