ABSTRACT:

The green-winged saltator Saltator similis (d’Orbigny & Lafresnaye, 1837) is a passerine bird highly valued by bird breeders and a target of illegal wildlife trafficking. Coccidian chromists are etiological agents of coccidiosis, which may be asymptomatic and enzootic in bird populations when environmental conditions are favorable. However, epizootic outbreaks with severe disease can occur due to environmental changes. In this context, this study reports a case of coccidiosis in a free-living juvenile specimen of S. similis captured at the Itatiaia National Park in southeastern Brazil. Typical clinical signs of coccidiosis were observed, and it was associated with greenish mucoid diarrhea containing a high density of coccidian oocysts. Three Isospora spp. were specifically identified in 14 fecal samples (fecal droplets) collected over two hours. Isospora saltatori (Berto, Balthazar, Flausino & Lopes, 2008) had the highest density and positivity throughout most of the collection period. Finally, this paper discusses the importance of the continuous evaluation of the health of birds as bioindicators and their coccidian ecological biomarkers as one of the strategies for evaluating the conservation status of Itatiaia National Park.

INDEX TERMS:
Coccidia; green-winged saltator; Saltator similis; conservation; isosporosis; oocysts; Parque Nacional do Itatiaia

RESUMO:

O trinca-ferro Saltator similis (d’Orbigny & Lafresnaye, 1837) é um pássaro muito valorizado por criadores de aves e pelo tráfico ilegal de animais silvestres. Os cromistas coccídios são agentes etiológicos da coccidiose, a qual pode ser assintomática e enzoótica em populações de aves quando as condições ambientais são favoráveis, mas surtos epizoóticos com doença grave podem ocorrer como resultado de mudanças ambientais. Nesse contexto, este artigo relata um caso de coccidiose em um espécime juvenil de vida livre de S. similis capturado no Parque Nacional de Itatiaia, no sudeste do Brasil. Foram observados sinais clínicos típicos de coccidiose, associados a diarreia mucóide esverdeada contendo alta densidade de oocistos. Três Isospora spp. foram especificamente identificadas em 14 defecações coletadas durante um período de duas horas. Isospora saltatori (Berto, Balthazar, Flausino & Lopes, 2008) foi a espécie com maior densidade e positividade durante a maior parte do período de coleta. Por fim, este artigo discute a importância da avaliação contínua da saúde das aves como bioindicadores, e de seus biomarcadores ecológicos coccídios, como uma das estratégias para avaliação do estado de conservação do Parque Nacional de Itatiaia.

TERMOS DE INDEXAÇÃO:
Coccidia; trinca-ferro; Saltator similis; conservação; isosporose; oocistos; Parque Nacional do Itatiaia

Introduction

Coccidiosis is among the main parasitic diseases affecting domestic and wild animals. It is a cosmopolitan disease, prevalent in several ecosystems or animal production systems, and is reported in a wide range of hosts of all groups of vertebrates (Duszynski 2021Duszynski D.W. 2021. Biodiversity of the Coccidia (Apicomplexa: Conoidasida) in vertebrates: what we know, what we do not know, and what needs to be done. Folia Parasitol. 68:001. <https://dx.doi.org/10.14411/fp.2021.001> <PMid:33527909>
https://doi.org/https://dx.doi.org/10.14... ).

Coccidians, the etiologic agents of coccidiosis, are obligate intracellular parasitic chromists that can cause intense intestinal (and possibly extraintestinal) parasitism in their hosts (Box et al. 1981Box E.D. 1981. Isospora as an Extraintestinal parasite of passerine birds. J. Protozool. 28(2):244-246. <https://dx.doi.org/10.1111/j.1550-7408.1981.tb02842.x>
https://doi.org/https://dx.doi.org/10.11... , Ruggiero et al. 2015Ruggiero M.A., Gordon D.P., Orrell T.M., Bailly N., Bourgoin T., Brusca R.C., Cavalier-Smith T., Guiry M.D. & Kirk P.M. 2015. A higher level classification of all living organisms. PLoS One 10(6):e0119248. <https://dx.doi.org/10.1371/journal.pone.0130114> <PMid:26068874>
https://doi.org/https://dx.doi.org/10.13... ). The main clinical sign of coccidiosis is diarrhea, which may be secondarily accompanied by dehydration, prostration and cachexia (Atkinson et al. 2008Atkinson C.T., Thomas N.J. & Hunter D.B. 2008. Parasitic Diseases of Wild Birds. Wiley-Blackwell, Singapore. 595p. <https://dx.doi.org/10.1002/9780813804620>
https://doi.org/https://dx.doi.org/10.10... ). In galliform birds, the genus Eimeria (Schneider, 1875) is widely studied in chickens, turkeys, guinea fowl, etc. because some Eimeria spp. cause severe intestinal disease that consequently impairs weight gain; therefore, being of great importance for poultry farming (Swayne et al. 2020Swayne D.E., Boulianne M., Louge C.M., McDougald L.R., Nair V. & Suarez D.L. 2020. Diseases of Poultry. Vol. 2. 14th ed. Wiley-Blackwell, USA. 1504p.). In passerine birds, this disease is mainly caused by coccidians of the genus Isospora (Schneider, 1881), which is why it is also known as isosporosis (Atkinson et al. 2008Atkinson C.T., Thomas N.J. & Hunter D.B. 2008. Parasitic Diseases of Wild Birds. Wiley-Blackwell, Singapore. 595p. <https://dx.doi.org/10.1002/9780813804620>
https://doi.org/https://dx.doi.org/10.10... ). The diversity and distribution of Isospora spp. from Passeriformes is abundant, having been continuously described and reported since the 19th century from all continents of the world and many families and species (Berto et al. 2011Berto B.P., Flausino W., Mcintosh D., Teixeira-Filho W.L. & Lopes C.W.G. 2011. Coccidia of New World passerine birds (Aves: Passeriformes): a review of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae). Syst. Parasitol. 80(3):159-204. <https://dx.doi.org/10.1007/s11230-011-9317-8> <PMid:22002022>
https://doi.org/https://dx.doi.org/10.10... ).

