Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões

Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões

El objetivo de este trabajo fue determinar la abundancia, riqueza y diversidad de peces asociados a los diferentes tipos de macrófitas acuáticas existentes en lagos de várzea del río Solimões. Los muestreos fueron realizados en dos fases del ciclo hidrológico: inundación y sequía, en bancos de macrófitas compuestos por capim flotante Paspalum repens y en banco mixtos (compuestos por asociaciones de especies vegetales de libre flotación). Fueron colectados 2.051 individuos pertenecientes a 115 especies de peces, en los períodos y tipos de bancos muestreados. Characiformes fue el grupo dominante en ambos períodos y los diferentes tipos de bancos. La riqueza y la diversidad de especies fueron mayores en los bancos compuestos por el capim flota... Ver más

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Revista Colombiana de Ciencia Animal - RECIA

2027-4297

PRADO, KÁREN

FREITAS, CARLOS

OLIVEIRA, ANDREZA

UNIVERSIDAD DE SUCRE

10.24188/recia.v1.n2.2009.354

1

2009-07-27

185

201

Colombia

comunidades de peces

bancos de macrófitas

ciclo hidrológico

Amazonas

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spelling Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
JUNK, W. J. 1973. Investigations of the ecology and production-biology of the “floating meadows” (Paspalo-Echinochloetum) on the middle Amazon. Part II. The aquatic fauna in the root zone of floating vegetation. Amazoniana, 4: 9-112.
PACHECO, E. B.; DA-SILVA, C. J. 2009. Fish associated with aquatic macrophytes in the Chacororé-Sinhá Mariana Lake system and Mutum River, Pantanal of Mato Grosso, Brazil. Brazilian Journal of Biology, 69 (1): 101-108.
MESCHIATTI, A. J.; ARCIFA, M. S. 2002. Early life stages of fish and the relationships with zooplankton in a tropical Brazilian reservoir: Lake Monte Alegre. Brazilian Journal of Biology, 62: 41-50.
MESCHIATTI, A. J.; ARCIFA, M. S.; FENERICH-VERANI, N. 2000. Fish communities associated with macrophytes in Brazilian floodplain lakes. Environmental Biology of Fishes, 58: 133-143.
MEERHOFF, M.; MAZZEO, N.; MOSS, B.; RODRÍGUEZ-GALLEGO, L. 2003. The structuring role of free-floating versus submerged plants in a subtropical shallow lake. Aquatic Ecology, 37: 377–391
KREBS, C. J., 1999. Ecological methodology. Menlo Park, Addison-Wesley Educational Publishers, 620pp.
JUNK, W.J.; SOARES, M. G.M; CARVALHO, F. M. 1983. Distribution of fish species in a lake of the Amazon river floodplain near Manaus (Lago Camaleão), with especial reference to extreme oxygen conditions. Amazoniana, 7 (4): 397- 431.
HENDERSON, P. A.; HAMILTON, H. F. 1995. Standing crop and distribution of fish in drifting and attached floating meadow within and upper Amazonian varzea lake. Journal of Fish Biology, 47: 266-276.
PETRY, P; BAYLEY, P. B.; MARKLE, D. F. 2003. Relationships between fish assemblages, macrophytes and environmental gradients in the Amazon river floodplain. Journal of Fish Biology, 63 (3): 547-579.
GRENOUILLET, G.; PONT, D. 2001. Juveniles fish in macrophyte beds: influence of food resources, habitat structure and body size. Journal of Fish Biology, 59 (4): 939-959.
GAUCH JR.; H.G. 1982: Multivariate analysis in community ecology. Cambridge University Press. 198pp.
DIBBLE, E. D.; THOMAZ, S. M. 2006. A simple method to estimate spatial complexity in aquatic plants. Brazilian Archives in Biology and Technology, 49:421-428.
DIBBLE, E.D.; KILLGORE, K.J.1994. A habitat-based approach for studying fish-plant interactions. Procs 18th Annual Meeting, Aquatic Plant Control Research Program, 15–18 November 1993, Baltimore, Maryland. Miscellaneous Paper A-94-2: pp.32–40. US Army Corps of Engineers, Waterways Experiment Station, Vicksburg, Miss., USA.
DELARIVA, R.L., AGOSTINHO, A.A., NAKATANI, K.; BAUMGARTNERr, G. 1994. Icthyofauna associated aquatic macrophytes in the upper Parana River floodplain. Revista UNIMAR, 16(3):41-60.
