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6. Predicting Landscape Conversion Impact on Small Mammal Occurrence and the Transmission of Parasites in the Atlantic Forest.

Author

Costa, Ana Paula L., Winck, Gisele R., Teixeira, Bernardo R., Gentile, Rosana, D'Andrea, Paulo S., Vieira, Emerson M., Pardini, Renata, Püttker, Thomas, and Andreazzi, Cecilia S.

Subjects
NATIVE plants, LANDSCAPE changes, AGRICULTURE, LAND use, ACQUISITION of data
Abstract

Aim: Changes in landscape configuration significantly impact ecosystems and the services they provide, including disease regulation for both humans and wildlife. Land use conversion usually favors disturbed‐adapted species, which are often known reservoirs of zoonotic parasites, thereby potentially escalating spillover events (i.e., the transmission of parasites to new hosts, including humans). Here we aimed to investigate how alterations in landscape use and configuration influence the distribution and co‐occurrence of potential hosts of zoonotic and epizootic parasites. Location: Brazilian Atlantic Forest. Time Period: Data collection spanned from 1997 to 2019. Major taxa studied small mammals. Methods: We integrated ecological network metrics and joint distribution models while accounting for phylogenetic relationships and functional traits to answer two main questions: (1) do small mammal species considered central hosts in the transmission of parasites exhibit a higher probability of occurrence in landscapes with reduced native vegetation areas? (2) Do small mammal hosts that share a higher number of parasites have higher co‐occurrence probabilities? Results: Our results demonstrated that species identified as significant hosts in our centrality network analysis displayed an increased probability of occurrence in landscapes that are both more fragmented and have a higher proportion of farming areas, hence fewer native vegetation areas. Regarding the relationship between species co‐occurrence and parasite sharing, our findings indicated that most strong co‐occurrences were prevalent within groups with higher parasite fauna similarity, but not all species sharing parasites had a higher probability of co‐occurring. Conclusions: Here we highlight the effects of landscape conversion on small mammal species, including how different configurations of land use can influence both central and non‐central host occurrences. Besides, our results also indicate that parasite transmission may be overestimated when the co‐occurrence probability of potential host species is not considered. We highly recommend incorporating co‐occurrence data to estimate zoonotic risk. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Vegetation cover and biodiversity reduce parasite infection in wild hosts across ecological levels and scales

Author

Andreazzi, Cecilia S., Martinez-Vaquero, Luis A., Winck, Gisele R., Cardoso, Thiago S., Teixeira, Bernardo R., Xavier, Samanta C. C., Gentile, Rosana, Jansen, Ana María, D’Andrea, Paulo S., Andreazzi, Cecilia S., Martinez-Vaquero, Luis A., Winck, Gisele R., Cardoso, Thiago S., Teixeira, Bernardo R., Xavier, Samanta C. C., Gentile, Rosana, Jansen, Ana María, and D’Andrea, Paulo S.

Abstract

Land use changes and biodiversity loss critically disrupts ecosystem functioning and are major drivers of infectious disease outbreaks. Trypanosoma cruzi, the agent of Chagas disease, is a multi-host parasite whose epidemiology has changed due to the expansion of anthropogenic activities over natural areas. We aimed to understand the ecological processes increasing parasite prevalence at the individual, the community and the landscape levels using the largest database on small mammal infection by T. cruzi in Brazil. We applied machine learning techniques and structural equation models to show that allometric traits and the relative abundance of rodents in the community were important predictors of infection risk, followed by variables associated with the landscape environmental quality. Natural vegetation cover change and the taxonomic and functional dimensions of biodiversity indirectly reduced infection through its effect on the abundance distribution and composition of host communities. According to our findings, approaches to biodiversity conservation and restoration based on the integration of social inclusion and human welfare would contribute to regulate the prevalence of T. cruzi in wild hosts, which may reduce overall transmission risk., Unión Europea Horizonte 2020, Ministerio de Ciencia e Innovación (MCIN), Brazilian Research Council, Serrapilheira Institute, Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do Rio de Janeiro, Depto. de Biodiversidad, Ecología y Evolución, Fac. de Ciencias Biológicas, TRUE, pub

Published
2023

10. Vegetation cover and biodiversity reduce parasite infection in wild hosts across ecological levels and scales

Author

Andreazzi, Cecilia S, Martínez Vaquero, Luis Alberto, Winck, Gisele R, Cardoso, Thiago S, Teixeira, Bernardo R, Xavier, Samanta CC, Gentile, Rosana, Jansen, Ana Maria, D'Andrea, Paulo S, Andreazzi, Cecilia S, Martínez Vaquero, Luis Alberto, Winck, Gisele R, Cardoso, Thiago S, Teixeira, Bernardo R, Xavier, Samanta CC, Gentile, Rosana, Jansen, Ana Maria, and D'Andrea, Paulo S

Abstract

Land use changes and biodiversity loss critically disrupts ecosystem functioning and are major drivers of infectious disease outbreaks. Trypanosoma cruzi, the agent of Chagas disease, is a multi-host parasite whose epidemiology has changed due to the expansion of anthropogenic activities over natural areas. We aimed to understand the ecological processes increasing parasite prevalence at the individual, the community and the landscape levels using the largest database on small mammal infection by T. cruzi in Brazil. We applied machine learning techniques and structural equation models to show that allometric traits and the relative abundance of rodents in the community were important predictors of infection risk, followed by variables associated with the landscape environmental quality. Natural vegetation cover change and the taxonomic and functional dimensions of biodiversity indirectly reduced infection through its effect on the abundance distribution and composition of host communities. According to our findings, approaches to biodiversity conservation and restoration based on the integration of social inclusion and human welfare would contribute to regulate the prevalence of T. cruzi in wild hosts, which may reduce overall transmission risk.

