Natália Freitas de Souza scite author profile

Multimetric Indices (MMIs) have been widely applied for ecological assessment in freshwater ecosystems. Most MMIs face difficulties when scaling up from small spatial scales because larger scales usually encompass great environmental variability. Covariance of anthropogenic pressures with natural environmental gradients can be a confounding factor in assessing biologic responses to anthropogenic pressures. This study presents the development and validation of a predictive multimetric index to assess the ecological condition of Atlantic Forest wadeable streams using benthic macroinvertebrates. To do so, we sampled 158 sites for the index development. We adjusted each biological metric to natural variation through multiple regression analyses (stepwise-forward) and considered that the residual distribution describes the metric variation in the absence of natural environmental influence. For metric selection we considered normal distribution, variation explained by the models, redundancy between metrics and sensitivity to differentiate reference from impaired sites. We selected five metrics to the final index: total richness, %MOLD, %Coleoptera, EPT richness and Chironomidae abundance. The residuals were transformed into probabilities and the final index was obtained through the mean of these probabilities. This index performed well in discriminating the impairment gradient and it showed a high correlation (r = 0.85, p <0.001) with a specific index developed for a particular basin indicating a similar sensitivity. This index can be used to assess wadeable streams ecological condition in Atlantic Forest biome, so we believe that this type of approach represents an important step towards the application of biomonitoring tools in Brazil.

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Giant Canine Ovarian Teratoma: Case Report

Costa¹,

Silva²,

Souza³

et al. 2017

J Cytol Histol

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Hyperinfection by Strongyloides in captive callitrichids with progressive weight loss syndrome

Conga

Souza

Jaques

et al. 2021

J of Medical Primatology

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Strongyloidiasis is an intestinal parasitic infection of the nematodeStrongyloides, 1 which is a parasite of animals in both free-living conditions and captivity. 2,3 The species S. fuelleborni and S. cebus are parasites of Old and New World primates, respectively. Human infections of S. stercolaris are frequent, but zoonotic or anthropozoonotic infections can also occur. 4 Among Old World primates, Erythrocebus patas have shown histopathological lesions caused by S. stercoralis manifesting as disseminated hyperinfection, severe necrotizing duodenitis, colitis, and pulmonary hemorrhage. 5 Among Neotropical primates, pot-bellied Lagothrix cana monkeys have shown severe Strongyloides infections manifesting as hemorrhage and lesions in the lung, duodenum, and jejunum with mucosal erosion, and presence of larvae. 6 This infection occurs by penetration of the filarioid larvae through feet or hands, reaching derma, and subsequently, lymphatic and blood circulation. It can also occur through ingestion of water and food contaminated with filarioid larvae.In Strongyloides infections, third-stage self-infecting larvae can promote severe hyperinfection resulting from the exacerbation of the autoinfection cycle, manifesting with diarrhea, malabsorption, and acute enteritis in primates. 6 This infection can accelerate pathological processes that are already established, such as wasting marmoset syndrome (WMS), and can lead to quick death, particularly in babies of non-human primates. The aim of this study was to describe the anatomopathological aspects of disseminated strongyloidiasis in three captive callitrichids.

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