The green-winged saltator Saltator similis (d’Orbigny & Lafresnaye, 1837) is a passerine of the order Passeriformes, family Thraupidae and subfamily Saltatorinae, which has a wide geographic distribution in the tropical and subtropical ranges of South America (BirdLife International 2018BirdLife International 2018. Saltator similis. The IUCN Red List of Threatened Species 2018, e.T22723882A132169900. <https://dx.doi.org/10.2305/IUCN.UK.2018-2.RLTS.T22723882A132169900.en>
https://doi.org/https://dx.doi.org/10.23... ). This species has a melodious song and is therefore highly valued by bird breeders and the target of illegal wildlife trafficking (Lopes et al. 2013Lopes B.B., Balthazar L.M.C., Coelho C.D., Berto B.P., Neves D.M. & Lopes C.W.G. 2013. Trafficking in wild passerines, reintroduction and coccidial transmission: Isospora trincaferri Berto, Balthazar, Flausino, Lopes, 2008 (Apicomplexa: Eimeriidae) from the buff-throated saltator Saltator maximus Müller (Passeriformes: Cardinalidae). Coccidia 1(1):6-9., Maronezi et al. 2022Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... ). Three coccidian species are recorded from S. similis: Isospora saltatori (Berto, Balthazar, Flausino & Lopes, 2008), Isospora trincaferri (Berto, Balthazar, Flausino & Lopes, 2008), and Isospora similisi (Coelho, Berto, Neves, Oliveira, Flausino & Lopes, 2013). These Isospora spp. were recently characterized morphologically and molecularly from green-winged saltators from captivity near the “Parque Nacional de Itatiaia” (Itatiaia National Park) in southeastern Brazil (Maronezi et al. 2022Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... ). In this context, the aim of the current study was to report a case of coccidiosis in a free-living specimen of S. similis captured in “Parque Nacional de Itatiaia”, a federal conservation unit of high ecological relevance in southeastern Brazil.

Materials and Methods

Animal Ethics. Field-collecting permits were issued by the “Instituto Chico Mendes de Conservação da Biodiversidade” (ICMBio - Chico Mendes Institute for Biodiversity Conservation) through the “Sistema de Autorização e Informação em Biodiversidade” (SISBIO - Biodiversity Authorization and Information System) under license number 70132, and Animal Ethics Committee (CEUA) of the “Universidade do Grande Rio” (UNIGRANRIO) under protocol number 021/2019. Banding permits and metal rings were issued by the “Centro Nacional de Pesquisa e Conservação de Aves Silvestres”(CEMAVE - Brazil’s National Center for Wild Bird Research and Conservation, Senior Ringer: BPB, registration 5967850).

Study site, capture and evaluation of wild birds and sample collection. From July 1 to 3, 2022, an expedition was carried out in “Parque Nacional de Itatiaia” (Itatiaia National Park), specifically along the 5th km of the “Travessia Ruy Braga” (Ruy Braga Crossing) (22°25’39.9’’ S; 44°37 ‘49.4’’ W; altitude 1,378m), which is a 21km trail that leads from the lower part to the high plateau of the park, with an elevation gain of about 1,400m. The purpose of this expedition was to capture wild birds using mist nets, evaluate them, band them and collect fecal samples. On the first two days, the mist nets were open from 9 a.m. to 6 p.m., and on the third day, only in the morning, from 9 a.m. to 12 p.m., totaling approximately 21 hours of bird capture on this expedition. Among birds of different orders, families and species captured, only one green-winged saltator, Saltator similis was captured, a species infrequently captured even in preserved environments such as the “Parque Nacional de Itatiaia”. This S. similis specimen was banded on the leg with a metal ring numbered ‘F61663’ provided by CEMAVE, photographed, measured, evaluated, and its biometrical (total length and mass), biological (sex, life stage, clinical signs, molt, accumulated fat content and incubation plate) and ecological (presence of ectoparasites such as ticks, lice, mites, etc.) data were recorded, following the guidelines proposed by Sousa & Serafini (2020)Sousa A.E.B.A. & Serafini P.P. (Orgs), 2020. Manual de Anilhamento de Aves Silvestres. 3ª ed. rev. e ampl. ICMBio/Cemave, Brasília. 113p.. The bird was then kept in a box lined with clean paper for two hours to collect its droppings. During this period, the paper was examined and replaced several times to obtain fresh droplets of feces separately (Fig.1-4). Each fresh droplet of feces was placed individually in a centrifuge tube with a solution of 2.5% potassium dichromate (K₂Cr₂O₇) (Dolnik 2006Dolnik O. 2006. The relative stability of chronic Isospora sylvianthina (Protozoa: Apicomplexa) infection in blackcaps (Sylvia atricapilla): evaluation of a simplified method of estimating isosporan infection intensity in passerine birds. Parasitol. Res. 100(1):155-160. <https://dx.doi.org/10.1007/s00436-006-0253-5> <PMid:16874477>
https://doi.org/https://dx.doi.org/10.10... ). After these collections, the bird was released at the same site of its capture.