Published
2023

12. Socioecological vulnerability and the risk of zoonotic disease emergence in Brazil

Author

Winck, Gisele R., primary, Raimundo, Rafael L. G., additional, Fernandes-Ferreira, Hugo, additional, Bueno, Marina G., additional, D’Andrea, Paulo S., additional, Rocha, Fabiana L., additional, Cruz, Gabriella L. T., additional, Vilar, Emmanuel M., additional, Brandão, Martha, additional, Cordeiro, José Luís P., additional, and Andreazzi, Cecilia S., additional

Published
2022
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15. Hantaviruses and hantavirus pulmonary syndrome, Maranhao, Brazil

Author

da Rosa, Elizabeth S. Travassos, de Lemos, Elba R. Sampaio, Medeiros, Daniele B. de Almeida, Simith, Darlene B., Pereira, Armando de Souza, Elkhoury, Mauro R., Mendes, Wellington S., Vidigal, Jose R.B., Oliveira, Renata C. de, D'Andrea, Paulo S., Bonvicino, Cibele R., Cruz, Ana C.R., Nunes, Marcio R.T., and Vasconcelos, Pedro F. da Costa

Subjects
Hantavirus infections -- Health aspects, Enzyme-linked immunosorbent assay -- Health aspects, Immunoglobulin G -- Health aspects, Health
Abstract

Hantaviruses (family Bunyaviridae, genus Hantavirus) cause a viral zoonosis transmitted by rodents belonging to the families Muridae and Cricetidae. Each hantavirus is predominantly associated with a specific rodent species in [...]

Published
2010
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16. Evaluating the efficiency of different sampling techniques to survey non-flying small mammals in the Amazon

Author

Botelho, André L. M., D’Andrea, Paulo S., Crisóstomo, Charle F., Silveira, Marcos, Lucio, Camila S., Santos, Pedro Z. L., Bonvicino, Cibele R., and Gentile, Rosana

Abstract

Small non-flying mammals represent 44% of Brazilian mammal species and have a wide range of habits and life-history strategies. This wide diversity requires different sampling methods in survey studies. We compared the efficiency of pitfall and live-traps in different vertical positions in relation to the alpha and beta diversity of small mammals in three forest fragments with different levels of conservation and in a continuous area in the southwestern Amazon, Acre state. Captures were carried out using a combination of pitfall traps and live-traps on the ground, understorey, and canopy. Taxonomic identification was performed by morphological and molecular analyses. Alpha diversity was evaluated using Hill numbers (q= 0 and q= 1). The turnover between different types of traps and different vertical strata (beta diversity) was analysed using permutation analysis of variance. Species richness between areas ranged from 6 to 21. The highest species richness was observed in ground traps, and the lowest species richness was observed in the canopy. Live-traps on the ground recorded a greater diversity in two areas. Pitfall traps recorded the greatest number of unique species in three areas. The different types of traps and the different vertical positions acted in a complementary way in the small mammal samplings. The turnover in relation to trap type and stratum indicated the formation of two significantly different groups: ground traps and aboveground traps. However, the use of canopy traps did not contribute significantly to an increase in the estimated species richness and diversity in three of the four localities.

Published
2023
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28. Oligoryzomys utiaritensis J. A. Allen 1916

Author

Agrellos, Rodrigo, Bonvicino, Cibele R., Rosa, Elizabeth Salb�� T., R, Aparecido A., D'Andrea, Paulo S., and Weksler, Marcelo

Subjects
Muridae, Oligoryzomys utiaritensis, Mammalia, Oligoryzomys, Animalia, Rodentia, Biodiversity, Chordata, Taxonomy
Abstract

