NOTES AND COMMENTS
Morphological abnormalities in Cladocera (Branchiopoda) in a cascade of reservoirs in the middle and lower Tietê river (São Paulo, Brazil)
Zanata, LH.I; Espíndola, ELG.I, * * e-mail: elgaeta@sc.usp.br, doro@power.ufscar.br, ricardo@ceua.ufms.br ; Rocha, O.II, * * e-mail: elgaeta@sc.usp.br, doro@power.ufscar.br, ricardo@ceua.ufms.br ; Pereira, RHG.III, * * e-mail: elgaeta@sc.usp.br, doro@power.ufscar.br, ricardo@ceua.ufms.br
INúcleo de Estudos de Ecossistemas Aquáticos, Centro de Recursos Hídricos e Ecologia Aplicada, SHS, EESC, Universidade de São Paulo USP Av. Trabalhador São-carlense, 400, CP 292, CEP 13560-970, São Carlos, SP, Brazil
IIDepartamento de Ecologia e Biologia Evolutiva, Universidade Federal de São Carlos UFSCar, CP 676, CEP 13565-905, São Carlos, SP, Brazil
IIICentro Universitário de Aquidauana, Universidade Federal de Mato Grosso do Sul UFMT, CEP 79200-000, Aquidauana, MS, Brazil
Morphological abnormalities in Cladocera were found in cascading reservoirs of the middle and lower Tietê River (São Paulo State, Brazil). These alterations occurred at the ventral margin of the carapace in Daphnia gessneri, D. laevis, D. ambigua, D. lumholtzi, Ceriodaphnia silvestrii and C. cornuta and in the helmet and rostrum of Daphnia. These abnormalities may have been caused by chemical contaminants or microorganisms like bacteria and viruses, linked to evidence of pollution in areas of the environment studied (Montú and Gloeden, 1982; Dias, 1999; Otha et al., 1998). In 1993, Hanazato and Dodson showed that four species of Daphnia (D. pulex, D. galeata mendotae, D. lumholtzi, and D. retrocurva) present morphological alterations in response to the presence of carbaryl insecticide.
In the Tietê River, the presence of toxic substances has been demonstrated by various authors. Calheiros (1993) verified contamination in Barra Bonita reservoir by persistent organochlorine compounds. Toxicity tests carried out in the Tietê River prove the presence in aquatic environmental of harmful substances, like cadmium, iron, copper, lead, and manganese; verified by Costa (2001), Fracácio (2001) and Rodgher et al. (2003).
The results presented in this study were obtained by analyzing samples from 19 stations distributed along a cascading system on the middle and lower Tietê River, taken in February, May, July, and October of 2000. They revealed organisms presenting various stages of abnormality, of which the greatest density was found in the D. gessneri population (Figure 1). The total density of D. gessneri presenting morphological alterations in the carapace varied from 160 ind.m3 (July 2000) to 387 ind.m3 (May 2000). Percentages of occurrence of these alterations in D. gessneri in relation to the total amount of healthy organisms of the same species varied from 0.03% (5 ind.m3) (Tietê River, May 2000; Ibitinga dam, October 2000) to 6.85% (40 ind.m3) (Três Irmãos reservoir, July 2000). D. laevis ranked second in density of deformed organisms, with a maximum of 54 ind.m3 registered in October 2000 (45 ind.m3 in Barra Bonita reservoir; 9 ind.m3 in Promissão reservoir). D. lumholtzi was also found with carapace alterations at a rate of 15 ind.m3. In addition to these organisms, Daphnia ambigua and species of Ceriodaphnia also presented deformations, although at a lesser density and less frequently.
The appearance of the affected organisms suggested that the deformed tissue had resulted from invasion (Figure 1). To determine the cause, the DAPI method (Porter and Feig, 1980) was applied, which in addition to the use of an epifluorescent microscope, would reveal possible bacterial presence in the affected areas. The result was negative.
The second instance of morphological alterations was found only in individuals of the genus Daphnia, which presented alterations of varied appearance, confined to the helmet and rostrum (Figure 2). These organisms were found only in the Bariri reservoir (10 ind.m3) and at the entrance of the dam of the Três Irmãos reservoir (5 ind.m3) in February and October of 2000. This alteration may have been congenital. According to Elmoor-Loureiro (2004), who demonstrated malformations in the post-anal spines and terminal claws of Ilyocryptus spinifer, the causes of morphological abnormalities in microcrustaceans have not yet been adequately investigated.
Acknowledgements The authors are grateful to CNPq for the PhD grant to the first author, and to FAPESP (BIOTA Program and to Ministry of Environment and National Research Council, (PROBIO Program MMA/CNPq/BIRD/GEF) for financial support of the "Monitoring and development of technologies for managing freshwater exotic species" Project. They also thank Magno Botelho Castelo Branco, for valuable assistance in image processing, as well as Mirna Helena Regali-Seleghim and Silvia Fatibello for help with DAPI analysis.
Received May 02, 2008
Accepted May 30, 2008
Distributed August 31, 2008
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Publication Dates
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Publication in this collection
24 Sept 2008 -
Date of issue
Aug 2008