Fig.1-4.
(1) Specimen of Saltator similis captured in the 5th km of the “Travessia Ruy Braga” of the “Parque Nacional de Itatiaia”, identified as juvenile due to the presence of labial commissure (arrowheads), beak depigmentation (arrows) and fairly dull plumage with little pigmentation. The specimen showed typical clinical signs of coccidiosis, such as (1) ruffled feathers and (2) cloaca and tail feathers smeared with diarrheal feces. (3) Samples were collected by fecal droplets shed on clean paper, (4) continuously examined and replaced for two hours when the specimen was kept in an appropriate box.

Recovery and quantification of coccidian oocysts from fecal droplets and morphological study. Samples were examined at the “Laboratório de Biologia de Coccídios” (LABICOC - Laboratory of Coccidia Biology) of the “Universidade Federal Rural do Rio de Janeiro”(UFRRJ). All the samples were incubated at room temperature (25°C) for seven days. Oocysts were isolated by flotation in Sheather’s sugar solution (specific gravity: 1.20) and examined microscopically using the technique described by Duszynski & Wilber (1997)Duszynski D.W. & Wilber P.G. 1997. A guideline for the preparation of species descriptions in the Eimeriidae. J. Parasitol. 83(2):333-336. <https://dx.doi.org/10.2307/3284470> <PMid:9105325>
https://doi.org/https://dx.doi.org/10.23... and Berto et al. (2014)Berto B.P., Mcintosh D. & Lopes C.W.G. 2014. Studies on coccidian oocysts (Apicomplexa: Eucoccidiorida). Revta Bras. Parasitol. Vet. 23(1):1-15. <https://dx.doi.org/10.1590/S1984-29612014001> <PMid:24728354>
https://doi.org/https://dx.doi.org/10.15... . The oocysts were quantified as estimates of the number of oocysts per fecal drop (OPD), by counting the total number of oocysts recovered from a dropping on a microscope slide, following the guidelines of Dolnik (2006)Dolnik O. 2006. The relative stability of chronic Isospora sylvianthina (Protozoa: Apicomplexa) infection in blackcaps (Sylvia atricapilla): evaluation of a simplified method of estimating isosporan infection intensity in passerine birds. Parasitol. Res. 100(1):155-160. <https://dx.doi.org/10.1007/s00436-006-0253-5> <PMid:16874477>
https://doi.org/https://dx.doi.org/10.10... . This OPD number coincided with the parasite density (Bush et al. 1997Bush A.O., Lafferty K.D., Lotz J.M. & Shostak A.W. 1997. Parasitology meets ecology on its own terms: Margolis et al. revisited. J. Parasitol. 83(4):575-583. <https://dx.doi.org/10.2307/3284227> <PMid:9267395>
https://doi.org/https://dx.doi.org/10.23... ). Morphological observations were made, and photomicrographs were taken using an Olympus BX binocular microscope (Olympus Optical, Tokyo, Japan) equipped with an Eurekam 5.0 digital camera (BEL Photonics, Monza, Italy). Figures were edited using two software programs (Corel DRAW and Corel PHOTO-PAINT) from CorelDRAW^® (Corel Draw Graphics Suite, Version 2020, Corel Corporation, Canada).

Results

The green-winged saltator Saltator similis captured in this study measured 221mm in total length, 48.6g in mass, without incubation plate, had no molt, moderate content of accumulated fat, and was free of ectoparasites. Typical clinical signs of coccidiosis were observed during this evaluation process, such as ruffled feathers and cloaca and tail feathers smeared with diarrheal feces (Fig.1-4). Additionally, the specimen was identified as of indeterminate sex and juvenile life stage based on the observation of the presence of labial commissure, beak depigmentation and fairly dull plumage with little pigmentation (Fig.1 and 2) (Sousa & Serafini 2020Sousa A.E.B.A. & Serafini P.P. (Orgs), 2020. Manual de Anilhamento de Aves Silvestres. 3ª ed. rev. e ampl. ICMBio/Cemave, Brasília. 113p.).