Oligoryzomys utiaritensis J. A. Allen, 1916 (Figures 2, 3, 4) Holotype. AMNH 37541, adult female (Figures 2 and 3), collected by Leo E. Miller on January 30 th, 1914; measurements of holotype are provided in Table 2. Type Locality. Brazil, Mato Grosso state, Rio Papagaio, Sapezal municipality, Utiariti; geographical coordinates 12 �� 59 ���07������S, 55 �� 36 ��� 23 ������W (taken by GPS). Geographic Distribution. The six known collecting localities of O. utiaritensis (Figure 1, Appendix 1) are distributed across the northwest of Mato Grosso and southwest of Par��. The area includes the Chapada dos Parecis, a massive plateau in northwestern Mato Grosso that marks the transition between the Cerrado and Amazonian domains in Central Brazil. All localities are restricted to the Rio Tapaj��s and Rio Xingu watershed. Carvalho (1960) did not specify where the specimens collected at Grada��s (Par�� state) and identified by him as O. utiaritensis were housed ��� thus their identity was not confirmed; nevertheless, this locality, nowadays at the municipality of S��o F��lix do Xingu (06�� 38 ' S, 51 �� 59 ' W), is near the known range of the species and therefore could represent a seventh locality for O. utiaritensis. External and cranial Measurements. See Table 2. Diagnosis. A medium-sized Oligoryzomys species characterized by: (1) grizzled yellowish-brown dorsal pelage, contrasting with the whitish ventral pelage and tail weakly bicolored; (2) long incisive foramina, the posterior borders reaching or almost reaching the alveolus of the first upper molars, but never extending posteriorly; (3) the highest diploid number (2 n= 72) among Oligoryzomys species; and (4) three putative synapomorphies in cytochrome b, and one in intron 7 of beta fibrinogen (alignments available from the authors). External Characters. Adult dorsal pelage grizzled yellowish-brown, between Antique Brown and Dresden Brown (Ridgway, 1912), composed of long guard hairs and slightly shorter overhairs with a sub-apical brown-yellowish band. Lateral color lighter than in dorsum and with a clearly defined limit with the whitish ventral pelage. Ventral hairs white at their upper half and gray at their basal half. Internal surface of pinnae with brown-yellowish hairs; external surface brownish. Dorsal surface of feet covered with withish hairs, sometimes washed with cream color; short tufts of white ungual hairs at bases of claws on dII���dV. Tail longer than combined length of head and body, sparsely haired, and covered with more or less conspicuous epidermal scales, lacking a long tuft of terminal hairs and weakly bicolored, dorsal surface dark gray and ventral surface light gray (some specimens are unicolored in the distal half of the tail). Superciliary, genal, and mystacial vibrissae not extend beyond ears. Juveniles with grayish dorsum, with whitish ventral surface. Presence of eight mammae in inguinal, abdominal, postaxial, and pectoral positions. Cranial Characters. Delicate skull, medium and narrow rostrum, but slightly wider than interorbital region; interorbital region hourglass-shaped. Braincase without supraorbital and postorbital ridges and with weakly developed lambdoidal ridge. Interparietal bone as broad as parietal. Relatively large zygomatic plate with deep zygomatic notch. Jugal bone absent, resulting in zygomatic process of squamosal in contact with the zygomatic process of maxillary. Incisive foramina with almost parallel margins, the posterior borders reaching or almost reaching the alveolus of the first upper molars, but never extending posteriorly. Palate with single large posterolateral palatal pits not recessed in palatine fossa. Palatal bridge broad and long. Bony roof of mesopterygoid fossa perforated by large sphenopalatine vacuities. Width of parapterygoid plate slightly greater than width of mesopterygoid fossa. Alisphenoid strut absent (buccinator-masticatory foramen and accessory foramen ovale confluent), alisphenoid canal with large anterior opening. Stapedial foramen and the posterior opening of the alisphenoid canal large, but squamosal���alisphenoid groove and sphenofrontal foramen absent (= carotid circulatory pattern 2; Voss 1988). Posterior suspensory process of the squamosal absent. Large subsquamosal fenestra, slightly smaller than postglenoid foramen. Periotic exposed posteromedially between ectotympanic and basioccipital, extending anteriorly to carotid canal. Mastoid perforated by conspicuous posterodorsal fenestra. In mandible, capsular process of lower incisor alveolus well developed in most adults; superior and inferior masseteric ridges converging anteriorly as open chevron below m 1. Dental Characters. Upper and lower incisors opisthodont; molars pentalophodont. Superior molar rows parallel. The first upper molar (M 1) anterocone is divided into anterolabial and anterolingual conules by a weak anteromedian flexus only in young animals; animals with moderate wear lack anteromedian flexus; the anteroloph is well developed, separated from anterocone by a persistent anteroflexus; mesolophs are present on all upper molars in most specimens, but absent in specimens with moderate or heavy wear; the paracone is connected by an enamel bridge to the anterior moiety of protocone, and in some specimens to the mesoloph by the paralophule. M 2 morphology is similar to M 1 except in the anterior region: M 1 has an anterocone, while M 2 only has an anteroloph. Third upper molar (M 3) is reduced, and has a single posterior cup, which we equate to the hypocone; hypoflexus is diminutive. Anteroconid of first lower molar (m 1) without anteromedian flexid; the anterolabial cingulum is present on all lower molars; the anterolophid is present on m 1 but absent on m 2 and m 3; an ectolophid is absent on m 1 and m 2; the mesolophid is distinct on unworn m 1 and m 2, sometimes joined to the entoconid; the posteroflexid is present on m 3. Karyotype. Karyotypic analyses of 25 specimens of Oligoryzomys utiaritensis showed 2 n= 72, FNa= 76 (Figure 4). Autosome complement comprising three pairs of small-sized biarmed chromosomes and 32 acrocentric pairs, three large-sized and 29 varying in size from medium to small. X chromosome large submetacentric and small Y chromosome. Habitat. Specimens of Oligoryzomys utiaritensis were recently captured between 110 and 570 m of altitude, in secondary semideciduous forest in the limits of corn and soy plantations, in eucalypt plantations with herbaceous vegetation, and in very altered vegetation (semi-deciduous forest) near plantations. No information about the vegetation of the type locality was provided in the description of O. utiaritensis (Allen, 1916), but the vegetation along the Papagaio River, including in the Utiariti region, is gallery forest. Comparisons. Oligoryzomys utiaritensis differs from all other Oligoryzomys species by its unique karyotype. In addition, O. utiaritensis differs from other Oligoryzomys that occur in Brazil by a combination of other characters including (1) whitish ventral pelage, (2) a sharply defined limit between lateral and ventral pelage color, in comparison to a buffy venter without defined limit between lateral and ventral coloration in adult specimens of O. moojeni, O. fornesi and O. flavescens (see table 1); (3) slightly bicolored tail, contrary to unicolored tail in O. nigripes and O. rupestris (other species of the genus also have slightly bicolored tails); (4) a large size (adult HBL> 91 mm in average) comparable to O. nigripes, O. stramineus, and