Oocyst shedding by green-winged-saltator (<i>Saltator similis</i>) in the diagnostic of coccidiosis and <i>Isospora similisi</i> n. sp. (Apicomplexa: Eimeriidae)

Coelho, Cleide Domingues; Berto, Bruno Pereira; Neves, Daniel Medeiros; Oliveira, Vinícius Modesto de; Flausino, Walter; Lopes, Carlos Wilson Gomes

doi:10.1590/S1984-29612013000100012

Abstracts

Diurnal periodicity is a phenomenon that has been observed in coccidian of Isospora parasites of passerines, which have been eliminated great number of oocysts at dusk. The objective of this study was to evaluate the occurrence of periodicity of oocysts presence in the green-winged-saltator Saltator similis, and its use in the diagnosis of coccidiosis in wild birds in captivity. A total of 220 fecal samples were collected from birds, apprehended from illegal trading and kept in quarantine in CETAS∕IBAMA, in the morning and late afternoon, from May to November 2010. It was observed that 1.82% of the samples collected in the morning were positive, while 31.36% of samples were positive in the late afternoon. In addition, the number of oocysts shed was greater in the afternoon. Therefore, it was concluded that the sampling in the late afternoon provided greater reliability for the diagnosis of coccidiosis in green-winged-saltators. Moreover, in this study a new isosporoid coccidian parasite from the green-winged-saltator S. similis was observed and is herein described. Isospora similisi n. sp. oocysts are spheroidal to sub-spheroidal, 27.5 × 25.9 µm, with a smooth and bi-layered wall, ∼1.2 mm. Micropyle and oocyst residuum are absent, but splinter-like or comma-like granules are present. Sporocysts are ellipsoidal or slightly ovoidal, 17.4 × 12.2 mm. A stieda body and substieda body are present. The sporocyst residuum is composed of granules of different sizes. Sporozoites are vermiform with a single refractile body and a nucleus. This is the fourth description of an isosporoid coccidium infecting S. similis and the sixth description from Cardinalidae.

Periodicity; coccidian; oocysts; morphology; diagnosis

A periodicidade diurna é um fenômeno que tem sido observado em coccídios do gênero Isosporaparasitas de pássaros, os quais eliminam uma maior quantidade de oocistos ao entardecer. O objetivo deste estudo foi determinar a periodicidade de eliminação de oocistos pelas fezes no trinca-ferro-verdadeiroSaltator similis, e sua utilização no diagnóstico da coccidiose. Foram colhidas 220 amostras fecais de aves oriundas de apreensões do tráfico de animais silvestres e mantidas na quarentena do CETAS∕IBAMA, nos períodos da manhã e ao entardecer, de maio a novembro de 2010. Observou-se que 1,82% das amostras colhidas no período da manhã foram positivas, enquanto que 31,36% das amostras colhidas foram positivas ao entardecer, onde o maior número de oocistos foi observado no período da tarde. Portanto, concluiu-se que a colheita de amostras ao entardecer oferece maior confiabilidade para o diagnóstico da coccidiose. Além disso, descreve-se um novo coccídio do trinca-ferro-verdadeiro S. similis. Isospora similisi n. sp. possui oocistos esféricos a subesféricos, 27,5 × 25,9 µm, com parede dupla e lisa, ∼1,2 µm. A micrópila e o resíduo do oocisto estão ausentes, porém pequenos grânulos estão presentes. Os esporocistos são elipsóides ou levemente ovóides, 17,4 × 12,2 µm. Os corpos de Stieda e substieda estão presentes. O resíduo do esporocisto está presente e os esporozoítos possuem um corpo refrátil posterior e um núcleo. Esta é a quarta espécie isosporóide descrita de S. similise a sexta descrição na família Cardinalidae.

Periodicidade; coccídios; oocistos; morfologia; diagnóstico

Introduction

The green-winged saltator Saltator similis Lafresnaye d'Orbigny, 1837 is a cardinalid bird resident in Brazil. Its natural populations have been decimated by illegal mining and trade, because of its beauty and vocal repertoire. Among the information available on this species, it is known that it does not present sexual dimorphism and its locomotion is mainly by jumping (SICK, 1997, IUCN, 2011).