Fourteen fecal samples (fecal droplets) were obtained from this juvenile specimen of S. similis in two hours between 4 and 6 p.m. on the first day of July 2022. All these fecal droplets were of greenish mucoid diarrhea. Of the 14 fecal droplets, 13 (93%) tested positive for oocysts of Isospora spp. (Table 1). Parasite density per fecal droplet ranged from 3 to 6,500 oocysts, with a mean of 1,454. Eight fecal droplets contained more than 100 oocysts, and 20,361 oocysts were shed in these two hours of collection (14 fecal droplets) (Table 1).

In this study, three Isospora spp. were specifically identified in the fecal droplets collected from the juvenile specimen of S. similis. This identification was based on a morphological comparison with the recent work by Maronezi et al. (2022)Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... : Isospora saltatori, I. trincaferri and I. similisi (Fig.5-10). Isospora saltatori was the species with the highest density and positivity, followed by I. trincaferri and I. similisi (Table 1). Figure 11 shows the variation of these three Isospora spp. over the two hours of sequential fecal droplet collection. As can be seen, I. saltatori was denser most of the time, albeit superseded by I. trincaferri at a few moments (in 4 of 14 fecal droplets) at the beginning and end of the collection period. Overall, there were two peaks of oocyst shedding, one in the first hour (2nd and 3rd fecal droplets) and another in the second hour (11th fecal droplet), which comprised 83% of the oocysts that were shed.

Fig.5-10.
(5-6) Photomicrographs of sporulated oocysts of Isospora saltatori, (7-8) Isospora trincaferri and (9-10) Isospora similisi associated with clinical signs of coccidiosis in a free-living green-winged saltator Saltator similis in “Parque Nacional de Itatiaia” in southeastern Brazil. Bar = 10µm.

Fig.11.
Fluctuation of the total and specific density of Isospora spp. over two hours (between 4 and 6 p.m.) of sequential collection of fecal droplets from a free-living green-winged saltator Saltator similis with clinical signs of coccidiosis in “Parque Nacional de Itatiaia” in southeastern Brazil.

Photographs of this juvenile specimen of S. similis of this study, symptomatic for coccidiosis, its diarrheal fecal droplets, as well as photomicrographs of oocysts from the three Isospora spp. identified, are available in the Parasitology Collection of LABICOC at UFRRJ, under Repository No. 134/2023⁶ 6 Available at <http://r1.ufrrj.br/labicoc/colecao.html> Accessed on Apr. 5, 2024. .

Discussion

Coccidiosis is rarely found in free-living birds, unlike what is observed in captive birds, which commonly suffer from this parasitosis (Coelho et al. 2013Coelho C.D., Berto B.P., Neves D.M., Oliveira V.M., Flausino W. & Lopes C.W.G. 2013. Oocyst shedding by green-winged-saltator (Saltator similis) in the diagnostic of coccidiosis and Isospora similisi n. sp. (Apicomplexa: Eimeriidae). Revta Bras. Parasitol. Vet. 22(1):64-70. <https://dx.doi.org/10.1590/S1984-29612013000100012> <PMid:24252953>
https://doi.org/https://dx.doi.org/10.15... , Vasconcellos et al. 2013Vasconcellos M.S.D., Batista L.C.S.O., Vidal L.G.P. & Passos M.M. 2013. Intensidade de infecção por Isospora spp. (Apicomplexa: Eimeriidae) em trinca-ferros-verdadeiros Saltator similis d’Orbigny, Lafresnaye (Passeriformes: Cardinalidae) mantidos em cativeiro no Município de Valença, Estado do Rio de Janeiro, Brasil. Coccidia 1(2):39-43., Oliveira et al. 2018Oliveira A.R., Souza T.D., Mol J.P.S., Flecher M.C., Hiura E. & Santos R.L. 2018. Pathological and molecular characterization of systemic isosporosis (atoxoplasmosis) in captive green-winged saltator (Saltator similis). Vet. Parasitol. 255:98-101. <https://dx.doi.org/10.1016/j.vetpar.2018.04.007> <PMid:29773145>
https://doi.org/https://dx.doi.org/10.10... , Barreto et al. 2020Barreto C., Vilela D.A.R., Houri B.F., Lara L.B., Torres A.C.D., Silva A.S.G., Castro-Filho R.P.L., Costa C.S. & Martins N.R.S. 2020. New Isospora and host species in Brazilian passerines. Braz. J. Poult. Sci. 22(1):1-14. <https://dx.doi.org/10.1590/1806-9061-2019-1070>
https://doi.org/https://dx.doi.org/10.15... ). Although it is difficult to understand precisely disease dynamics and the impacts of pathogens in wild animals (Lachish & Murray 2018Lachish S. & Murray K.A. 2018. The certainty of uncertainty: potential sources of bias and imprecision in disease ecology studies. Front. Vet. Sci. 5:90. <https://dx.doi.org/10.3389/fvets.2018.00090> <PMid:29872662>
https://doi.org/https://dx.doi.org/10.33... ), this observation can be explained by the fact that, in a conserved natural environment that is in ecological equilibrium, coccidians are part of the intestinal biota of their immunocompetent hosts, without causing major damage, since infected birds are almost always asymptomatic (Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ). On the other hand, birds in altered wild environments or kept in confinement or captivity (by legal breeders or by illegal wildlife trafficking) are highly susceptible to coccidians and other opportunistic etiological agents due to the low immunity resulting from chronic stress imposed by unfavorable environmental conditions (Coelho et al. 2013Coelho C.D., Berto B.P., Neves D.M., Oliveira V.M., Flausino W. & Lopes C.W.G. 2013. Oocyst shedding by green-winged-saltator (Saltator similis) in the diagnostic of coccidiosis and Isospora similisi n. sp. (Apicomplexa: Eimeriidae). Revta Bras. Parasitol. Vet. 22(1):64-70. <https://dx.doi.org/10.1590/S1984-29612013000100012> <PMid:24252953>
https://doi.org/https://dx.doi.org/10.15... , Vasconcellos et al. 2013Vasconcellos M.S.D., Batista L.C.S.O., Vidal L.G.P. & Passos M.M. 2013. Intensidade de infecção por Isospora spp. (Apicomplexa: Eimeriidae) em trinca-ferros-verdadeiros Saltator similis d’Orbigny, Lafresnaye (Passeriformes: Cardinalidae) mantidos em cativeiro no Município de Valença, Estado do Rio de Janeiro, Brasil. Coccidia 1(2):39-43., Campos et al. 2017Campos S.D.E., Machado C.S.C., Souza T.V.T., Cevarolli R.C. & Almosny N.R.P. 2017. Extraintestinal isosporoid coccidian causing atoxoplasmosis in captive green-winged saltators: clinical and hematological features. Pesq. Vet. Bras. 37(11):1327-1330. <https://dx.doi.org/10.1590/S0100-736X2017001100021>
https://doi.org/https://dx.doi.org/10.15... , Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ).