O. chacoensis, and opposed to small size species O. rupestris, O. microtis, O. moojeni, O. flavescens, O. delicatus, O. messorius, O. fornesi (HBL O. utiaritensis and O. moojeni in view of their closer geographic distribution and their molecular and karyotypic similarities. In Oligoryzomys utiaritensis, the dorsum is yellowish-brown (unlike the reddish-brown dorsum of O. moojeni), with a clearly defined limit between dorso-lateral and ventral pelage (unlike the poorly defined limit in O. moojeni, forming a gradient between lateral and ventral coloration). In O. utiaritensis, the rostrum is slightly wider than the interorbital constriction (unlike O. moojeni in which the rostrum and interorbital constriction are of similar width), and the subsquamosal fenestra is almost of the same size of postglenoid foramen (unlike O. moojeni with a smaller subsquamosal fenestra about half the size of the postglenoid foramen). Etymology. Oligoryzomys utiaritensis was named by J.A. Allen based on the type locality Utiariti (spelled Utiarity in old maps and accounts), referring to a Amerindian village in Sapezal municipality. Specimens examined. See Appendix 1. Remarks. The specimens referred as O. utiaritensis from Concei����o do Mato Dentro (Avila-Pires, 1960) and Caratinga (Botelho & Williams, 1980; Botelho et al., 1981; Linardi et al., 1984) are herein identified as O. nigripes, based on morphometric (Figure 4) and morphological analyses of the voucher material deposited at the Museu Nacional (see voucher numbers below in Appendix 1). Myers and Carleton (1981) discussed the composite nature of the paratype of O. utiaritensis (AMNH 37540); our examination of this specimen was in agreement with their assessment: skull and skin do not belong to the same animal, the skin being from a larger animal than the skull. We thus remove this specimen from the type series of O. utiaritensis. Oligoryzomys phylogenetics . Our phylogenetic results were generally coincident with recent studies of Oligoryzomys (Franc��s & D'El��a, 2006; Gonz��lez-Ittig et al., 2010; Miranda et al., 2009; Palma et al., 2005, 2010; Richter et al., 2010; Rivera et al., 2007; Rogers et al., 2009). Analyses of an additional marker, the nuclear i 7 FGB gene, provided independent corroboration, usually with high nodal support (especially for the Bayesian analysis), of several clades found with mitochondrial cyt- b. We could observe that O. utiaritensis was found in one the major lineages recovered by the cyt- b analyses with 6 other species: ((O. messorius, ((O. destructor, O. rupestris), (O. delicatus, (Oligozyzomys sp., (O. moojeni, O. utiaritensis)))); in the i 7 FGB analyses, O. rupestris, O. moojeni, and O. utiaritensis also clustered together (the other species were not available for these analyses). Our phylogenetic reconstructions were also the first to include O. rupestris, which appeared as sister group to O. destructor with respect to the (O. moojeni, O. utiaritensis) clade in the cyt- b phylogeny and as a sister lineage of O. moojeni in the i 7 FGB phylogeny. Nevertheless, our results confirmed the need for analyzing additional loci to reach a more complete understanding of Oligoryzomys phylogeny, mainly because analyses exclusively based on cyt- b did not provide sufficient phylogenetic signal for a robust resolution of several interspecific relationships., Published as part of Agrellos, Rodrigo, Bonvicino, Cibele R., Rosa, Elizabeth Salb�� T., R, Aparecido A., D'Andrea, Paulo S. & Weksler, Marcelo, 2012, The taxonomic status of the Castelo dos Sonhos Hantavirus reservoir, Oligoryzomys utiaritensis Allen 1916 (Rodentia: Cricetidae: Sigmodontinae), pp. 1-28 in Zootaxa 3220 on pages 16-18, DOI: 10.5281/zenodo.210257, {"references":["Allen, J. A. (1916) Mammals collected on the Roosevelt Brazilian Expedition, with field notes by Leo E. Miller. Bulletin of the American Museum of Natural History, 35, 559 - 610.","Carvalho, C. T. (1960) Sobre algun mamiferos do sudeste do Para. Arquivos de Zoologia, Sao Paulo, 11, 121 - 132.","Ridgway, R. (1912) Color standards and nomenclature. Washington, DC, 43 pp.","Voss, R. S. (1988) Systematics and ecology of ichthyomyine rodents (Muroidea): patterns of morphological evolution in a small adaptive radiation. Bulletin of the American Museum of Natural History, 188, 260 - 493.","Avila-Pires, F. D. (1960) Roedores colecionados na regiao de Lagoa Santa, Minas Gerais, Brasil. Arquivos do Museu Nacional, 50, 25 - 46.","Botelho, J. R. & Williams, P. (1980) Sobre alguns ectoparasitos de roedores silvestres do municipio de Caratinga, Minas Gerais, Brasil. 2. Acarofauna. Memorias do Instituto Oswaldo Cruz, 75, 47 - 51.","Botelho, J. R., Linardi, P. M., Williams, P. & Nagem, R. L. (1981) Alguns hospedeiros reais de ectoparasitos do Municipio de Caratinga, Minas Gerais, Brasil. Memorias do Instituto Oswaldo Cruz, 76, 57 - 59.","Linardi, P. M., Teixeira, V. P. & Botelho, J. R. (1984) Hopopleura minasensis, sp. n., de Minas Gerais, Brasil (Anoplura: Hoplopleuridae). Revista Brasileira de Biologia, 44, 525 - 531.","Myers, P. & Carleton, M. D. (1981) The species of Oryzomys (Oligoryzomys) in Paraguay and the identity of Azara's \" Rat sixieme ou Rat a Tarse Noir. Miscelaneous Publications of the Museum of Zoology University of Michigan, 161, 1 - 41.","Gonzalez-Ittig, R. E., Salazar-Bravo, J., Barquez, R. M. & Gardenal, C. N. (2010) Phylogenetic relationships among species of the genus Oligoryzomys (Rodentia, Cricetidae) from Central and South America. Zoologica Scripta, 39, 511 - 526.","Miranda, G. B., Oliveira, L. F. B., Andrades-Miranda, J., Langguth, A., Callegari-Jacques, S. M. & Mattevi, M. S. (2009) Phylogenetic and phylogeographic patterns in sigmodontine rodents of the genus Oligoryzomys. Journal of Heredity, 100, 309 - 321.","Palma, R. E., Rivera-Milla, E., Salazar-Bravo, J., Torres-Perez, F., Pardinas, U. F. J., Marquet, P. A., Spotorno, A. E., Meynard, A. P. & Yates, T. L. (2005) Phylogeography of Oligoryzomys longicaudatus (Rodentia: Sigmodontinae) in temperate South America. Journal of Mammalogy, 86, 191 - 200.","Palma, R. E., Rodriguez-Serrano, E., Rivera-Milla, E., Hernandez, C. E., Salazar-Bravo, J., Carma, M. I., Belmar-Lucero, S., Gutierrez-Tapia, P., Zeballos, H. & Yates, T. L. (2010) Phylogenetic relationships of the pygmy rice rats of the genus Oligoryzomys Bangs, 1900 (Rodentia, Sigmodontinae). Zoological Journal of the Linnean Society, 160, 551 - 566.","Richter, M. H., Hanson, J. D., Cajimat, M. N., Milazzo, M. L. & Fulhorst, C. F. (2010) Geographical range of Rio Mamore virus (family Bunyaviridae, genus Hantavirus) in association with the small-eared pygmy rice rat (Oligoryzomys microtis). Vector Borne and Zoonotic Diseases, 10, 613 - 620.","Rivera, P. C., Gonzalez-Ittig, R. E., Fraire, H. J. R., Levis, S. & Gardenal, C. N. (2007) Molecular identification and phylogenetic relationships among the species of the genus Oligoryzomys (Rodentia, Cricetidae) present in Argentina, putative reservoirs of hantaviruses. Zoologica Scripta, 36, 231 - 239.","Rogers, D. S., Arenas, E. A., Gonzalez-Cozatl, F. X., Hardy, D. K., Hanson, J. D. & Lewis-Rogers, N. (2009) Molecular phylogenetics of Oligoryzomys fulvescens based on cytochrome b gene sequences, with comments on the evolution of the genus Oligoryzomys. In: Cervantes, F. A. (Ed.) 60 anos de la Coleccion Nacional de Mamiferos del Instituto de Biologia, UNAM. Aportaciones al Conocimiento y Conservacion de los Mamiferos Mexicanos. Universidad Autonoma de Mexico"]}

