The role of phytophysiognomies and seasonality on the structure of ground-dwelling anuran (Amphibia) in the Pampa biome, southern Brazil

Maragno, Franciele Pereira; Santos, Tiago Gomes dos; Cechin, Sônia Zanini

doi:10.1590/s0001-37652013005000042

Cited by 14 publications

(15 citation statements)

References 41 publications

(47 reference statements)

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“…Here, we further support previous findings (Inger and Colwell, 1977;Maragno et al, 2013) that assemblages from structurally less stable habitats suffer high variation in composition across seasons. Seasonality in temperature, rainfall and photoperiod influence the phenology and productivity of plant communities (Soares et al, 2005;Overbeck et al, 2006;Liebsch and Mikich 2009;Longhi et al, 2011), causing changes to habitat heterogeneity and resource availability, which consequently influence the peaks of anuran species reproduction and their patterns of habitat use (Inger and Colwell, 1977;Both et al, 2008;Canavero et al, 2008;Santos et al, 2008;Maragno et al, 2013). As forest habitats are seasonally more stable than grassland habitats in regard to habitat structure, we initially suspected that anuran taxonomic, functional and phylogenetic composition would be more stable throughout the changing seasons in the forest habitat.…”

Section: Discussionsupporting

confidence: 91%

“…Many studies show evidence for within-habitat variation in anuran assemblage composition across seasons due to the varying environment (e.g., Both et al, 2008;Canavero et al, 2008;Santos et al, 2008;Santos-Pereira et al, 2011;Rievers et al, 2014). However, a few studies attempt to understand whether assemblages from different habitats show distinct degrees of variation in composition across seasons (e.g., Inger and Colwell, 1977;Maragno et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

“…It has been suggested that seasonality in temperature, photoperiod and rainfall might control the peaks of anuran reproduction and richness in subtropical and temperate regions, whereas abundant rainfall might sustain continuous anuran reproduction in tropical regions Both et al, 2008;Canavero et al, 2008). Further, climate seasonality can differentially influence the vegetation heterogeneity and resource quality of an area, as the effects of climate seasonality depend on the habitat type (Maragno et al, 2013;Gonçalves et al, 2015). Here, we evaluated the seasonal variations in the composition of anuran assemblages from forest and grassland habitats, which are two habitats differently influenced by climate seasonality.…”

Section: Introductionmentioning

confidence: 99%

“…Structural particularities of habitats, as well as their intrinsic dynamics, should strongly influence not only species but also the functional and phylogenetic composition of anuran assemblages (Inger and Colwell, 1977;Urbina-Cardona et al, 2006;Maragno et al, 2013). Differences in richness have been observed when comparing anuran assemblages in stable and heterogeneous habitats to assemblages in unstable and homogeneous habitats (Inger and Colwell, 1977;Xavier and Napoli, 2011;Oliveira et al, 2013;Jimenez-Robles et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Seasonal variation in the composition of ground-dwelling anuran (Amphibia) assemblages in southern Brazil

Luza

Gonçalves²,

Zanella³

2018

Neotropical Biology and Conservation

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Climate seasonality may differently influence habitat quality and heterogeneity depending on habitat type. We examined whether the taxonomic, functional and phylogenetic composition of ground-dwelling anuran assemblages from grassland and forest habitats vary seasonally. We tested the hypothesis that the forest anuran assemblage varies less seasonally than the grassland assemblage. We monitored anurans using pitfall trap arrays in two areas, sampled across four seasons over a two-year period. For the functional composition, we acquired information on species morphology, reproduction, and habitat use to represent the anuran niche. For the phylogenetic composition, we used the most comprehensive anuran phylogeny. We used Principal Coordinate Analysis and Analysis of Variance to evaluate seasonal variations in assemblage composition along the study period. Our data revealed significant seasonal variation in the taxonomic and phylogenetic composition of anuran assemblages. Variation in taxonomic composition was higher in the grassland than in the forest assemblage, while variation in phylogenetic composition was higher in the spring-summer than in the autumn-winter seasons. We did not identify seasonal variation in functional composition. Seasonal variations in taxonomic and phylogenetic composition, but not in functional composition, indicate that the species with a fluctuating seasonal abundance have similar life-history traits, but belong to different lineages.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Seasonal variation in the composition of ground-dwelling anuran (Amphibia) assemblages in southern Brazil