It is also worth mentioning that in cases of severe coccidiosis, wild animals suffering from clinical signs tend to move less and, therefore, are difficult to capture. This condition can lead to imprecision in disease ecology studies (Lachish & Murray 2018Lachish S. & Murray K.A. 2018. The certainty of uncertainty: potential sources of bias and imprecision in disease ecology studies. Front. Vet. Sci. 5:90. <https://dx.doi.org/10.3389/fvets.2018.00090> <PMid:29872662>
https://doi.org/https://dx.doi.org/10.33... ). In this sense, continuous monitoring of coccidiosis in conservation areas, which can detect an increase in the density of coccidian oocysts early, can provide support for decision-making aimed at environmental conservation before the animals can suffer severely as a result of any environmental disturbance (Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ). In this context, despite the “Parque Nacional de Itatiaia” being an integral protection unit in an excellent state of conservation, any observation that may indicate early environmental changes should be evaluated; as in this case, clinical signs in a bioindicator bird and high densities of its ecological biomarker coccidians (Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ). At the same time, it should also be noted that the green-winged saltator captured here was a juvenile specimen. Nesting and juvenile passerines are more susceptible to diseases in general since their immune system is still under development; therefore, the clinical signs of coccidiosis easily observed in our specimen are presumably related to its life stage (Dolnik 1998Dolnik O.V. 1998. Isospora coccidia (Protozoa: Eimeriidae) of passerine birds on the Courish spit. Bull. Scand. Soc. Parasitol. 8:58-59., Schoener et al. 2013Schoener E.R., Alley M.R., Howe L. & Castro I. 2013. Coccidia species in endemic and native New Zealand passerines. Parasitol. Res. 112(5):2027-2036. <https://dx.doi.org/10.1007/s00436-013-3361-z> <PMid:23468142>
https://doi.org/https://dx.doi.org/10.10... , Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ). Nevertheless, this report is highly relevant in the context of the “Parque Nacional de Itatiaia” conservation, given that clinical signs associated with coccidiosis in wild birds living in conserved forests are rarely found even among juvenile passerines (Dolnik et al. 2010Dolnik O.V., Dolnik V.R. & Bairlein F. 2010. The effect of host foraging ecology on the prevalence and intensity of coccidian infection in wild passerine birds. Ardea 98(1):97-103. <https://dx.doi.org/10.5253/078.098.0112>
https://doi.org/https://dx.doi.org/10.52... ).

