Seroprevalence of antibodies against SARS-CoV-2 in the school community in Campo Grande, state of Mato Grosso do Sul, Brazil, October 2021-November 2022.

Introduction: With the reopening of schools during the coronavirus disease 2019 (COVID-19) pandemic, it was imperative to understand the role of students and education professionals in the spread of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). In this paper, we determined the seroprevalence of the SARS-CoV-2 anti-nucleocapsid antibodies in the school community in Campo Grande, the capital and most populous city of the state of Mato Grosso do Sul (Brazil) and evaluated its association with sex, school level, and school type. Materials and methods: The survey was carried out in 20 public and private schools in the urban region of Campo Grande using the TR DPP® COVID-19 immunoglobulin M/immunoglobulin G (IgM/IgG) kit from the Immunobiological Technology Institute (Bio-Manguinhos, Rio de Janeiro, Brazil). Testing was carried out in three periods: from October to December 2021; from March to July 2022; and from August to November 2022. The participants were students aged 6-17 years enrolled in primary or secondary schools and professionals of different ages and roles. Results: During the first testing period, 162 participants were seropositive for the IgM and/or IgG anti-nucleocapsid SARS-CoV-2 antibodies, with an estimated seroprevalence of 19.6% using Bayesian multilevel regression. In the second period, 251 participants were seropositive (estimated seroprevalence, 34.6%), while in the third period, 393 participants were seroconverted (estimated seroprevalence, 56.7%). In 2022, there was an increase in the seroconversion rate compared to that in 2021. The most frequently described acute manifestations in the three periods were fever, headache, sore throat, and runny nose. In terms of the demographic profile, there was no predominance of seropositivity between the sexes, although women represented approximately 70% of the study population. There were also no differences between students and school staff. Discussion: The results made it possible to evaluate the extent of SARS-CoV-2 transmission in the school community through immunity developed against the virus, in addition to providing information about COVID-19 symptoms in children, adolescents, and adults.

Multilayer Networks Assisting to Untangle Direct and Indirect Pathogen Transmission in Bats.

The importance of species that connect the different types of interactions is becoming increasingly recognized, and this role may be related to specific attributes of these species. Multilayer networks have two or more layers, which represent different types of interactions, for example, between different parasites and hosts that are nonetheless connected. The understanding of the ecological relationship between bats, ectoparasites, and vector-borne bacteria could shed some light on the complex transmission cycles of these pathogens. In this study, we investigated a multilayer network in Brazil formed by interactions between bat-bacteria, bat-ectoparasite, and ectoparasite-bacteria, and asked how these interactions overlap considering different groups and transmission modes. The multilayer network was composed of 31 nodes (12 bat species, 14 ectoparasite species, and five bacteria genera) and 334 links, distributed over three layers. The multilayer network has low modularity and shows a core-periphery organization, that is, composed of a few generalist species with many interactions and many specialist species participating in few interactions in the multilayer network. The three layers were needed to accurately describe the multilayer structure, while aggregation leads to loss of information. Our findings also demonstrated that the multilayer network is influenced by a specific set of species that can easily be connected to the behavior, life cycle, and type of existing interactions of these species. Four bat species (Artibeus lituratus, A. planirostris, Phyllostomus discolor, and Platyrrhinus lineatus), one ectoparasite species (Steatonyssus) and three bacteria genera (Ehrlichia, hemotropic Mycoplasma and Neorickettsia) are the most important species for the multilayer network structure. Finally, our study brings an ecological perspective under a multilayer network approach on the interactions between bats, ectoparasites, and pathogens. By using a multilayer approach (different types of interactions), it was possible to better understand these different ecological interactions and how they affect each other, advancing our knowledge on the role of bats and ectoparasites as potential pathogen vectors and reservoirs, as well as the modes of transmission of these pathogens.

The SISBIOTA-Diptera Brazilian Network: A long-term survey of Diptera from unexplored Brazilian Western Arc of Amazon, Cerrado, and Pantanal

ABSTRACT The SISBIOTA-BRASIL was a three-year multimillion-dollar research program of the Brazilian government to document plants and animals in endangered/understudied areas and biomes in Brazil. Distributional patterns and the historical events that generated them are extensively unknown regarding Brazilian fauna and flora. This deficiency hinders the development of conservation policies and the understanding of evolutionary processes. Conservation decisions depend on precise knowledge of the taxonomy and geographic distribution of species. Given such a premise, we proposed to research the diversity of Diptera of the Brazilian western arc of Amazon, Cerrado, and Pantanal in the states of Mato Grosso, Mato Grosso do Sul, and Rondônia. Three important biomes of the South American continent characterize these Brazilian states: Amazon forest, Cerrado (Brazilian Savannah), and Pantanal. Besides their ecological relevance, these biomes historically lack intensive entomological surveys. Therefore, they are much underrepresented in the Brazilian natural history collections and in the scientific literature, which is further aggravated by the fact that these areas are being exponentially and rapidly converted to commercial lands. Our project involved over 90 collaborators from 24 different Brazilian institutions and one from Colombia among researchers, postdocs, graduate and undergraduate students, and technicians. We processed and analyzed nearly 300,000 specimens from ~60 families of Diptera collected with a large variety of methods in the sampled areas. Here, we provide a detailed overview of the genera and species diversity of 41 families treated. Our results point to a total of 2,130 species and 514 genera compiled and identified for the three states altogether, with an increase of 41% and 29% in the numbers of species and genera known for the three states combined, respectively. Overall, the 10 most species-rich families were Tachinidae, Cecidomyiidae, Tabanidae, Psychodidae, Sarcophagidae, Stratiomyidae, Bombyliidae, Syrphidae, Tephritidae, and Asilidae. The 10 most diverse in the number of genera were Tachinidae, Stratiomyidae, Asilidae, Mycetophilidae, Syrphidae, Tabanidae, Muscidae, Dolichopodidae, Sarcophagidae, and Chloropidae. So far, 111 scientific papers were published regarding taxonomic, phylogenetic, and biogeographical aspects of the studied families, with the description of 101 new species and three new genera. We expect that additional publications will result from this investigation because several specimens are now curated and being researched by specialists.