Published
2012
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31. Evidence of hantavirus infection in wild rodents captured in a rural area of the state of São Paulo, Brazil

Author

Lemos, Elba Regina S. de, D'Andrea, Paulo S., Bonvicino, Cibele R., Famadas, Kátia M., Padula, Paula, Cavalcanti, Adauto A., and Schatzmayr, Hermann G.

Subjects
Pedreira, prevalência, Brasil, rodent, Hantavírus, survey, Brazil, Hantavirus, São Paulo, roedores
Abstract

Hantaviruses are the etiological agents of the Hantavirus Cardio-Pulmonary Syndrome, a serious rodent-borne disease in Brazil. In order to investigate the occurrence of hantavirus infection in wild rodents, a survey was conducted in three different suburban areas of the municipality of Pedreira, State of São Paulo, Brazil. Of the 145 wild animals captured belonging to 12 different species identified by morphology and karyological analysis, 107 were rodents of the following species: Akodon montensis, Bolomys lasiurus, Calomys tener, Oligoryzomys nigripes, Oligoryzomys flavescens, and Myocastor coypus. Blood samples from these rodents were assayed for the presence of antibodies against hantavirus by IgG ELISA using Andes recombinant nucleocapsid antigen. Antibody reactive to Andes virus was found in two different species, O. nigripes and O. flavescens. These results indicate a potential risk for hantavirus transmission to humans in this area, where reservoir rodents are present in peridomestic settings. Hantavírus é o agente etiológico da síndrome cardio-pulmonar por hantavirus (SCPH), uma importante doença transmitida por roedores no Brasil. Com o objetivo de se conhecer a ocorrência de infecção por hantavírus em pequenos roedores silvestres, uma análise sorológica foi conduzida em três diferentes áreas do subúrbio da cidade de Pedreira, São Paulo. Dos 145 animais silvestres capturados, pertecentes a 12 diferentes espécies identificadas por morfologia e por análise cariológica, 107 eram roedores das seguintes espécies: Akodon montensis, Bolomys lasiurus, Calomys tener, Oligoryzomys nigripes, Oligoryzomys flavescens, e Myocastor coypus. Amostras de sangue desses roedores foram testadas para a presença de anticorpos IgG contra o antígeno do nucleocapsídeo do vírus Andes através do teste ELISA. Reatividade sorológica ao vírus Andes foi observada em duas espécies diferentes, O. nigripes and O. flavescens. Estes resultados indicam o potencial risco de transmissão de hantaví-rus nesta região, onde roedores reservatórios freqüentemente são vistos em peridomicílio.