Estimation of the intensity of coccidial infection is essential for studies of the impact of parasitism upon natural populations (DOLNIK, 2006Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
http:∕∕dx.doi.org∕10.1007∕s00436-006-025... ). The parasite-host relationship in the species of birds, which has been the focus of research over the past decade, has great relevance to coccidian intestinal parasites, which parasitize the majority of vertebrate species and are closely associated with the ecology of birds (LÓPEZ et al., 2007López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.... ). The phenomenon of diurnal periodicity has been observed in species of intestinal parasites, especially the genus Isospora Schneider, 1881 (Protozoa: Apicomplexa) in wild birds, which eliminated their oocysts more frequently in the late afternoon (BOUGHTON, 1937Boughton DC. Notes of avian coccidiosis. The Auk 1937; 54(4): 500-509. http:∕∕dx.doi.org∕10.2307∕4078141
http:∕∕dx.doi.org∕10.2307∕4078141... ; DOLNIK, 1999Dolnik OV. Diurnal periodicity in appearance of Isospora (Protozoa: Coccidea) oocysts from some passerine birds. Proc Zool Inst RAS 1999; 281:113-118., 2006Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
http:∕∕dx.doi.org∕10.1007∕s00436-006-025... ; BROWN et al., 2001Brown MA, Ball SJ, Holdman D. The periodicity of isosporan oocyst discharge in the greenfinch (Carduelis chloris). J Nat Hist 2001; 35(7): 945-948. http:∕∕dx.doi.org∕10.1080∕002229301300323875
http:∕∕dx.doi.org∕10.1080∕00222930130032... ; LÓPEZ et al., 2007López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.... ; MARTINAUD et al., 2009Martinaud G, Billaudelle M, Moreau J. Circadian variation in shedding of the oocysts of Isospora turdi (Apicomplexa) in blackbirds (Turdus merula): An adaptative trait against desiccation and ultraviolet radiation. Int J Parasitol 2009; 39(6): 735-739. PMid:19100268. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.... ). Many studies on the periodicity of elimination of oocysts have been conducted in several species of passerines such as: blackcap Sylvia atricapilla L., 1758; island canary Serinus canariaL., 1758; garden warbler Sylvia borin Boddaert, 1783; Eurasian blackbird Turdus merula L., 1758; European greenfinchCarduelis chloris L., 1758; house finch Carpodacus mexicanus Müller, 1776; small ground-finch Geospiza fuliginosa Gould, 1837; regent honeyeater Xanthomyza phrygia Shaw, 1794; and house sparrow Passer domesticus L., 1758 (BOX, 1977Box ED. Life cycles of two Isospora species in the canary, Serinus canarius Linnaeus. J Protozool 1977; 24(1): 57-67. PMid:559084.; BRAWNER III; HILL, 1999Brawner III WR, Hill GE. Temporal variation in shedding of coccidial oocysts: implications for sexual-selection studies. Can J Zool 1999; 77(2): 347-350. http:∕∕dx.doi.org∕10.1139∕z98-207
http:∕∕dx.doi.org∕10.1139∕z98-207... ;BROWN et al., 2001Brown MA, Ball SJ, Holdman D. The periodicity of isosporan oocyst discharge in the greenfinch (Carduelis chloris). J Nat Hist 2001; 35(7): 945-948. http:∕∕dx.doi.org∕10.1080∕002229301300323875
http:∕∕dx.doi.org∕10.1080∕00222930130032... ; DOLNIK, 2006Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
http:∕∕dx.doi.org∕10.1007∕s00436-006-025... ; LÓPEZ et al., 2007López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.... ; LINDSTROM et al., 2009Lindstrom KM, Dolnik O, Yabsley M, Heligren O, O'Connor B, Parn H, et al. Feather mites and internal parasites in small ground Finches (Geospiza fuliginosa, Emberizidae) from the Galapagos Islands (Equador). J Parasitol 2009; 95(1): 39-45. PMid:19245281.http:∕∕dx.doi.org∕10.1645∕GE-1655.1
http:∕∕dx.doi.org∕10.1645∕GE-1655.1... ;MARTINAUD et al., 2009Martinaud G, Billaudelle M, Moreau J. Circadian variation in shedding of the oocysts of Isospora turdi (Apicomplexa) in blackbirds (Turdus merula): An adaptative trait against desiccation and ultraviolet radiation. Int J Parasitol 2009; 39(6): 735-739. PMid:19100268. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.... ; DOLNIK et al., 2010Dolnik OV, Dolnik VR, Bairlen F. The effect of host foraging ecology on the prevalence and intensity of coccidian infection in wild passerine birds. Ardea 2010; 98(1): 97-103. http:∕∕dx.doi.org∕10.5253∕078.098.0112
http:∕∕dx.doi.org∕10.5253∕078.098.0112... ; MORIN-ADELINE et al., 2011Morin-Adeline V, Vogelnest L, Dhand NK, Shiels M, Angus W, Slapeta J. Afternoon shedding of a new species of Isospora (Apicomplexa) in the endangered Regent Honeyeater (Xanthomyza phrygia). Parasitology 2011; 138(6): 713-724. http:∕∕dx.doi.org∕10.1017∕S0031182011000126
http:∕∕dx.doi.org∕10.1017∕S0031182011000... ; PAP et al., 2011Pap PL, Vágasi CI, Czirják GA, Titilincu A, Pintea A, Osváth G, et al. The effect of coccidians on the condition and immune profile of molting house sparrows (Passer domesticus). The Auk 2011; 128(2): 330-339. http:∕∕dx.doi.org∕10.1525∕auk.2011.10142
http:∕∕dx.doi.org∕10.1525∕auk.2011.10142... ).

