Variation in the diet of a small characin according to the riparian zone coverage in an Atlantic Forest stream, northeastern Brazil

Trindade, Márcia Emília de Jesus; Peressin, Alexandre; Cetra, Maurício; Jucá-Chagas, Ricardo

doi:10.1590/s2179-975x2013000100005

Cited by 6 publications

(4 citation statements)

References 32 publications

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“…We also show the betweenstudy variance (BSV), the residual heterogeneity (Q E ) and model heterogeneity (Q M ). impacts reduce the input of terrestrial food resources into the water, drastically affecting diet composition food-web structure (Costa et al, 2020;Trindade et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

“…Microhabitat composition is usually more diverse in tropical streams than temperate regions, which ultimately determines resource use by fish (Soares et al., 2017). Also, differences in land use (e.g., urbanisation and pasture) may have diminished or hidden potential correlates between the consumption of allochthonous food resources by fishes and the predictions of the RCC because these human impacts reduce the input of terrestrial food resources into the water, drastically affecting diet composition and food‐web structure (Costa et al., 2020; Trindade et al., 2013).…”

Section: Discussionunclassified

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Spatial factors overcome seasonality regulating the consumption of allochthonous food resources by fishes from tropical lotic ecosystems

Ferreira,

Soares,

Leal

et al. 2024

Freshwater Biology

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In lotic ecosystems, a higher availability of allochthonous food resources is expected during floods and rainfall events, which may yield a higher consumption of these resources by consumers. However, allochthonous input and seasonality in environmental conditions are locally dependent. Thus, dietary responses of freshwater consumers to seasonality should also be locally dependent. Herein, we applied a meta‐analytical approach to identify the spatial and seasonal environmental variables associated with the relative consumption of allochthonous food resources by fishes from tropical lotic ecosystems in different seasons. We gathered 566 observations of the diet of fish populations (i.e., restricted to the same sampling event) from 38 studies conducted in 70 localities across the tropics during flood and drought periods (hereafter, high‐water and low‐water periods, respectively). We retrieved latitude, seasonal channel width, elevation and two proxies for allochthonous input for each locality: terrestrial biomass (without considering seasonality) and the normalised difference vegetation index (NDVI; considering seasonality). Then, we applied meta‐regression models using these environmental variables as predictors and the proportion of allochthonous food resources in each consumer's diet (%Allo) as the response variable. Our models revealed that the diet of fishes from tropical lotic ecosystems is mostly autochthonous‐based, independent of the hydrological period (high‐water or low‐water), and aquatic invertebrates were the most consumed food items. Terrestrial vegetation biomass and elevation predicted increasing allochthony in the diet of tropical fishes for high‐water, but only terrestrial biomass predicted allochthony at low‐water periods. We found no relationship between latitude, channel width or NDVI with allochthony. Our study highlights the importance of considering the hierarchical level of biological organisation and fish trophic guilds for understanding seasonal patterns of relative consumption of allochthonous and autochthonous food resources by fishes. We also argue that variations in seasonality across the tropics are likely to have undermined its influence on allochthony in fish diets. The absence of a non‐relationship between channel width and allochthony provides evidence that the River Continuum Concept is better suited to temperate lotic ecosystems. Our results provide novel insights and the big‐picture of seasonal pattern in the diets of tropical fishes for use in future local empirical studies, improving forecasting of the relationship between the factors underpinning the availability of allochthonous and autochthonous food resources, and the diet of freshwater fishes.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionunclassified

Spatial factors overcome seasonality regulating the consumption of allochthonous food resources by fishes from tropical lotic ecosystems

Ferreira,

Soares,

Leal

et al. 2024

Freshwater Biology

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“…A composição da dieta desta espécie muda quando as áreas com e sem vegetação circundante são comparados, indicando que a espécie exibe um comportamento oportunista. Em estudo de dieta de A. vermilion os recursos alóctones de origem vegetal compuseram a maior parte da dieta no trecho sem mata ripária, com 64 % em frequência de ocorrência; no trecho com mata ciliar, os recursos alóctones de origem animal compuseram a maior parte da dieta, com 62 % de ocorrência, o que ressalta a importância do alimento proveniente do ambiente no entorno (Trindade et al, 2013).…”

Section: História Naturalunclassified

Ficha de Astyanax vermilion

André Teixeira da Silva,

Angela Maria Zanata,

Augusto Luís Bentinho Silva

et al. 2023

Datasets - Sistema SALVE - ICMBio

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Categoria: Menos Preocupante (LC) Última avaliação: 30/04/2021 Ano da publicação: 2023 Astyanax vermilion é endêmica do Brasil, e ocorre nos rios Salgado e Santana, bacia do rio Cachoeira, e na bacia do rio Almada, no estado da Bahia. A espécie é frequente e abundante. Como não foram identificadas ameaças significativas que coloquem a sua população em risco, Astyanax vermilion foi categorizada como Menos Preocupante (LC).

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“…2/6 2016) and where the forest cover has an important role in the food ecology of stream fish species (Trindade et al, 2013). When riparian vegetation or channel morphology changes, the water biota is affected by the transportation of sediments, increased temperature, breaches of trophic chains, and decreased diversity of habitats (Braga and Gomiero, 2009;Dala-Corte et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Food Resource Sharing Among Benthic and Nektonic Stream Fish Species

Silva

Cetra

2021

Bol. Inst. Pesca

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Several tropical freshwater fish species are generally generalistic feeders, sometimes followed by a diet reduction during the period of decreased resource availability. This study aimed to analyze the dietary overlap between nektonic and benthic fish species. The stomachs of 82 obligatory nektonics and 52 benthic were removed. The diet composition for each individual was determined based on the analysis of the stomach content, and the contents were grouped into 11 categories. For the analysis of food items, the method of degree of food preference was used. To verify the niche overlap between benthic and nectonic, the Pianka index was applied. Benthic species consumed items across all 11 food categories and nektonic species consumed nine. The diet composition of species with nektonic and benthic habits showed a significant difference. Dietary overlapping suggests a supply of the same resources, as they are shared by both groups. The high concentration of water insect larvae in the food content of all sampled fish species, regardless of the position in the water column, shows the importance of insects in the water ecosystems. The composition of ecosystem diets is helpful towards understanding the community structure and can explain the coexistence between different fish’s groups where live in different micro-habitats and how tactics used to capture food which may minimize the effects of overlapping and competitive exclusion.

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Variation in the diet of a small characin according to the riparian zone coverage in an Atlantic Forest stream, northeastern Brazil

Cited by 6 publications

References 32 publications

Spatial factors overcome seasonality regulating the consumption of allochthonous food resources by fishes from tropical lotic ecosystems

Spatial factors overcome seasonality regulating the consumption of allochthonous food resources by fishes from tropical lotic ecosystems

Ficha de Astyanax vermilion

Food Resource Sharing Among Benthic and Nektonic Stream Fish Species

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