Published
2004

32. Population Ecology of Hantavirus Rodent Hosts in Southern Brazil

Author

Teixeira, Bernardo R., primary, Oliveira, Renata C., additional, Guterres, Alexandro, additional, Bonvicino, Cibele R., additional, Fernandes, Jorlan, additional, Duarte dos Santos, Claudia N., additional, Lemos, Elba R. S., additional, D'Andrea, Paulo S., additional, Loureiro, Nathalie, additional, Mattos, Luciana H. B. V., additional, Strecht, Liana, additional, Raboni, Sonia M., additional, Gentile, Rosana, additional, and Rubio, Giselia, additional

Published
2014
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35. Hantavirus Infection Prevalence in Wild Rodents and Human Anti-Hantavirus Serological Profiles from Different Geographic Areas of South Brazil

Author

Raboni, Sonia M., primary, de Araujo, Marina R., additional, Delfraro, Adriana, additional, Lemos, Elba R. S., additional, Carstensen, Suzana, additional, de Borba, Luana, additional, D'Andrea, Paulo S., additional, Rubio, Giselia, additional, Teixeira, Bernardo R., additional, Maron, Angela, additional, Duarte dos Santos, Claudia N., additional, and Stella, Vanessa, additional

Published
2012
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37. Investigation of Chagas disease in four periurban areas in northeastern Brazil: epidemiologic survey in man, vectors, non-human hosts and reservoirs

Author

Lima, Marli M., primary, Sarquis, Otília, additional, Oliveira, Tiago Guedes de, additional, Gomes, Taís F., additional, Coutinho, Carolina, additional, Daflon-Teixeira, Natália F., additional, Toma, Helena K., additional, Britto, Constança, additional, Teixeira, Bernardo R., additional, D’Andrea, Paulo S., additional, Jansen, Ana M., additional, Bóia, Marcio N., additional, and Carvalho-Costa, Filipe A., additional

Published
2012
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39. Genetic Characterization of Hantaviruses Associated with Sigmodontine Rodents in an Endemic Area for Hantavirus Pulmonary Syndrome in Southern Brazil

Author

de Oliveira, Renata Carvalho, primary, Padula, Paula J., additional, Gomes, Raphael, additional, Martinez, Valeria P., additional, Bellomo, Carla, additional, Bonvicino, Cibele R., additional, e Lima, Danúbia Inês Freire, additional, Bragagnolo, Camila, additional, Caldas, Antônio C.S., additional, D'Andrea, Paulo S., additional, and de Lemos, Elba R.S., additional

Published
2011
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40. Hantaviruses and Hantavirus Pulmonary Syndrome, Maranhão, Brazil

Author

Travassos da Rosa, Elizabeth S., primary, Sampaio de Lemos, Elba R., additional, Medeiros, Daniele B. de Almeida, additional, Simith, Darlene B., additional, Pereira, Armando de Souza, additional, Elkhoury, Mauro R., additional, Mendes, Wellington S., additional, Vidigal, José R.B., additional, de Oliveira, Renata C., additional, D’Andrea, Paulo S., additional, Bonvícino, Cibele R., additional, Cruz, Ana C.R., additional, Nunes, Márcio R.T., additional, and Vasconcelos, Pedro F. da Costa, additional

Published
2010
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42. An ecological field study of the water-rat Nectomys squamipes as a wild reservoir indicator of Schistosoma mansoni transmission in an endemic area

Author

Gentile, Rosana, primary, Costa-Neto, Sócrates F, additional, Gonçalves, Margareth ML, additional, Bonecker, Simone T, additional, Fernandes, Fabiano A, additional, Garcia, Juberlan S, additional, Barreto, Magali G M, additional, Soares, Marisa S, additional, D'Andrea, Paulo S, additional, Peralta, José M, additional, and Rey, Luis, additional

Published
2006
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45. Origin and diversification of the human parasite Schistosoma mansoni.