However, in species of Brazilian passerines, there are no reports regarding diurnal periodicity in studies of prevalence or for diagnosis of coccidiosis in free-living wild birds or birds kept in captivity. Silva et al. (2010) reported that during periods of reproduction and moulting, wild birds kept in captivity were more prone to infection by Isosporaspp.

This study aimed to determine the periodicity of oocysts shedding and identify new species of Isospora, not yet described in the scientific literature, from green-winged saltators S. similisrecovered from the illegal trade of wild animals, which were kept under quarantine in preparation for release.

Materials and Methods

In a total of 220 fecal samples were obtained from 164 green-winged saltators S. similis recovered from the trafficking of wild animals and kept in quarantine in CETAS (Centro de Triagem de Animais Silvestres - Center for Triage of Wild Animals)∕IBAMA (Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis - Brazilian Institute of Environment and Natural Resources)∕MMA (Ministério do Meio Ambiente - Ministry of Environment) (22° 43′ 23.79″′ S and 43° 42′ 36.94″′ W), which is located at the Municipality of Seropédica in the State of Rio de Janeiro, Brazil. The collection period was from May to November 2010.

Two hundred and twenty samples were collected according to Dolnik (2006)Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
http:∕∕dx.doi.org∕10.1007∕s00436-006-025... and Dolnik et al. (2009)Dolnik OV, Palinauskas V, Bensch S. Individual oocysts of Isospora (Apicomplexa: Coccidia) parasites from avian feces: from photo to sequence. J Parasitol 2009; 95(1): 169-174. PMid:19245285. http:∕∕dx.doi.org∕10.1645∕GE-1873.1
http:∕∕dx.doi.org∕10.1645∕GE-1873.1... ; fresh samples of feces, shed by a bird, were collected individually from a sheet of paper towel placed on the bottom of each cage, after cleaning in the morning (9-12h) and at late afternoon (15-17h). The collected samples were placed into plastic vials containing a 2.5% (w∕v) solution of K₂Cr₂O₇ at a ratio of 1:6 (v∕v). Samples were sent to the Coccidia and Coccidiosis Laboratory at Universidade Federal Rural do Rio de Janeiro (UFRRJ) for analysis. Upon receipt they were placed in a thin layer (∼5 mm) of K₂Cr₂O₇ 2.5% solution in Petri plates, with incubation at 23-28 °C for 10 days or until 70% of oocysts had sporulated. Oocysts were recovered by flotation in Sheather's sugar solution (S.G. 1.20) and were examined microscopically using the technique described by Duszynski and Wilber (1997)Duszynski DW, Wilber PG. A guideline for the preparation of species descriptions in the Eimeriidae. J Parasitol 1997; 83(2): 333-336. PMid:9105325. http:∕∕dx.doi.org∕10.2307∕3284470
http:∕∕dx.doi.org∕10.2307∕3284470... .