The finding of the clinical signs attributed to coccidiosis was reinforced by the high density of Isospora spp. oocysts in the bird’s fecal droplets. This large number of more than 20,000 oocysts would be shed into the environment that this specimen of Saltator similis moved around in, obviously considering that the symptoms of coccidiosis did not affect the bird’s fitness, and hence, its mobility in this period from 4 p.m. to 6 p.m., when the samples were collected. In this context, it is worth mentioning that the time window during which the bird’s droppings were collected in this study was the most advisable since the collection of fecal samples in the late afternoon is a priority in studies about the prevalence and density of Isospora spp. of passerine birds, given the recognized diurnal periodicity of oocyst shedding, which is exponentially higher in the late afternoon (Dolnik et al. 2010Dolnik O.V., Dolnik V.R. & Bairlein F. 2010. The effect of host foraging ecology on the prevalence and intensity of coccidian infection in wild passerine birds. Ardea 98(1):97-103. <https://dx.doi.org/10.5253/078.098.0112>
https://doi.org/https://dx.doi.org/10.52... , Coelho et al. 2013Coelho C.D., Berto B.P., Neves D.M., Oliveira V.M., Flausino W. & Lopes C.W.G. 2013. Oocyst shedding by green-winged-saltator (Saltator similis) in the diagnostic of coccidiosis and Isospora similisi n. sp. (Apicomplexa: Eimeriidae). Revta Bras. Parasitol. Vet. 22(1):64-70. <https://dx.doi.org/10.1590/S1984-29612013000100012> <PMid:24252953>
https://doi.org/https://dx.doi.org/10.15... , Biard et al. 2022Biard C., Monceau K., Teixeira M., Motreuil S., Bettencourt-Amarante S., Develay L. & Moreau J. 2022. Coccidial oocyst release: once a day or all day long? Tropical bird hosts shed new light on the adaptive significance of diurnal periodicity in parasite output. Parasitology 149(4):469-481. <https://dx.doi.org/10.1017/S003118202100202X> <PMid:34814964>
https://doi.org/https://dx.doi.org/10.10... ). It is known that the success of parasitism of Isospora spp., which is fecal-oral, depends on the number of their exogenous infectious forms (oocysts) shed into the environment and their efficiency in being ingested by the next susceptible host. Therefore, this specimen of S. similis is a potential transmitter/disperser of Isospora spp. due to the large number of oocysts shed at a peak feeding time (and possibly location) of susceptible Saltator spp. (Fayer 1980Fayer R. 1980. Epidemiology of protozoan infections: the coccidia. Vet. Parasitol. 6(1/3):75-103. <https://dx.doi.org/10.1016/0304-4017(80)90039-4>
https://doi.org/https://dx.doi.org/10.10... , Dolnik et al. 2010Dolnik O.V., Dolnik V.R. & Bairlein F. 2010. The effect of host foraging ecology on the prevalence and intensity of coccidian infection in wild passerine birds. Ardea 98(1):97-103. <https://dx.doi.org/10.5253/078.098.0112>
https://doi.org/https://dx.doi.org/10.52... , Coelho et al. 2013Coelho C.D., Berto B.P., Neves D.M., Oliveira V.M., Flausino W. & Lopes C.W.G. 2013. Oocyst shedding by green-winged-saltator (Saltator similis) in the diagnostic of coccidiosis and Isospora similisi n. sp. (Apicomplexa: Eimeriidae). Revta Bras. Parasitol. Vet. 22(1):64-70. <https://dx.doi.org/10.1590/S1984-29612013000100012> <PMid:24252953>
https://doi.org/https://dx.doi.org/10.15... , Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... , Biard et al. 2022Biard C., Monceau K., Teixeira M., Motreuil S., Bettencourt-Amarante S., Develay L. & Moreau J. 2022. Coccidial oocyst release: once a day or all day long? Tropical bird hosts shed new light on the adaptive significance of diurnal periodicity in parasite output. Parasitology 149(4):469-481. <https://dx.doi.org/10.1017/S003118202100202X> <PMid:34814964>
https://doi.org/https://dx.doi.org/10.10... ). Moreover, since the infecting dose is presumably directly associated with the severity of coccidiosis, the shedding of large numbers of oocysts and consequent ingestion by susceptible hosts can cause epizootics and increase morbidity and mortality in wild birds (Fayer 1980Fayer R. 1980. Epidemiology of protozoan infections: the coccidia. Vet. Parasitol. 6(1/3):75-103. <https://dx.doi.org/10.1016/0304-4017(80)90039-4>
https://doi.org/https://dx.doi.org/10.10... , Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ).

The positivity and specific densities of the three Isospora spp. identified in this study (Table 1) differed from the findings reported by Coelho et al. (2013)Coelho C.D., Berto B.P., Neves D.M., Oliveira V.M., Flausino W. & Lopes C.W.G. 2013. Oocyst shedding by green-winged-saltator (Saltator similis) in the diagnostic of coccidiosis and Isospora similisi n. sp. (Apicomplexa: Eimeriidae). Revta Bras. Parasitol. Vet. 22(1):64-70. <https://dx.doi.org/10.1590/S1984-29612013000100012> <PMid:24252953>
https://doi.org/https://dx.doi.org/10.15... . Those authors observed a higher density and prevalence of I. similisi, followed by I. saltatori and I. trincaferri, in green-winged saltators rescued from illegal wildlife trafficking kept in quarantine in a wildlife rehabilitation center in the municipality of Seropédica (Centro de Triagem de Animais Silvestres - CETAS/Seropédica) in the state of Rio de Janeiro, Brazil. In these two studies, the prevalence (positivity) and density of I. saltatori were consistent. In comparison, those of I. similisi and I. trincaferri were complete opposites in these two studies, the only ones reporting specific prevalence rates and densities of Isospora spp. shed by Saltator spp. In this regard, it is possible that the dissimilarity of the environmental conditions in these studies (free-living and rescued from illegal wildlife trafficking) to which these birds were subjected may have influenced the prevalence and specific densities of these three Isospora spp. from Saltator spp. (Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ).