CRAMPTON, W. G. R. 1998. Efects of anoxia on the distribution, respiratory strategies and electric signal diversity of gymnotiform fishes. Journal of Fish Biology, 53: 307-331.
PETR, T. 2000. Interactions between fish and aquatic macrophytes in inland waters: a review. FAO Fisheries Technical Paper, 396. 185p.
SAINT-PAUL, U.; SOARES, M. G. M. 1987. Diurnal distribution and behavioral responses of fishes to extreme hypoxia in an Amazon floodplain lake. Environmental Biology of Fishes, 20:91-104.
CASATTI, L.; MENDES, H. F.; FERREIRA, K. M. 2003. Aquatic macrophytes as feeding site for small fishes in the Rosana reservoir, Paranapanema river, southeastern Brazil. Brazilian Journal of Biology, 63 (2): 213-222.
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SÁNCHEZ-BOTERO, J. I.; ARAÚJO-LIMA, C. A. R. M. 2001. As macrófitas aquáticas como berçário para a ictiofauna da várzea do rio Amazonas. Acta Amazonica, 3 (3): 437-447.
ZAR, J. H. 1999. Biostastical analysis. 4 th ed. Prentice-Hall, Englewood Cliffs, USA, 663pp.
THOMAZ, S. M.; DIBBLE, E. D.; EVANGELISTA, L. R.; HIGUTI, J.; BIN, L. M. 2008. Influence of aquatic macrophyte habitat complexity on invertebrate abundance and richness in tropical lagoons. Freshwater Biology, 53, 358–367.
SCHIESARI, L.; ZUANON, J. A.; AZEVEDO-RAMOS, C.; GARCIA, M.; GORDO, M.; MESSIAS, M.; VIEIRA, E. M. 2003. Macrophyte rafts as dispersal vectors for fishes and amphibians in the lower Solimões river, central Amazon. Journal of Tropical Ecology, 19: 333-336.
SAVINO, J. F.; STEIN, R. A. 1989. Behavioral interactions between fish predators and their prey: effects of plant density. Animal Behavior, 37: 311-321.
SÁNCHEZ-BOTERO, J. I.; ARAÚJO-LIMA, C. A. R. M.; GARCEZ, D. S. 2008. Effects of types of aquatic macrophyte stands and variations of dissolved oxygen and of temperature on the distribution of fishes in lakes of the Amazonian floodplain. Acta Limnológica Brasileira, 20 (1): 45-54
SÁNCHEZ-BOTERO, J. I.; LEITÃO, R. P.; CARAMASCHI, E. P.; GARCEZ, D. S. 2007. The aquatic macrophytes as refuge, nursery and feeding habitats for freshwater fish from Cabiúnas lagoon, restinga de Jurubatiba National Park, Rio de Janeiro, Brazil. Acta Limnológica Brasileira, 19 (2): 143-153.
SÁNCHEZ-BOTERO, J. I.; FARIAS, M. L.; PIEDADE, M. T.; GARCEZ, D. S. 2003. Ictiofauna associada às macrófitas aquáticas Eichhornia azurea (SW.) Kunth. e Eichhornia crassipes (Mart.) Solms. no lago Camaleão, Amazônia Central, Brasil. Acta Scientiarum Biological Sciences,25 (2): 369-375.
CHICK, J.H.; MCIVOR, C.C. 1997. Habitat selection by three littoral zone fishes: effects of predation pressure, plant density and macrophyte type. Ecology of Freshwater Fish, 6, p. 27-35
In: Silva, S.H.G., Lavrado, H.P. (Eds) Ecologia dos ambientes costeiros do Estado do Rio de Janeiro. Oecologia Brasiliensis, Rio de Janeiro.
Publication
BARRETO, C.C. 1999. Heterogeneidade espacial do habitat e diversidade específica: implicações ecológicas e métodos de mensuração. Págs. 121-153.
El objetivo de este trabajo fue determinar la abundancia, riqueza y diversidad de peces asociados a los diferentes tipos de macrófitas acuáticas existentes en lagos de várzea del río Solimões. Los muestreos fueron realizados en dos fases del ciclo hidrológico: inundación y sequía, en bancos de macrófitas compuestos por capim flotante Paspalum repens y en banco mixtos (compuestos por asociaciones de especies vegetales de libre flotación). Fueron colectados 2.051 individuos pertenecientes a 115 especies de peces, en los períodos y tipos de bancos muestreados. Characiformes fue el grupo dominante en ambos períodos y los diferentes tipos de bancos. La riqueza y la diversidad de especies fueron mayores en los bancos compuestos por el capim flotante P. repens que en los bancos mixtos. Los resultados de este estudio sugieren que la diversidad y la abundancia de peces asociados a las macrófitas acuáticas son influenciados por la mayor complejidad estructural del hábitat formado por P. repens.
PRADO, KÁREN
