A new sympatric region for distinct karyotypic forms of Hoplias malabaricus (Pisces, Erythrinidae)

Born, G. G.; Bertollo, L. A. C.

doi:10.1590/S1519-69842006000200004

Abstracts

Specimens of Hoplias malabaricus from Lagoa Carioca, an isolated lake of the Rio Doce State Park (state of Minas Gerais, Brazil), were cytogenetically studied. The diploid number was found to be constant, i.e., 2n = 42 chromosomes, although two karyotypic forms were found: karyotype A, characterized by 22M + 20SM chromosomes, observed only in a male specimen, and karyotype B, characterized by 24M + 16SM + 2ST and 24M + 17SM + 1ST chromosomes in female and male specimens, respectively. This sex difference found in karyotype B is related to an XX/XY sex chromosome system. Another female specimen of H. malabaricus, also carrying karyotype A, had previously been found in the same lake. The available data indicate that two sympatric cytotypes of H. malabaricus exist in the Lagoa Carioca, with cytotype A occurring at a lower frequency and differing from cytotype B by undifferentiated sex chromosomes.

Hoplias malabaricus; fish; karyotypes; sympatric forms

Foram analisados, cromossomicamente, espécimes de Hoplias malabaricus provenientes da Lagoa Carioca, localizada no Parque Estadual do Rio Doce (Minas Gerais, Brasil). O número diplóide de cromossomos foi constante, 2n = 42, mas duas formas cariotípicas distintas foram encontradas: cariótipo A, caracterizado por 22M + 20SM, presente em apenas um dos exemplares machos e cariótipo B, caracterizado por 24M + 16SM + 2ST e 24M + 17SM + 1ST em fêmeas e machos, respectivamente, diferença esta devida a um sistema de cromossomos sexuais do tipo XX/XY. Contudo, um outro exemplar fêmea, apresentando também o cariótipo A, foi previamente detectado nessa mesma lagoa, o que permite caracterizar o cariótipo A como portador de 2n = 42 cromossomos, mas sem um sistema diferenciado de cromossomos sexuais. Os dados disponíveis evidenciam que dois citótipos distintos (A e B) são encontrados em simpatria e sintopia na Lagoa Carioca, tendo o citótipo A uma freqüência reduzida.

Hoplias malabaricus; peixes; cariótipos; formas simpátricas

A new sympatric region for distinct karyotypic forms of Hoplias malabaricus (Pisces, Erythrinidae)

Uma nova região de simpatria para formas cariotípicas distintas de Hoplias malabaricus (Pisces, Erythrinidae)

Born, G. G.^I; Bertollo, L. A. C.^II

^IDepartamento de Ciências Morfobiológicas, Fundação Universidade Federal do Rio Grande, CEP 96200-900, Rio Grande, RS, Brazil

^IIDepartamento de Genética e Evolução, Universidade Federal de São Carlos, C. P. 676, CEP 13565-905, São Carlos, SP, Brazil

^{Correspondence to} Correspondence to Luiz Antonio Carlos Bertollo Departamento de Genética e Evolução Universidade Federal de São Carlos C. P. 676, CEP 13565-905 São Carlos, SP, Brazil e-mail: bertollo@power.ufscar.br

ABSTRACT

Specimens of Hoplias malabaricus from Lagoa Carioca, an isolated lake of the Rio Doce State Park (state of Minas Gerais, Brazil), were cytogenetically studied. The diploid number was found to be constant, i.e., 2n = 42 chromosomes, although two karyotypic forms were found: karyotype A, characterized by 22M + 20SM chromosomes, observed only in a male specimen, and karyotype B, characterized by 24M + 16SM + 2ST and 24M + 17SM + 1ST chromosomes in female and male specimens, respectively. This sex difference found in karyotype B is related to an XX/XY sex chromosome system. Another female specimen of H. malabaricus, also carrying karyotype A, had previously been found in the same lake. The available data indicate that two sympatric cytotypes of H. malabaricus exist in the Lagoa Carioca, with cytotype A occurring at a lower frequency and differing from cytotype B by undifferentiated sex chromosomes.