Despite the currently valid taxonomic record of the three Isospora spp. from S. similis (Maronezi et al. 2022Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... ), little is known about the pathogenicity of these species, prepatent/patent periods, or even their lifecycle patterns. Oliveira et al. (2018)Oliveira A.R., Souza T.D., Mol J.P.S., Flecher M.C., Hiura E. & Santos R.L. 2018. Pathological and molecular characterization of systemic isosporosis (atoxoplasmosis) in captive green-winged saltator (Saltator similis). Vet. Parasitol. 255:98-101. <https://dx.doi.org/10.1016/j.vetpar.2018.04.007> <PMid:29773145>
https://doi.org/https://dx.doi.org/10.10... reported extraintestinal isosporosis in S. similis, assessing the pathological and molecular characteristics of the disease. Pathological findings included hepatomegaly, splenomegaly, necrosis of lymphoid follicles, hepatic necrosis, and severe enteritis, with merozoites found in the heart, small intestine, proventriculus, brain, liver, spleen and kidneys. Molecular identification of merozoites in this study (Oliveira et al. 2018Oliveira A.R., Souza T.D., Mol J.P.S., Flecher M.C., Hiura E. & Santos R.L. 2018. Pathological and molecular characterization of systemic isosporosis (atoxoplasmosis) in captive green-winged saltator (Saltator similis). Vet. Parasitol. 255:98-101. <https://dx.doi.org/10.1016/j.vetpar.2018.04.007> <PMid:29773145>
https://doi.org/https://dx.doi.org/10.10... ) indicated a similarity of 99% with an Isospora sp. by the 23s gene and of 97% with Isospora greineri (Hafeez, Stasiak, Delnatte, El-Sherry, Smith & Barta, 2014) by the mitochondrial cox1 gene. However, despite the significant contribution of that study, no oocyst was morphologically or specifically identified. Campos et al. (2017)Campos S.D.E., Machado C.S.C., Souza T.V.T., Cevarolli R.C. & Almosny N.R.P. 2017. Extraintestinal isosporoid coccidian causing atoxoplasmosis in captive green-winged saltators: clinical and hematological features. Pesq. Vet. Bras. 37(11):1327-1330. <https://dx.doi.org/10.1590/S0100-736X2017001100021>
https://doi.org/https://dx.doi.org/10.15... also reported extraintestinal coccidiosis in S. similis but, like this study, were limited in their diagnosis of atoxoplasmosis (systemic/extraintestinal isosporosis) by the finding of merozoites in peripheral blood and hematological changes (leukocytosis, monocytosis, and lymphocytosis), without specifically identifying the etiological agent. Coelho et al. (2012)Coelho C.D., Berto B.P., Neves D.M., Oliveira V.M., Flausino W. & Lopes C.W.G. 2012. Diagnóstico e tratamento das coccidioses em trinca-ferros-verdadeiros Saltator similis D’ Orbigny Lafresnaye, 1837 mantidos em regime de quarentena. Revta Bras. Med. Vet. 34(Supl.1):46-54. diagnosed coccidiosis in S. similis when evaluating different treatments for isosporosis in green-winged saltators rescued from illegal wildlife trafficking and kept in quarantine in CETAS/Seropédica. Vasconcellos et al. (2013)Vasconcellos M.S.D., Batista L.C.S.O., Vidal L.G.P. & Passos M.M. 2013. Intensidade de infecção por Isospora spp. (Apicomplexa: Eimeriidae) em trinca-ferros-verdadeiros Saltator similis d’Orbigny, Lafresnaye (Passeriformes: Cardinalidae) mantidos em cativeiro no Município de Valença, Estado do Rio de Janeiro, Brasil. Coccidia 1(2):39-43. report coccidiosis associated with diarrhea and a high density of unidentified oocysts in green-winged saltators bred in captivity for the purpose of participating in bird singing competitions. All these studies involved captive birds; therefore, this seems to be the first report of coccidiosis in a free-living green-winged saltator.