Luza

Gonçalves²,

Zanella³

2018

Neotropical Biology and Conservation

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“…Temporary habitats (including the MOA site) tend to have less pressure from predators than permanent environments (Heyer et al 1975), thereby allowing diversity and species richness (Skelly 1997). In contrast with permanent environments tend to be colonized by species with long reproductive periods, such as Dendropsophus minutus and Hypsiboas faber and species of the family Leptodactylidae (Maragno et al 2013;Wells 1977). The abundance of rare species observed in this study may be due to occasional records while anurans were moving to breeding sites or to shelter areas, which were not the sampling sites themselves (e.g., Phyllomedusa distincta, Scinax granulatus, and Scinax perereca).…”

Section: Discussionmentioning

confidence: 74%

Anurans of a remnant forest in Urussanga, Santa Catarina, southern of Brazil

Ceron¹,

Martins

Zocche

2016

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Abstract:We provide a list of amphibians from a Submontane Forest remnant in Urussanga municipality, Santa Catarina, southern of Brazil. We sampling through visual and acoustic surveys in four distinct sites. Twenty-six species of anurans belonging to nine families were recorded, where nine species were rare, nine abundant, and eight common. Eleven reproductive modes were observed, with exotrophic tadpoles in still water (mode 1) being most frequent mode (38%). The period of highest vocalization activity occurred between October and January. Temperature, rainfall and air humidity were not correlated with the richness and abundance of calling males. Only photoperiod was positively correlated with the abundance of calling males and species richness.

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Assessing uncertainties in estimating surface energy fluxes from remote sensing over natural grasslands in Brazil

Käfer

Rocha

Veeck

et al. 2022

Theor Appl Climatol

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Evapotranspiration (ET) is one of the main fluxes in the global water cycle. As the Pampa biome carries a rich biodiversity, accurate information on the ET dynamics is essential to support its proper monitoring and establish conservation strategies. In this context, we assessed an operational methodology based on the S-SEBI model to estimate energy fluxes over the natural grasslands of the Brazilian Pampa between 2014-2019. The S-SEBI is a remote sensing-based ET model that requires a minimum of meteorological inputs, being fully applicable for regions lacking in situ observations. Therefore, we investigated the model performance considering radiation data from both ERA5 reanalysis and Eddy Covariance measurements. Furthermore, comparisons from satellite-based estimates with in situ data were performed with and without energy balance closure (EBC).Results showed that the RMSE is impacted in 0.32 mm/day when reanalysis data are used, indicating that the meteorological inputs have low sensitivity on daily ET estimates from the S-SEBI model. In contrast, the instantaneous energy balance components are more affected. The strong climate seasonality of the Brazilian Pampa impacts the evaporative fraction, which is more evident in late summer and autumn and may compromise the performance of the model. The effects in the daily ET are lower when in situ data without EBC are considered as ground truth. However, they are less correlated with the remote sensing-based estimates. These insights are useful to monitor water and energy fluxes from local to regional scale and provide the opportunity to capture ET trends over the biome.

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The role of phytophysiognomies and seasonality on the structure of ground-dwelling anuran (Amphibia) in the Pampa biome, southern Brazil

Cited by 14 publications

References 41 publications

Seasonal variation in the composition of ground-dwelling anuran (Amphibia) assemblages in southern Brazil

Seasonal variation in the composition of ground-dwelling anuran (Amphibia) assemblages in southern Brazil

Anurans of a remnant forest in Urussanga, Santa Catarina, southern of Brazil

Assessing uncertainties in estimating surface energy fluxes from remote sensing over natural grasslands in Brazil

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