We characterized dung beetles food preference and diel activity and examined the way such characteristics may structure a Scarabaeinae community in a dry forest. We sampled a fragment of Arboreal Caatinga in Milagres, Bahia, Brazil, during the dry and wet seasons, using baited pitfall (bovine spleen, human feces, cow dung, and rotten banana). Species were classified by activity (nocturnal and diurnal) and food preference (coprophagous, necrophagous, saprophagous, copro-necrophagous, and generalist). In total, 1,581 individuals belonging to 16 morphospecies were sampled, with six new records for Caatinga. The dung beetles were mainly from generalist and coprophagous species; seven species presented nocturnal activity, and five were diurnal. There was higher species richness during the day and greater abundance during the night. Species composition differences were influenced by functional guilds and beetle size according to temporal segregation. These factors may be related to physiological, morphological, and behavioral differences.
Dichotomius schif leri Vaz-de-Mello et al is often cited as endemic to the preserved coastal sandy-dune vegetation (restinga) of Guriri Island, Espírito Santo state, and is included in the Brazilian List of Endangered Fauna as "critically endangered" (CR). However, we recorded its occurrence in twelve additional sites along the coasts of Espírito Santo, Bahia, Sergipe and Pernambuco. The geographic distribution of D. schif leri is limited to the coastal Atlantic Forest domain, mainly in preserved restinga patches. We recommend that D. schif leri remains in the List of Endangered species, but in the "endangered" (EN) category, according to the IUCN criteria.
A biodiversidade aquática e a elevada produtividade pesqueira da Bacia Amazônica se devem principalmente à dinâmica anual dos pulsos de inundação e às extensas áreas alagáveis. Alguns dos principais impactos da construção de barragens para geração de hidroeletricidade incidem precisamente nesta dinâmica hidrológica. A construção da Usina Hidrelétrica (UHE) Belo Monte interfere na dinâmica hidrológica da Volta Grande do Xingu (VGX) ao desviar a maior parte da vazão para fora desse trecho do rio. Com base em uma análise crítica da literatura sobre o impacto de barragens e de monitoramentos em campo, que vêm sendo conduzidos tanto pelo empreendedor quanto por pesquisas independentes, verificamos que seriam necessários volumes de água substancialmente maiores do que o hidrograma proposto pela empresa e pela Agência Nacional de Águas (ANA), para não causar a total ruptura na conexão do rio com as planícies alagáveis, com efeitos negativos em cascata que comprometem, inclusive, a segurança alimentar em toda a VGX. A proposta de testar o hidrograma estabelecido pela empresa por seis anos, com uma drástica redução de vazão e perda da previsibilidade e regularidade do pulso anual de inundação, fere o Princípio Precaucionário, contraria o conhecimento ecológico acumulado sobre o tema e coloca em risco o ambiente, a biota e os modos de vida das populações humanas estabelecidas naquela região.Palavras-chave: Volta Grande do Xingu. Juruna (Yudjá). Hidrograma de Consenso. Regras de operação. Belo Monte.
This study aims to analyze how the vegetation structure (physiognomy) and seasonal changes between seasons (wet and dry) influence richness, diversity and composition of ant species of arboreal and shrubby Caatinga environments. The vegetation structure was significantly different among the three strata for all parameters (mean diameter of vegetation, level of herbaceous cover, degree of coverage and thickness of litter and percentage of canopy cover). We collected 127 ant species. The mean number of species was approximately two times higher in the rainy season than in the dry season. There was no difference in species richness between the arboreal and shrubby Caatinga physiognomies nor interaction between season and physiognomy. Despite the similarity in richness, species composition differed between physiognomies, however we found no difference in composition between seasons. The seasonal differentiation may be mainly related to the variation in the overall numbers of individuals circulating in the environment, since the enhancement of resource availability during rainy season allows the colony to grow or expand foraging activities, which increases local diversity. Water restriction explains the limited diversity in both environments, while the occurrence of species with greater resource specificity may determine differences in ant composition. Differences in composition of each of Caatinga's physiognomy enhance beta diversity, therefore, raising the overall diversity in the Caatinga Domain.
Dung beetle (Coleoptera: Scarabaeoidea: Scarabaeinae) activity is influenced by rainfall seasonality. We hypothesized that rainfall might also play a major role in regulating the community structure of this group. In this study, we describe seasonal changes in the richness, composition, and structure of the Scarabaeinae community in a Brazilian tropical dry forest. A fragment of arboreal Caatinga was sampled using baited pitfall traps during the early dry season (EDS), late dry season (LDS), early wet season (EWS), and middle wet season (MWS). We compared the dung beetle community in each season in relationship to species richness, rank-dominance, curves, and composition. We collected 1352 Scarabaeinae individuals , belonging to 15 species. Dichotomius aff. laevicollis Felsche (Coleoptera: Scarabaeidae) was the dominant species, representing 73.89% of the individuals. There were no seasonal changes in the rank dominance curves; all had a single dominant species and a few species with low abundance, typical for arid areas. Estimated richness was highest in MWS, followed by EWS. Dry-season samples (EDS and LDS) had lower richness, with no significant difference between the dry seasons. Although species richness increased as the habitat became wetter, the difference between the wet and dry seasons was small, which differs completely from the findings of other studies in Neotropical dry forests, where almost all species cease activities in the dry season. Species composition changes were found in non-metric multidimensional scaling and sustained by analysis of similarity. All the seasons had pairwise differences in composition, with the exception of EDS and MWS, which indicates that the dung beetle community in this fragment requires more than three months of drought to trigger changes in species composition; this is probably due to small changes in the forest canopy. There was no difference in composition between EDS and MWS. As in other tropical dry forests, although to a lesser extent, the dung beetle community of this fragment responded to rainfall seasonality with changes in species composition and reduced species richness. Such responses, even to this lesser extent, may occur because of small changes in tree cover and minor microclimate changes.
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