FREITAS, CARLOS
OLIVEIRA, ANDREZA
comunidades de peces
bancos de macrófitas
ciclo hidrológico
Amazonas
1
2
Núm. 2 , Año 2009 : RECIA 1(2):JULIO-DICIEMBRE
Artículo de revista
application/pdf
https://revistas.unisucre.edu.co/index.php/recia/article/view/354
ARAÚJO-LIMA, C. A.; PORTUGAL, L. P. S.; FERREIRA, E. G. 1986. Fishmacrophytes relationship in the Anavilhanas Archipelago, a black-water system in the central Amazon. Journal of Fish Biology, 29: 1-11.
AGOSTINHO, A. A.; THOMAZ, S. M.; GOMES, L. C. BALTAR, S.L.S.M.A. 2007. Influence of the macrophyte Eichhornia azurea on fish assemblage of the Upper Paraná River floodplain (Brazil). Aquatic Ecology, 41: 611-619.
Español
https://creativecommons.org/licenses/by-nc-sa/4.0/
Revista Colombiana de Ciencia Animal - RECIA
Universidad de Sucre
Amazon
This study was intended to determine the abundance, riches and diversity of fish shoals associated with different types of aquatic macrophytes in Várzea lakes in the lower Solimões River. The samplings were carried out during two stages of the hydrological cycle: dry and flood seasons, in two types of macrophytes shoals which were composed by floating grass, Paspalum repens and in mixed shoals (composed by several free-floating plant species). 2,051 individuals belonging to 115 fish species were collected in the periods and types of shoal sampled. Characiformes was the dominant group in both periods and in the different shoal types. The species diversity and riches were higher in shoals composed by floating grass, Paspalum repens than in mixed shoals. The results of this study suggest that diversity and abundance of fish shoals associated with aquatic macrophytes are influenced probably due to the greatest structural complexity of P. repens.
Fish communities
macrophytes shoals
hydrological cycle
Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
Journal article
2009-07-27
https://revistas.unisucre.edu.co/index.php/recia/article/download/354/396
2027-4297
https://doi.org/10.24188/recia.v1.n2.2009.354
185
201
2009-07-27T00:00:00Z
10.24188/recia.v1.n2.2009.354
2009-07-27T00:00:00Z
institution UNIVERSIDAD DE SUCRE
thumbnail https://nuevo.metarevistas.org/UNIVERSIDADDESUCRE/logo.png
country_str Colombia
collection Revista Colombiana de Ciencia Animal - RECIA
title Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
spellingShingle Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
PRADO, KÁREN
FREITAS, CARLOS
OLIVEIRA, ANDREZA
comunidades de peces
bancos de macrófitas
ciclo hidrológico
Amazonas
Amazon
Fish communities
macrophytes shoals
hydrological cycle
title_short Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
title_full Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
title_fullStr Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
title_full_unstemmed Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
title_sort comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
title_eng Comunidades de peces asociadas a diferentes bancos de macrófitas acuáticas en lagos de várzea del bajo río solimões
description El objetivo de este trabajo fue determinar la abundancia, riqueza y diversidad de peces asociados a los diferentes tipos de macrófitas acuáticas existentes en lagos de várzea del río Solimões. Los muestreos fueron realizados en dos fases del ciclo hidrológico: inundación y sequía, en bancos de macrófitas compuestos por capim flotante Paspalum repens y en banco mixtos (compuestos por asociaciones de especies vegetales de libre flotación). Fueron colectados 2.051 individuos pertenecientes a 115 especies de peces, en los períodos y tipos de bancos muestreados. Characiformes fue el grupo dominante en ambos períodos y los diferentes tipos de bancos. La riqueza y la diversidad de especies fueron mayores en los bancos compuestos por el capim flotante P. repens que en los bancos mixtos. Los resultados de este estudio sugieren que la diversidad y la abundancia de peces asociados a las macrófitas acuáticas son influenciados por la mayor complejidad estructural del hábitat formado por P. repens.