Author

MORGAN, JESS A. T., DEJONG, RANDALL J., ADEOYE, GRACE O., ANSA, EBENEZER D. O., BARBOSA, CONSTAN&ÇA S., BR&ÉMOND, PHILIPPE, CESARI, ITALO M., CHARBONNEL, NATHALIE, CORR&ÊA, LYGIA R., COULIBALY, GODEFROY, D'ANDREA, PAULO S&ÉRGIO, DE SOUZA, CECILIA PEREIRA, DOENHOFF, MICHAEL J., FILE, SHARON, IDRIS, MOHAMED A., INCANI, R. NINO, JARNE, PHILIPPE, KARANJA, DIANA M. S., KAZIBWE, FRANCIS, and KPIKPI, JOHN

Subjects
SCHISTOSOMA mansoni, SCHISTOSOMA, PARASITES, PESTS
Abstract

Schistosoma mansoni is the most widespread of the human-infecting schistosomes, present in 54 countries, predominantly in Africa, but also in Madagascar, the Arabian Peninsula, and the Neotropics. Adult-stage parasites that infect humans are also occasionally recovered from baboons, rodents, and other mammals. Larval stages of the parasite are dependent upon certain species of freshwater snails in the genus Biomphalaria, which largely determine the parasite's geographical range. How S. mansoni genetic diversity is distributed geographically and among isolates using different hosts has never been examined with DNA sequence data. Here we describe the global phylogeography of S. mansoni using more than 2500 bp of mitochondrial DNA (mtDNA) from 143 parasites collected in 53 geographically widespread localities. Considerable within-species mtDNA diversity was found, with 85 unique haplotypes grouping into five distinct lineages. Geographical separation, and not host use, appears to be the most important factor in the diversification of the parasite. East African specimens showed a remarkable amount of variation, comprising three clades and basal members of a fourth, strongly suggesting an East African origin for the parasite 0.30–0.43 million years ago, a time frame that follows the arrival of its snail host. Less but still substantial variation was found in the rest of Africa. A recent colonization of the New World is supported by finding only seven closely related New World haplotypes which have West African affinities. All Brazilian isolates have nearly identical mtDNA haplotypes, suggesting a founder effect from the establishment and spread of the parasite in this large country. [ABSTRACT FROM AUTHOR]

Published
2005
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46. Oligoryzomys stramineus Bonvicino and Weksler, 1998 (Mammalia: Rodentia: Sigmodontinae): New records in northeastern Brazil.

Author

Fernandes, Fabiano A., D'Andrea, Paulo S., and Bonvicino, Cibele R.

Subjects
*RODENTS, *ORYZOMYS, *KARYOTYPES, *ANIMAL morphology, *FEMALES
Abstract

After morphological and karyological analysis, we identificated 12 specimens of the Straw Colored Pigmy Rice Rat, Oligoryzomys stramineus (Bonvicino and Weksler, 1998) in northeastern Brazil. Karyotypic analysis showed 2n=52, FNa=68, with 9 biarmed and 16 acrocentric autosome pairs, similar to those reported for O. stramineus in others studies. Pregnant females were captured during the wet season, corroborating that the reproductive period is not restricted to the dry season. We report the northernmost record for O. stramineus in Russas municipality (04°56'25'' S, 37°58'33'' W), state of Ceará, Brazil, located in the Caatinga domain, extending the range of the species ca. 330 km N. Together with the record from Salenópolis municipality (07°18'33'' S, 39°73'33'' W), they are the first records of O. stramineus in Ceará. [ABSTRACT FROM AUTHOR]

Published
2012

47. Trypanosomatids in Small Mammals of an Agroecosystem in Central Brazil: Another Piece in the Puzzle of Parasite Transmission in an Anthropogenic Landscape.

Author

Brandão, Elida M. V., Xavier, Samanta C. C., Carvalhaes, Jeiel G., D'Andrea, Paulo S., Lemos, Frederico G., Azevedo, Fernanda C., Cássia-Pires, Renata, Jansen, Ana M., and Roque, André L. R.

Subjects
MAMMALS, TRYPANOSOMA cruzi, MIXED infections, PARASITES, SPECIES diversity, BLOOD testing, HAEMONCHUS contortus
Abstract

We surveyed infection by Trypanosoma spp. and Leishmania spp. in small wild mammals from Cumari, Goiás State aiming to investigate the diversity of trypanosomatid in a modified landscape of the Brazilian Cerrado (and possible infection overlapping with canids from the same area). Blood, skin, spleen, and liver samples were collected for parasitological, serological, and molecular assays. Gracilinanus agilis was the most abundant species (N = 70; 48.6%) and it was the only one with patent parasitemia. Characterization by mini-exon and 18SrDNA targets were achieved in 7/10 hemocultures with positive fresh blood examination, which confirmed the T. cruzi infection by Discrete Typing Units (DTU) TcI in single (N = 2) and mixed infections with other DTUs (N = 5). T. rangeli and T. dionisii were detected in skin fragments from Didelphis albiventris and Oecomys cleberi, respectively. G. agilis were found to be infected by L. braziliensis and L. guyanensis, while Leishmania sp. DNA was detected in the liver of Oligoryzomys nigripes and Calomys expulsus. Subpatent infection by T. cruzi and Leishmania sp. was serologically detected in 15% and 9% of the small mammal fauna, respectively. Small mammals from Cumari are included in T. cruzi and Leshmania spp. transmission cycles, showing a higher diversity of trypanosomatid species and/or genotypes than that observed in canids of the same agroecosystem. [ABSTRACT FROM AUTHOR]

Published
2019
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48. A Taxonomic Update of Small Mammal Plague Reservoirs in South America.