Sex-biased parasitism, host mass and mutualistic bat flies: an antagonistic individual-based network of bat-bat fly interactions.

Individual-based networks provide the building blocks for community-level networks. However, network studies of bats and their parasites have focused only on the species level. Intrapopulation variation may allow certain host individuals to play important roles in the dynamics of the parasites. Therefore, we evaluated how the variation in host sex, body size, ectoparasite abundance and co-occurrence configure individual-based networks of the lesser bulldog bat Noctilio albiventris and bat flies. We expected bat individuals with greater body mass and forearms acting as the core in the network. We also expected males to play a more important role in the network. We sampled a network of N. albiventris bat individuals and their bat flies to describe the structure of an antagonistic individual-based network. We aimed to identify the most relevant bat individuals in the network, focusing on the implications inherent to each of the following approaches: (i) core-periphery organization; (ii) modularity; (iii) species level metrics; and (iv) the main ecological driver of bat individual roles in the network, using niche-based predictors (body mass, forearm and sex). We showed that a network of N. albiventris individuals and their bat flies had low modularity containing a persistent nucleus of individuals and bat flies with well-established interactions. Male individuals with greater body mass played an important role in the network, while for females neither mass nor forearm length were important predictors of their role in the network. Finally, individuals with a high abundance of Paradyschiria parvula played a core role. These results provide an alternative perspective to understand the patterns and mechanisms of interspecific interactions between parasites on the host, as well as sex-biased parasitism.

Multilayer networks assisting to untangle direct and indirect pathogen transmission in bats

The importance of species that connect the different types of interactions is becoming increasingly recognized, and this role may be related to specific attributes of these species. Multilayer networks have two or more layers, which represent different types of interactions, for example, between different parasites and hosts that are nonetheless connected. The understanding of the ecological relationship between bats, ectoparasites, and vector-borne bacteria could shed some light on the complex transmission cycles of these pathogens. In this study, we investigated a multilayer network in Brazil formed by interactions between bat-bacteria, bat-ectoparasite, and ectoparasite-bacteria, and asked how these interactions overlap considering different groups and transmission modes. The multilayer network was composed of 31 nodes (12 bat species, 14 ectoparasite species, and five bacteria genera) and 334 links, distributed over three layers. The multilayer network has low modularity and shows a core-periphery organization, that is, composed of a few generalist species with many interactions and many specialist species participating in few interactions in the multilayer network. The three layers were needed to accurately describe the multilayer structure, while aggregation leads to loss of information. Our findings also demonstrated that the multilayer network is influenced by a specific set of species that can easily be connected to the behavior, life cycle, and type of existing interactions of these species. Four bat species (Artibeus lituratus, A. planirostris, Phyllostomus discolor, and Platyrrhinus lineatus), one ectoparasite species (Steatonyssus) and three bacteria genera (Ehrlichia, hemotropic Mycoplasma and Neorickettsia) are the most important species for the multilayer network structure. Finally, our study brings an ecological perspective under a multilayer network approach on the interactions between bats, ectoparasites, and pathogens. By using a multilayer approach (different types of interactions), it was possible to better understand these different ecological interactions and how they affect each other, advancing our knowledge on the role of bats and ectoparasites as potential pathogen vectors and reservoirs, as well as the modes of transmission of these pathogens.