Keywords:Hoplias malabaricus, fish, karyotypes, sympatric forms.

RESUMO

Foram analisados, cromossomicamente, espécimes de Hoplias malabaricus provenientes da Lagoa Carioca, localizada no Parque Estadual do Rio Doce (Minas Gerais, Brasil). O número diplóide de cromossomos foi constante, 2n = 42, mas duas formas cariotípicas distintas foram encontradas: cariótipo A, caracterizado por 22M + 20SM, presente em apenas um dos exemplares machos e cariótipo B, caracterizado por 24M + 16SM + 2ST e 24M + 17SM + 1ST em fêmeas e machos, respectivamente, diferença esta devida a um sistema de cromossomos sexuais do tipo XX/XY. Contudo, um outro exemplar fêmea, apresentando também o cariótipo A, foi previamente detectado nessa mesma lagoa, o que permite caracterizar o cariótipo A como portador de 2n = 42 cromossomos, mas sem um sistema diferenciado de cromossomos sexuais. Os dados disponíveis evidenciam que dois citótipos distintos (A e B) são encontrados em simpatria e sintopia na Lagoa Carioca, tendo o citótipo A uma freqüência reduzida.

Palavras-chave:Hoplias malabaricus, peixes, cariótipos, formas simpátricas.

INTRODUCTION

The Erythrinidae family is a small freshwater Neotropical group comprising only three genera, Hoplias, Hoplerythrinus and Erythrinus. The genus Hoplias is the most widely distributed throughout several Brazilian hydrographic basins. Of this genus, the species Hoplias malabaricus has been the most extensively analyzed. The available data clearly demonstrate a non-conservative chromosomal evolution in H. malabaricus, with evidence of a species complex for this nominal species (Bertollo et al., 1986; Dergam & Bertollo, 1990; Scavone et al., 1995; Lopes & Fenocchio, 1994; Lopes et al., 1998; Bertollo et al., 2000).

H. malabaricus populations in the Juquiá river (São Paulo State, Brazil) and in two lakes of the Rio Doce State Park (Lagoa Dom Helvécio and Lagoa Carioca, MG, Brazil) were previously analyzed by Bertollo et al. (1979). All the specimens presented 2n = 42 chromosomes, and a probable XX/XY sex chromosome system, which was reanalyzed and confirmed for the fish from the Rio Doce State Park (Born & Bertollo, 2000a). In a complementary study involving specimens from Lagoa Carioca and Lagoa dos Patos, the latter also located in the Rio Doce State Park, Ferreira et al. (1989) found the same karyotypic structure previously described by Bertollo et al. (1979). However, of the 22 specimens from Lagoa Carioca, a single female individual presented a divergent karyotype, including a specific meta-submetacentric chromosome pair instead of a subtelocentric one.

This article reports on a similar finding in a male specimen from the same lake, analyzing its implications in terms of chromosome diversity in that fish group.

MATERIAL AND METHODS

Five Hoplias malabaricus specimens (4 males and 1 female) from Lagoa Carioca were used for chromosomal analyses. This lake belongs to a vast system of isolated lakes located in the Rio Doce State Park (MG, Brazil), which have been explored in several biological studies.

The animals were previously treated with a yeast suspension for 24 to 48 hours to induce a higher number of mitotic cells (Lee & Elder, 1980). Using a conventional air-drying method, chromosomal preparations were obtained from cells of the anterior kidney after in vivo treatment with colchicine (Bertollo et al., 1978). The constitutive heterochromatin (C-bands) and the nucleolus organizing regions (NORs) were analyzed following the basic procedures of Sumner (1972) and Howell & Black (1980), respectively. Fluorochrome Mithramycin and counterstaining Distamycin A (DA/MM) were used to detect GC-rich regions in the chromosomes (Schmid, 1980).