description_eng This study was intended to determine the abundance, riches and diversity of fish shoals associated with different types of aquatic macrophytes in Várzea lakes in the lower Solimões River. The samplings were carried out during two stages of the hydrological cycle: dry and flood seasons, in two types of macrophytes shoals which were composed by floating grass, Paspalum repens and in mixed shoals (composed by several free-floating plant species). 2,051 individuals belonging to 115 fish species were collected in the periods and types of shoal sampled. Characiformes was the dominant group in both periods and in the different shoal types. The species diversity and riches were higher in shoals composed by floating grass, Paspalum repens than in mixed shoals. The results of this study suggest that diversity and abundance of fish shoals associated with aquatic macrophytes are influenced probably due to the greatest structural complexity of P. repens.
author PRADO, KÁREN
FREITAS, CARLOS
OLIVEIRA, ANDREZA
author_facet PRADO, KÁREN
FREITAS, CARLOS
OLIVEIRA, ANDREZA
topicspa_str_mv comunidades de peces
bancos de macrófitas
ciclo hidrológico
Amazonas
topic comunidades de peces
bancos de macrófitas
ciclo hidrológico
Amazonas
Amazon
Fish communities
macrophytes shoals
hydrological cycle
topic_facet comunidades de peces
bancos de macrófitas
ciclo hidrológico
Amazonas
Amazon
Fish communities
macrophytes shoals
hydrological cycle
citationvolume 1
citationissue 2
citationedition Núm. 2 , Año 2009 : RECIA 1(2):JULIO-DICIEMBRE
publisher Universidad de Sucre
ispartofjournal Revista Colombiana de Ciencia Animal - RECIA
source https://revistas.unisucre.edu.co/index.php/recia/article/view/354
language Español
format Article
rights http://purl.org/coar/access_right/c_abf2
info:eu-repo/semantics/openAccess
https://creativecommons.org/licenses/by-nc-sa/4.0/
references JUNK, W. J. 1973. Investigations of the ecology and production-biology of the “floating meadows” (Paspalo-Echinochloetum) on the middle Amazon. Part II. The aquatic fauna in the root zone of floating vegetation. Amazoniana, 4: 9-112.
PACHECO, E. B.; DA-SILVA, C. J. 2009. Fish associated with aquatic macrophytes in the Chacororé-Sinhá Mariana Lake system and Mutum River, Pantanal of Mato Grosso, Brazil. Brazilian Journal of Biology, 69 (1): 101-108.
MESCHIATTI, A. J.; ARCIFA, M. S. 2002. Early life stages of fish and the relationships with zooplankton in a tropical Brazilian reservoir: Lake Monte Alegre. Brazilian Journal of Biology, 62: 41-50.
MESCHIATTI, A. J.; ARCIFA, M. S.; FENERICH-VERANI, N. 2000. Fish communities associated with macrophytes in Brazilian floodplain lakes. Environmental Biology of Fishes, 58: 133-143.
MEERHOFF, M.; MAZZEO, N.; MOSS, B.; RODRÍGUEZ-GALLEGO, L. 2003. The structuring role of free-floating versus submerged plants in a subtropical shallow lake. Aquatic Ecology, 37: 377–391
KREBS, C. J., 1999. Ecological methodology. Menlo Park, Addison-Wesley Educational Publishers, 620pp.
JUNK, W.J.; SOARES, M. G.M; CARVALHO, F. M. 1983. Distribution of fish species in a lake of the Amazon river floodplain near Manaus (Lago Camaleão), with especial reference to extreme oxygen conditions. Amazoniana, 7 (4): 397- 431.
HENDERSON, P. A.; HAMILTON, H. F. 1995. Standing crop and distribution of fish in drifting and attached floating meadow within and upper Amazonian varzea lake. Journal of Fish Biology, 47: 266-276.
PETRY, P; BAYLEY, P. B.; MARKLE, D. F. 2003. Relationships between fish assemblages, macrophytes and environmental gradients in the Amazon river floodplain. Journal of Fish Biology, 63 (3): 547-579.
GRENOUILLET, G.; PONT, D. 2001. Juveniles fish in macrophyte beds: influence of food resources, habitat structure and body size. Journal of Fish Biology, 59 (4): 939-959.
GAUCH JR.; H.G. 1982: Multivariate analysis in community ecology. Cambridge University Press. 198pp.