A importância das espécies que conectam os diferentes tipos de interações é cada vez mais reconhecida, e esse papel pode estar relacionado a atributos específicos dessas espécies. As redes multicamadas têm duas ou mais camadas, que representam diferentes tipos de interações, por exemplo, entre diferentes parasitas e hospedeiros que, no entanto, estão conectados. A compreensão da relação ecológica entre morcegos, ectoparasitas e bactérias transmitidas por vetores pode lançar alguma luz sobre os complexos ciclos de transmissão desses patógenos. Neste estudo, investigamos uma rede multicamadas no Brasil formada por interações entre morcego-bactéria, morcego-ectoparasita e ectoparasita-bactéria, e perguntamos como essas interações se sobrepõem considerando diferentes grupos e modos de transmissão. A rede multicamada foi composta por 31 nós (12 espécies de morcegos, 14 espécies de ectoparasitas e cinco gêneros de bactérias) e 334 links, distribuídos em três camadas. A rede multicamadas possui baixa modularidade e apresenta uma organização núcleo-periferia, ou seja, composta por poucas espécies generalistas com muitas interações e muitas espécies especialistas participando de poucas interações na rede multicamadas. As três camadas foram necessárias para descrever com precisão a estrutura multicamadas, enquanto a agregação leva à perda de informações. Nossas descobertas também demonstraram que a rede multicamada é influenciada por um conjunto específico de espécies que podem ser facilmente conectadas ao comportamento, ciclo de vida e tipo de interações existentes dessas espécies. Quatro espécies de morcegos (Artibeus lituratus, A. planirostris, Phyllostomus discolor e Platyrrhinus lineatus), uma espécie de ectoparasita (Steatonyssus) e três gêneros de bactérias (Ehrlichia, hemotrópico Mycoplasma e Neorickettsia) são as espécies mais importantes para a estrutura da rede multicamada. Por fim, nosso estudo traz uma perspectiva ecológica sob uma abordagem de rede multicamadas sobre as interações entre morcegos, ectoparasitas e patógenos. Usando uma abordagem multicamadas (diferentes tipos de interações), foi possível entender melhor essas diferentes interações ecológicas e como elas afetam umas às outras, avançando nosso conhecimento sobre o papel de morcegos e ectoparasitas como potenciais vetores e reservatórios de patógenos, bem como a modos de transmissão desses patógenos.

Revision of Noctiliostrebla (Diptera: Streblidae), parasites of bulldog bats (Chiroptera: Noctilionidae: Noctilio).

The Neotropical genus Noctiliostrebla Wenzel (Diptera: Streblidae) is revised after examination of the types of all nominal species, and 11 species are recognized. Seven new species are described, and a lectotype is designated for Lipoptena dubia Rudow. Resulting information on species distributions and host records can be summarized as follows: Noctiliostrebla dubia (Rudow) is restricted to the Amazon region and is a parasite of Noctilio leporinus (Linnaeus) (Chiroptera: Noctilionidae); Noctiliostrebla traubi Wenzel is restricted to Central America and northern South America, being the only species of the genus parasitizing N. leporinus in Central America; the distribution ranges of N. maai Wenzel and N. traubi are similar, but the host of N. maai is N. albiventris Desmarest; Noctiliostrebla aitkeni Wenzel is restricted to northern South America and has only been recorded as parasitizing N. leporinus; Noctiliostrebla ecuadorensis sp. n. occurs only in Ecuador, on N. albiventris; Noctiliostrebla guerreroi sp. n. has only been recorded from the Amazon region on N. albiventris; Noctiliostrebla falsispina sp. n. is restricted to south-central South America and is a parasite of N. leporinus; the distributions of N. lamasi sp. n. and N. falsispina sp. n. are similar, and the two species usually co-occur on N. leporinus; Noctiliostrebla morena sp. n. has a similar distribution to those of N. falsispina sp. n. and N. lamasi sp. n., but parasitizes N. albiventris; Noctiliostrebla pantaneira sp. n. has a similar distribution to N. morena sp. n. and usually co-occurs with it on N. albiventris; Noctiliostrebla caissara sp. n. is restricted to the southeastern coast of South America and is a parasite of N. leporinus. All species are included in a key and illustrated.

Bat flies (Diptera: Streblidae) ectoparasites of bats at an Atlantic Rainforest site in northeastern Brazil

Bat flies were surveyed between March, 2007 and February, 2008, in the Carnijó Private Natural Heritage Reserve (08° 07′ S and 35° 05′ W), an area of Atlantic Rainforest in the municipality of Moreno, in the Brazilian state of Pernambuco. Bats were captured biweekly using mist nets set during six hours each night. The ectoparasites were collected with tweezers and/or a brush wet in ethanol and stored in 70% ethanol. The specimens are deposited in the zoological reference collection of the Federal University of Mato Grosso do Sul. Sixteen species of streblid bat flies were collected from 10 bat species of the family Phyllostomidae. Thirteen of the these streblid species were recorded for the first time in Pernambuco.

O presente estudo ocorreu entre Março de 2007 e Fevereiro de 2008 na Reserva Particular do Patrimônio Natural Carnijó (08° 07′ S e 35° 05′ W), área de Mata Atlântica, localizada no município de Moreno, Pernambuco, Brasil. Os morcegos foram capturados quinzenalmente com redes de neblina por um intervalo de seis horas por noite. A coleta dos ectoparasitos foi realizada com auxílio de pinça e/ou um pincel umedecido com álcool, sendo mantidos em etanol 70%. Os espécimens estão depositados na Coleção Zoológica de Referência da Fundação Universidade Federal de Mato Grosso do Sul. Dezesseis espécies de moscas estreblídeas foram capturadas sobre 10 espécies de morcegos da família Phyllostomidae. Treze espécies de estreblídeas encontradas no presente trabalho foram registradas pela primeira vez para o estado de Pernambuco.