The chromosomes were divided into three groups, namely, metacentric (M), submetacentric (SM) and subtelocentric (ST), according to the arm ratios (Levan et al., 1964), and arranged in decreasing order of size in each chromosome group.

RESULTS

All the specimens presented the diploid number 2n = 42 chromosomes. However, two distinct karyotypic forms, A and B, were detected. Karyotype A was found only in one male specimen and is characterized by 22M + 20SM chromosomes (Fig. 1a). Karyotype B was found in the remaining specimens and is characterized by 24M + 16SM + 2ST and 24M + 17SM + 1ST chromosomes in female and male specimens, respectively, this difference being related to an XX/XY sex chromosome system (Fig. 1b).

The constitutive heterochromatin, Ag-NORs (NORs detected by silver staining) and GC-rich chromosomal segments presented a similar pattern for both karyotypes. The constitutive heterochromatin showed a preferential location in the centromeric and telomeric regions of the chromosomes (Fig. 2a). Multiple Ag-NOR sites were found, in addition to the occurrence of bitelomeric NORs, i.e., NORs located in both telomeric regions of the same chromosome (Fig. 2b). DA/MM staining highlighted the GC-rich segments, which are also located in the centromeric and telomeric regions of some chromosomes (Fig. 2c).

DISCUSSION

Karyotype B is the chromosomal form usually found in H. malabaricus from the Rio Doce State Park (Bertollo et al., 1979; Ferreira et al., 1989; Born & Bertollo, 2000a). With regard to karyotype A, besides the male specimen analyzed here, only one female specimen carrying this same karyotype had been previously reported for specimens from the Lagoa Carioca (Ferreira et al., 1989). In this study, the probable occurrence of a pericentric inversion from the standard karyotype 40M/SM + 2ST originating the variant karyotypic form 42M/SM (Ferreira et al., 1989) was proposed.

However, in a subsequent comparative analysis among populations, seven cytotypes, i.e., distinct karyotypic forms, were characterized for H. malabaricus, three of them bearing 2n = 42 chromosomes (Bertollo et al., 2000). The first of these three displayed an exclusive acrocentric chromosome pair (cytotype E), which represents an uncommon feature for H. malabaricus and has been found in only one northern population of Brazil. The second one had an XX/XY sex chromosome system (cytotype B) which appears to be restricted to some populations of the Rio Doce State Park and the first plateau of the Iguaçu river (Born & Bertollo, 2000a; Lemos et al., 2002). The third one showed only M/SM chromosomes without differentiated sex chromosomes (cytotype A), and is widely distributed among several Brazilian hydrographic basins, presenting minor differentiations among populations (Born & Bertollo, 2000b; Vicari, 2003). In fact, the two karyotypic forms, A and B, from the Lagoa Carioca present chromosome features of cytotypes A and B, respectively. Thus, the available data allow for the characterization of two H. malabaricus sympatric cytotypes in the Lagoa Carioca. The occurrence of both male (present paper) and female (Ferreira et al., 1989) specimens carrying cytotype A reinforces this proposition.

Both cytotypes A and B retain the general pattern for constitutive heterochromatin demonstrated by most H. malabaricus populations, with C-bands located mainly in the centromeric and telomeric regions of the chromosomes (Fig. 2a). In cytotype B, the subtelocentric X chromosome shows a conspicuous heterochromatic block along a great extent of its long arm (Born & Bertollo, 2000a).

H. malabaricus is a fish group possessing a multiple NOR system located in the telomeric region of distinct chromosome pairs. Bi-telomeric NORs, i. e., NORs located in both telomeric regions of a chromosome, can also be found in some populations (Bertollo, 1996), as is the case of the specimens analyzed here (Fig. 2b). In cytotype A, the number of chromosomes with Ag-NORs ranged from 3 to 4, with a modal number equal to 4, while in cytotype B the modal number was 6 for females and 5 for males (Born & Bertollo 2000a). These differences between sex and cytotypes are related to the subtelocentric X chromosome, which is also a NOR bearing chromosome in cytotype B. GC-rich chromosome regions (Fig. 2c) also showed an identical pattern in both cytotypes, except for the conspicuously labeled segment on the long arm of the X chromosome of cytotype B, which coincides with the heterochromatic segment located here (Born & Bertollo, 2000a).