Author

Bonvicino CR, Oliveira JA, Cordeiro-Estrela P, D'andrea PS, and Almeida AM

Subjects
Animals, Disease Reservoirs microbiology, Humans, Marsupialia microbiology, Plague microbiology, Rodentia microbiology, South America epidemiology, Zoonoses, Disease Reservoirs classification, Marsupialia classification, Plague epidemiology, Rodentia classification, Yersinia pestis isolation & purification
Abstract

Plague is a disease of epidemic potential that may emerge with discontinuous outbreaks. In South America, 50 wild rodent species have been identified as plague reservoirs, in addition to one lagomorph and two marsupials. To review the nomenclature of plague reservoirs, we examined specimens collected in plague foci, carried out new surveys in Brazilian plague regions, and re-evaluated the nomenclature of South American reservoirs on the basis of the current literature. Five of the 15 species involved with plague in Argentina, three of 10 species involved with plague in Bolivia, three of the seven species involved with plague in Peru, five of the nine species involved with plague in Ecuador, and six of the nine species involved with plague in Brazil have undergone taxonomic changes. In the last 20 years, plague cases were recorded in Bolivia, Brazil, Ecuador, and Peru. These four countries have a high rodent species richness in plague foci, a fact that may be decisive for the maintenance of plague in the wild.

Published
2015
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49. Genetic characterization of hantaviruses associated with sigmodontine rodents in an endemic area for hantavirus pulmonary syndrome in southern Brazil.

Author

de Oliveira RC, Padula PJ, Gomes R, Martinez VP, Bellomo C, Bonvicino CR, Freire e Lima DI, Bragagnolo C, Caldas AC, D'Andrea PS, and de Lemos ER

Subjects
Animals, Base Sequence, Brazil epidemiology, Capsid Proteins genetics, Cytochromes b genetics, DNA, Mitochondrial chemistry, DNA, Mitochondrial genetics, Disease Reservoirs virology, Female, Genetic Variation, Orthohantavirus classification, Orthohantavirus immunology, Hantavirus Pulmonary Syndrome virology, Male, Molecular Sequence Data, Phylogeny, Prevalence, RNA, Viral blood, Rodent Diseases epidemiology, Sequence Analysis, DNA, Viral Core Proteins genetics, Viral Proteins genetics, Antibodies, Viral blood, Endemic Diseases, Orthohantavirus genetics, Hantavirus Pulmonary Syndrome epidemiology, Rodent Diseases virology, Sigmodontinae classification, Sigmodontinae genetics, Sigmodontinae virology
Abstract

An ecological assessment of reservoir species was conducted in a rural area (Jaborá) in the mid-west of the state of Santa Catarina in southern Brazil, where hantavirus pulmonary syndrome is endemic, to evaluate the prevalence of hantavirus infection in wild rodents. Blood and tissue samples were collected from 507 rodents during seven field trips from March 2004 to April 2006. Some of the animals were karyotyped to confirm morphological identification. Phylogenetic reconstructions of rodent specimens, based on the mitochondrial DNA cytochrome b gene sequences, were also obtained. Hantavirus antibody was found in 22 (4.3%) of the 507 rodents: 5 Akodon montensis, 2 Akodon paranaensis, 14 Oligoryzomys nigripes, and 1 Sooretamys angouya. Viral RNAs detected in O. nigripes and A. montensis were amplified and sequenced. O. nigripes virus genome was 97.5% (nt) and 98.4% (nt) identical to sequences published for Araucaria (Juquitiba-like) virus based on N and G2 fragment sequences. Viral sequences from A. montensis strain showed 89% and 88% nucleotide identities in a 905-nt fragment of the nucleocapsid (N) protein-coding region of the S segment when it was compared with two other Akodontine rodent-associated viruses from Paraguay, A. montensis and Akodon cursor, respectively. Phylogenetic analysis showed the cocirculation of two genetic hantavirus lineages in the state of Santa Catarina, one from O. nigripes and the other from A. montensis, previously characterized in Brazil and Paraguay, respectively. The hantavirus associated with A. montensis, designed Jaborá virus, represents a distinct phylogenetic lineage among the Brazilian hantaviruses.

Published
2011
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50. Phylogenetic characterization of hantaviruses from wild rodents and hantavirus pulmonary syndrome cases in the state of Parana (southern Brazil).

Author

Raboni SM, Hoffmann FG, Oliveira RC, Teixeira BR, Bonvicino CR, Stella V, Carstensen S, Bordignon J, D'Andrea PS, Lemos ER, and Duarte Dos Santos CN

Subjects
Animals, Brazil epidemiology, Orthohantavirus genetics, Orthohantavirus isolation & purification, Hantavirus Pulmonary Syndrome epidemiology, Humans, Molecular Sequence Data, Disease Reservoirs virology, Orthohantavirus classification, Hantavirus Pulmonary Syndrome virology, Phylogeny, Rodentia virology
Abstract

Over 1,100 cases of hantavirus pulmonary syndrome (HPS) have occurred in Brazil since 1993, but little is known about Brazilian hantaviruses, and many of their rodent hosts remain unknown. The Araucaria hantavirus (ARAUV) was described recently from HPS patients from Paraná, in southern Brazil, but its host could not be identified. In this study, rodents were captured from regions with high HPS prevalence to address this issue. ARAUV RNA was detected in three distantly related rodent species: Oligoryzomys nigripes, Oxymycterus judex and Akodon montensis. Furthermore, a specimen of A. montensis was infected with a Jaborá-like virus, implying that A. montensis can be infected by at least two different hantaviruses. The presence of the same hantavirus strain in three different rodent species and the co-circulation of two different strains in the same rodent species highlight the potential for genomic reassortment, which could have an impact on hantavirus transmission dynamics in nature and on human epidemiology.

Published
2009
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