DIBBLE, E. D.; THOMAZ, S. M. 2006. A simple method to estimate spatial complexity in aquatic plants. Brazilian Archives in Biology and Technology, 49:421-428.
DIBBLE, E.D.; KILLGORE, K.J.1994. A habitat-based approach for studying fish-plant interactions. Procs 18th Annual Meeting, Aquatic Plant Control Research Program, 15–18 November 1993, Baltimore, Maryland. Miscellaneous Paper A-94-2: pp.32–40. US Army Corps of Engineers, Waterways Experiment Station, Vicksburg, Miss., USA.
DELARIVA, R.L., AGOSTINHO, A.A., NAKATANI, K.; BAUMGARTNERr, G. 1994. Icthyofauna associated aquatic macrophytes in the upper Parana River floodplain. Revista UNIMAR, 16(3):41-60.
CRAMPTON, W. G. R. 1998. Efects of anoxia on the distribution, respiratory strategies and electric signal diversity of gymnotiform fishes. Journal of Fish Biology, 53: 307-331.
PETR, T. 2000. Interactions between fish and aquatic macrophytes in inland waters: a review. FAO Fisheries Technical Paper, 396. 185p.
SAINT-PAUL, U.; SOARES, M. G. M. 1987. Diurnal distribution and behavioral responses of fishes to extreme hypoxia in an Amazon floodplain lake. Environmental Biology of Fishes, 20:91-104.
CASATTI, L.; MENDES, H. F.; FERREIRA, K. M. 2003. Aquatic macrophytes as feeding site for small fishes in the Rosana reservoir, Paranapanema river, southeastern Brazil. Brazilian Journal of Biology, 63 (2): 213-222.
SÁNCHEZ-BOTERO, J. I.; ARAÚJO-LIMA, C. A. R. M. 2001. As macrófitas aquáticas como berçário para a ictiofauna da várzea do rio Amazonas. Acta Amazonica, 3 (3): 437-447.
ZAR, J. H. 1999. Biostastical analysis. 4 th ed. Prentice-Hall, Englewood Cliffs, USA, 663pp.
THOMAZ, S. M.; DIBBLE, E. D.; EVANGELISTA, L. R.; HIGUTI, J.; BIN, L. M. 2008. Influence of aquatic macrophyte habitat complexity on invertebrate abundance and richness in tropical lagoons. Freshwater Biology, 53, 358–367.
SCHIESARI, L.; ZUANON, J. A.; AZEVEDO-RAMOS, C.; GARCIA, M.; GORDO, M.; MESSIAS, M.; VIEIRA, E. M. 2003. Macrophyte rafts as dispersal vectors for fishes and amphibians in the lower Solimões river, central Amazon. Journal of Tropical Ecology, 19: 333-336.
SAVINO, J. F.; STEIN, R. A. 1989. Behavioral interactions between fish predators and their prey: effects of plant density. Animal Behavior, 37: 311-321.
SÁNCHEZ-BOTERO, J. I.; ARAÚJO-LIMA, C. A. R. M.; GARCEZ, D. S. 2008. Effects of types of aquatic macrophyte stands and variations of dissolved oxygen and of temperature on the distribution of fishes in lakes of the Amazonian floodplain. Acta Limnológica Brasileira, 20 (1): 45-54
SÁNCHEZ-BOTERO, J. I.; LEITÃO, R. P.; CARAMASCHI, E. P.; GARCEZ, D. S. 2007. The aquatic macrophytes as refuge, nursery and feeding habitats for freshwater fish from Cabiúnas lagoon, restinga de Jurubatiba National Park, Rio de Janeiro, Brazil. Acta Limnológica Brasileira, 19 (2): 143-153.
SÁNCHEZ-BOTERO, J. I.; FARIAS, M. L.; PIEDADE, M. T.; GARCEZ, D. S. 2003. Ictiofauna associada às macrófitas aquáticas Eichhornia azurea (SW.) Kunth. e Eichhornia crassipes (Mart.) Solms. no lago Camaleão, Amazônia Central, Brasil. Acta Scientiarum Biological Sciences,25 (2): 369-375.
CHICK, J.H.; MCIVOR, C.C. 1997. Habitat selection by three littoral zone fishes: effects of predation pressure, plant density and macrophyte type. Ecology of Freshwater Fish, 6, p. 27-35
In: Silva, S.H.G., Lavrado, H.P. (Eds) Ecologia dos ambientes costeiros do Estado do Rio de Janeiro. Oecologia Brasiliensis, Rio de Janeiro.
BARRETO, C.C. 1999. Heterogeneidade espacial do habitat e diversidade específica: implicações ecológicas e métodos de mensuração. Págs. 121-153.
ARAÚJO-LIMA, C. A.; PORTUGAL, L. P. S.; FERREIRA, E. G. 1986. Fishmacrophytes relationship in the Anavilhanas Archipelago, a black-water system in the central Amazon. Journal of Fish Biology, 29: 1-11.
AGOSTINHO, A. A.; THOMAZ, S. M.; GOMES, L. C. BALTAR, S.L.S.M.A. 2007. Influence of the macrophyte Eichhornia azurea on fish assemblage of the Upper Paraná River floodplain (Brazil). Aquatic Ecology, 41: 611-619.
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