Some cases of sympatry and syntopy have been reported for different cytotypes of H. malabaricus (Scavone et al., 1995; Bertollo et al., 1997; Lopes et al., 1998; Bertollo et al., 2000), without the detection of hybrid forms, thus reinforcing evidence that this fish group corresponds to a species complex (Bertollo et al., 2000). In this context, the Lagoa Carioca emerges as a new sympatric region for two H. malabaricus cytotypes, one of them (cytotype A) displaying a lower frequency.

Acknowledgments This work was supported by the Brazilian agencies CNPq (National Council for Scientific and Technological Development) (Process nº 301557185-3 and the PRONEX Program) and by CAPES (Coordinating Office for the Betterment of University Graduates) (PICDT Program).

Received July 19, 2004 Accepted September 8, 2004 Distributed February 28, 200

BERTOLLO, L. A. C., 1996, The nucleolar organizer regions of Erythrinidae fish. An uncommon situation in the genus Hoplias Cytologia, 61: 75-81.
BERTOLLO, L. A. C., BORN G. G., DERGAM J. A., FENOCCHIO A. S. & MOREIRA-FILHO, O., 2000, A biodiversity approach in the neotropical Erythrinidae fish, Hoplias malabaricus Karyotypic survey, geographic distribution of cytotypes and cytotaxonomic considerations. Chrom. Res., 8(7): 603-613.
BERTOLLO, L. A. C., MOREIRA-FILHO, O. & FONTES, M. S., 1997, Karyotypic diversity and distribution in Hoplias malabaricus (Pisces, Erythrinidae): Cytotypes with 2n = 40 chromosomes. Brazil. J. Genet., 20: 237-242.
BERTOLLO, L. A. C., MOREIRA-FILHO, O. & GALETTI JR., P. M., 1986, Cytogenetics and taxonomy: considerations based on chromosome studies of freshwater fish. J. Fish Biol., 28: 153-159.
BERTOLLO, L. A. C., TAKAHASHI, C. S. & MOREIRA-FILHO, O., 1978, Cytotaxonomic considerations of Hoplias lacerdae (Pisces, Erythrinidae). Brazil. J. Genet., 1: 103-120.
BERTOLLO, L. A. C., TAKAHASHI, C. S. & MOREIRA-FILHO, O., 1979, Karyotypic studies of two allopatric populations of the genus Hoplias (Pisces, Erythrinidae). Brazil. J. Genet., 2: 17-37.
BORN, G. G. & BERTOLLO, L. A. C., 2000a, An XX/XY sex chromosome system in a fish species, Hoplias malabaricus, with a polymorphic NOR-bearing X chromosome. Chrom. Res., 8(2): 111-118.
BORN, G. G. & BERTOLLO, L. A. C., 2000b, Comparative cytogenetics among allopatric populations of the fish, Hoplias malabaricus Cytotypes with 2n = 42 chromosomes. Genetica, 110(1): 1-9.
DERGAM, J. A. & BERTOLLO, L. A. C., 1990, Karyotypic diversification in Hoplias malabaricus (Osteichthyes, Erythrinidae) of São Francisco and Alto Paraná basins, Brazil. Brazil. J. Genet., 13: 755-766.
FERREIRA, R. H. R., FONSECA, C. G., BERTOLLO, L. A. C. & FORESTI, F., 1989, Cytogenetics of fishes from Parque Florestal do Rio Doce (MG). I. Preliminary study of "Hoplias malabaricus" (Pisces, Erythrinidae) from Lagoa Carioca and Lagoa dos Patos. Brazil. J. Genet., 12: 219-226.
HOWELL, W. M. & BLACK, D. A., 1980, Controlled silver-staining of nucleolus organizer regions with a protective colloidal developer: A 1-step method. Experientia, 36: 1014-1015.
LEE, M. R. & ELDER, F. F. B., 1980, Yeast stimulation of bone marrow mitosis for cytogenetics investigations. Cytogenet. Cell Genet., 26: 36-40.
LEMOS, P. M. M., FENOCCHIO, A. S., BERTOLLO, L. A. C. & CESTARI, M. M., 2002, Karyotypic studies on two Hoplias malabaricus populations (Characiformes, Erytrinidae) of the 2n = 42 group, from the first plateau of the Iguaçu river basin (Paraná state, Brazil). Caryologia, 55(3): 193-198.
LEVAN, A., FREDGA, K. & SANDBERG, A. A., 1964, Nomenclature for centromeric position on chromosomes. Hereditas, 52: 201-220.
LOPES, P. A., ALBERDI, A. J., DERGAM, A. J. & FENOCCHIO, A., 1998, Cytotaxonomy of Hoplias malabaricus (Osteichthyes, Erythrinidae) in the Aguapey River (Province of Corrientes, Argentina). Copeia, 2: 485-487.
LOPEZ, P. A. & FENOCCHIO, A. S., 1994, Confirmation of two different cytotypes for the neotropical fish Hoplias malabaricus Gill 1903 (Characiformes). Cytobios, 80: 217-221.
SCAVONE, M. D. P., BERTOLLO, L. A. C. & CAVALLINI, M. M., 1995, Sympatric occurrence of two karyotypic forms of Hoplias malabaricus (Pisces, Erythrinidae). Cytobios, 80: 223-227.
SCHMID, M., 1980, Chromosome banding in amphibia IV. Differentiation of GC- and AT-rich chromosome regions in Anura Chromosoma, 77: 83-103.
SUMNER, A. T., 1972, A simple technique for demonstrating centromeric heterochromatin. Exp. Cell Res., 75: 304-306.
VICARI, M. R., 2003, Citogenética Comparativa de Hoplias malabaricus (Pisces, Erythrinidae). Estudos em Região Divisora de Águas para as Bacias dos Rios Tibagi, Iguaçu, Ivaí e Ribeira (Ponta Grossa, PR). Dissertação de Mestrado - Universidade Federal de São Carlos, Brasil. 80p.