Another point of discussion is the fact that the current study reports coccidiosis in a free-living bird caused by co-infection of the same three Isospora spp. recently characterized by Maronezi et al. (2022)Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... in green-winged saltators living in captivity near “Parque Nacional de Itatiaia”. In this context, as Maronezi et al. (2022)Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... pointed out, keeping wild birds in captivity near conservation units represents an environmental risk to wildlife for several reasons. (1) Free-living birds can be infected by approaching and fighting with captive ones, mainly due to the territorial competition represented by their birdsong, which can reach long distances. (2) Captive birds, with potentially higher parasite densities (OPD), presumably provide a higher infective dose and would, therefore, increase the parasite density of free-living birds, causing ecological imbalance and possible epizootics. (3) According to the concept of parasite specificity of Isospora spp. at the host family level (Berto et al. 2011Berto B.P., Flausino W., Mcintosh D., Teixeira-Filho W.L. & Lopes C.W.G. 2011. Coccidia of New World passerine birds (Aves: Passeriformes): a review of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae). Syst. Parasitol. 80(3):159-204. <https://dx.doi.org/10.1007/s11230-011-9317-8> <PMid:22002022>
https://doi.org/https://dx.doi.org/10.10... ), any other bird of the family Thraupidae (or at least of the subfamily Saltatorinae) would be susceptible to infection transmitted by captive green-winged saltators, expanding the distribution and dispersion of these Isospora spp. in natural and conserved environments, and even placing pressure on endangered tanagers (Berto & Lopes 2020Berto B.P. & Lopes C.W.G. 2020. Coccidia of wild birds as ecological biomarkers: Some approaches on parasite-host environment interaction. J. Parasitol. 106(5):707-713. <https://dx.doi.org/10.1645/19-148> <PMid:33120407>
https://doi.org/https://dx.doi.org/10.16... ). Coelho et al. (2013)Coelho C.D., Berto B.P., Neves D.M., Oliveira V.M., Flausino W. & Lopes C.W.G. 2013. Oocyst shedding by green-winged-saltator (Saltator similis) in the diagnostic of coccidiosis and Isospora similisi n. sp. (Apicomplexa: Eimeriidae). Revta Bras. Parasitol. Vet. 22(1):64-70. <https://dx.doi.org/10.1590/S1984-29612013000100012> <PMid:24252953>
https://doi.org/https://dx.doi.org/10.15... also state that it is essential to estimate coccidian density to avoid impacts of parasitism on natural bird populations, especially before the reintroduction/release of birds rescued from illegal wildlife trafficking. Similarly, Lopes et al. (2013)Lopes B.B., Balthazar L.M.C., Coelho C.D., Berto B.P., Neves D.M. & Lopes C.W.G. 2013. Trafficking in wild passerines, reintroduction and coccidial transmission: Isospora trincaferri Berto, Balthazar, Flausino, Lopes, 2008 (Apicomplexa: Eimeriidae) from the buff-throated saltator Saltator maximus Müller (Passeriformes: Cardinalidae). Coccidia 1(1):6-9. highlighted the role of illegal wildlife trafficking and reintroduction/release by wildlife rehabilitation centers in the dispersal of coccidians, as oocysts of I. trincaferri have already been identified in buff-throated saltators Saltator maximus (Müller, 1776) rescued from wildlife trafficking and kept in quarantine at CETAS/Seropédica.

Finally, the current study identified morphologically three Isospora spp., probably the most commonly observed from Saltator spp. (Maronezi et al. 2022Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... ). However, molecular and/or serological methods should complement the characterization of these species in addition to the locus of the cox1 gene of mitochondrial DNA provided by Maronezi et al. (2022)Maronezi C., Oliveira M.S., Genovez-Oliveira J.L., Mello E.R., Cepeda P.B., Oliveira A.A., Lima V.M. & Berto B.P. 2022. Isospora spp. (Eimeriidae) from green-winged saltators Saltator similis d’Orbigny & Lafresnaye, 1837 (Thraupidae) from captivity near the Conservation Unit of the Itatiaia National Park in Southeastern Brazil. Syst. Parasitol. 99(2):285-297. <https://dx.doi.org/10.1007/s11230-022-10025-9> <PMid:35112302>
https://doi.org/https://dx.doi.org/10.10... , also characterizing whether or which of these Isospora spp. undergo an extraintestinal cycle, producing chronic and severe disease in passerines (Berto et al. 2023Berto B.P., Machado E.L., Hossotani C.M.S., Beretta B.M.S., Silva D.R.R., Nakamura A.A. & Meireles M.V. 2023. Integrative taxonomy for the traditional coccidians (Chromista: Miozoa: Eimeriidae) from island canaries (Aves: Passeriformes: Fringillidae): Worldwide distribution, morphological and molecular characterization, revaluations and establishment of junior synonyms. Syst. Parasitol. 100(3):245-259. <https://dx.doi.org/10.1007/s11230-023-10084-6> <PMid:36701030>
https://doi.org/https://dx.doi.org/10.10... ).

Conclusion

This study seems to be the first to report clinical signs of coccidiosis associated with a large number of oocysts of Isospora spp. in fecal samples from free-living green-winged saltators in “Parque Nacional de Itatiaia” (Itatiaia National Park), relating this finding to the recent discovery of Isospora spp. of green-winged saltators living in captivity near the park. Thus, this study emphasizes the importance of continuously evaluating birds’ health as bioindicators and of their coccidian ecological biomarkers as one of the strategies for evaluating the conservation status of “Parque Nacional de Itatiaia”.

Acknowledgments

We are thankful to the staff at the “Parque Nacional do Itatiaia”, mainly to the research coordinators Dr. Léo Nascimento (previous) and Marcelo Souza Motta (current), who allowed us to access and use some facilities during the expedition. This study was supported by “Conselho Nacional de Desenvolvimento Científico e Tecnológico” (CNPq), “Coordenação de Aperfeiçoamento de Pessoal de Nível Superior” (CAPES) and “Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do Rio de Janeiro”(FAPERJ). CM, CNO-F and LASA have scholarships from CAPES (Grant/Award Number: 001). MSO has a postdoctoral scholarship from FAPERJ (Grant/Award Number: E-26/204.228/2021). CMSC has a scholarship from CNPq/UFRRJ (Grant/Award Number: PVBS2872-2022). BPB has a fellowship from CNPq (Grant/Award Number: 302345/2022-1) and FAPERJ (Grant/Award Number: E-26/200.565/2023).

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