Correspondence to

Luiz Antonio Carlos Bertollo

Departamento de Genética e Evolução

Universidade Federal de São Carlos

C. P. 676, CEP 13565-905

São Carlos, SP, Brazil

e-mail:

bertollo@power.ufscar.br

Publication Dates

Publication in this collection
13 Dec 2006
Date of issue
Feb 2006

History

Received
19 July 2004
Accepted
08 Sept 2004

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] BERTOLLO, L. A. C., 1996, The nucleolar organizer regions of Erythrinidae fish. An uncommon situation in the genus Hoplias Cytologia, 61: 75-81.

[2] BERTOLLO, L. A. C., BORN G. G., DERGAM J. A., FENOCCHIO A. S. & MOREIRA-FILHO, O., 2000, A biodiversity approach in the neotropical Erythrinidae fish, Hoplias malabaricus Karyotypic survey, geographic distribution of cytotypes and cytotaxonomic considerations. Chrom. Res., 8(7): 603-613.

[3] BERTOLLO, L. A. C., MOREIRA-FILHO, O. & FONTES, M. S., 1997, Karyotypic diversity and distribution in Hoplias malabaricus (Pisces, Erythrinidae): Cytotypes with 2n = 40 chromosomes. Brazil. J. Genet., 20: 237-242.

[4] BERTOLLO, L. A. C., MOREIRA-FILHO, O. & GALETTI JR., P. M., 1986, Cytogenetics and taxonomy: considerations based on chromosome studies of freshwater fish. J. Fish Biol., 28: 153-159.

[5] BERTOLLO, L. A. C., TAKAHASHI, C. S. & MOREIRA-FILHO, O., 1978, Cytotaxonomic considerations of Hoplias lacerdae (Pisces, Erythrinidae). Brazil. J. Genet., 1: 103-120.

[6] BERTOLLO, L. A. C., TAKAHASHI, C. S. & MOREIRA-FILHO, O., 1979, Karyotypic studies of two allopatric populations of the genus Hoplias (Pisces, Erythrinidae). Brazil. J. Genet., 2: 17-37.

[7] BORN, G. G. & BERTOLLO, L. A. C., 2000a, An XX/XY sex chromosome system in a fish species, Hoplias malabaricus, with a polymorphic NOR-bearing X chromosome. Chrom. Res., 8(2): 111-118.

[8] BORN, G. G. & BERTOLLO, L. A. C., 2000b, Comparative cytogenetics among allopatric populations of the fish, Hoplias malabaricus Cytotypes with 2n = 42 chromosomes. Genetica, 110(1): 1-9.

[9] DERGAM, J. A. & BERTOLLO, L. A. C., 1990, Karyotypic diversification in Hoplias malabaricus (Osteichthyes, Erythrinidae) of São Francisco and Alto Paraná basins, Brazil. Brazil. J. Genet., 13: 755-766.

[10] FERREIRA, R. H. R., FONSECA, C. G., BERTOLLO, L. A. C. & FORESTI, F., 1989, Cytogenetics of fishes from Parque Florestal do Rio Doce (MG). I. Preliminary study of "Hoplias malabaricus" (Pisces, Erythrinidae) from Lagoa Carioca and Lagoa dos Patos. Brazil. J. Genet., 12: 219-226.

[11] HOWELL, W. M. & BLACK, D. A., 1980, Controlled silver-staining of nucleolus organizer regions with a protective colloidal developer: A 1-step method. Experientia, 36: 1014-1015.

[12] LEE, M. R. & ELDER, F. F. B., 1980, Yeast stimulation of bone marrow mitosis for cytogenetics investigations. Cytogenet. Cell Genet., 26: 36-40.

[13] LEMOS, P. M. M., FENOCCHIO, A. S., BERTOLLO, L. A. C. & CESTARI, M. M., 2002, Karyotypic studies on two Hoplias malabaricus populations (Characiformes, Erytrinidae) of the 2n = 42 group, from the first plateau of the Iguaçu river basin (Paraná state, Brazil). Caryologia, 55(3): 193-198.

[14] LEVAN, A., FREDGA, K. & SANDBERG, A. A., 1964, Nomenclature for centromeric position on chromosomes. Hereditas, 52: 201-220.

[15] LOPES, P. A., ALBERDI, A. J., DERGAM, A. J. & FENOCCHIO, A., 1998, Cytotaxonomy of Hoplias malabaricus (Osteichthyes, Erythrinidae) in the Aguapey River (Province of Corrientes, Argentina). Copeia, 2: 485-487.

[16] LOPEZ, P. A. & FENOCCHIO, A. S., 1994, Confirmation of two different cytotypes for the neotropical fish Hoplias malabaricus Gill 1903 (Characiformes). Cytobios, 80: 217-221.

[17] SCAVONE, M. D. P., BERTOLLO, L. A. C. & CAVALLINI, M. M., 1995, Sympatric occurrence of two karyotypic forms of Hoplias malabaricus (Pisces, Erythrinidae). Cytobios, 80: 223-227.

[18] SCHMID, M., 1980, Chromosome banding in amphibia IV. Differentiation of GC- and AT-rich chromosome regions in Anura Chromosoma, 77: 83-103.

[19] SUMNER, A. T., 1972, A simple technique for demonstrating centromeric heterochromatin. Exp. Cell Res., 75: 304-306.

[20] VICARI, M. R., 2003, Citogenética Comparativa de Hoplias malabaricus (Pisces, Erythrinidae). Estudos em Região Divisora de Águas para as Bacias dos Rios Tibagi, Iguaçu, Ivaí e Ribeira (Ponta Grossa, PR). Dissertação de Mestrado - Universidade Federal de São Carlos, Brasil. 80p.

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