The quantification of oocysts was conducted according by Dolnik (2006)Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
http:∕∕dx.doi.org∕10.1007∕s00436-006-025... and Dolnik et al. (2010)Dolnik OV, Dolnik VR, Bairlen F. The effect of host foraging ecology on the prevalence and intensity of coccidian infection in wild passerine birds. Ardea 2010; 98(1): 97-103. http:∕∕dx.doi.org∕10.5253∕078.098.0112
http:∕∕dx.doi.org∕10.5253∕078.098.0112... , where the whole surface of the coverslip was observed to avoid counting errors which may be caused by the agglomeration of oocysts in some unobserved field. The results were expressed as oocysts per droplet (OoPD).

An additional 108 samples were used to determine each the periodicity of shedding of each Isospora species. 54 samples were collected in the morning, between 9:00-12:00 PM, and 54 samples was collected in the late afternoon (3:00-5:00 PM). In order to describe the fourth (novel) species, sporulated oocysts were obtained from samples collected in late afternoon.

Morphological observations (micropyle [M], oocyst residuum [OR], polar granule [PG], Stieda body [SB], substieda body [SSB], parastieda body [PSB], sporocyst residuum [SR], sporozoite [SZ], refractile body [SRB], nucleus [N]) and measurements, in µm, were performed using a binocular microscope Carl Zeiss with apochromatic oil immersion objective lens and ocular micrometer (K-15X PZO, Poland). Line drawings were prepared using a binocular microscope Wild M-20 with drawing tube. Pictures were taken using a digital camera (Model CD Mavica MVC-CD250 Sony^®). Size ranges are shown in parenthesis followed by average and shape index (L∕W ratio).

Statistical analysis by Fisher's test and Wilcoxon's test were performed using Excel XP (Microsoft Co., Redmond, WA, USA), as proposed by Sampaio (2002).

Results

Seventy-three of 220 samples examined in this study for evaluation of the incidence of oocysts shedding, were positive for Isospora spp. Only 1.82% of the samples collected in the morning had positive results. In the late afternoon, 31.36% of the samples were positive (Table 1). Furthermore, oocyst shedding was quantitatively greater in the late afternoon, with a mean value of 98 OoPD, in comparison with the mean value of <1 OoPD recorded for the morning period (Table 2). These results were highly significant (p = 0.0001).

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Table 1.
Fecal samples of green-winged saltators, Saltator similis, used in the evaluation of the incidence of oocyst shedding.

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Table 2.
Distribution of the mean values of number of oocysts in the fecal samples of green-winged saltators, Saltator similis, by period.

All of the sporulated oocysts examined were typical of the genusIsospora. Four morphotypes of oocysts were recorded. The first three types were identified as: (1) Isospora vanriperorumLevine, 1982Levine ND. Isospora vanriperorum n. nom. for I. cardinalis Levine, Van Riper & Van Riper, 1980, preoccupied. J Eukaryot Microbiol 1982; 29(4): 653.; (2) Isospora saltatoriBerto et al., 2008Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267.; (3) andIsospora trincaferriBerto et al., 2008Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267.. The fourth type of oocysts was different from the above cited species and was considered to represent an unknown species, the description of which is provided below.

Isospora similisi n. sp. (Figures 1a-c, 2a, b)

Figure 1.
Line drawings of Isospora similisi n. sp, a new coccidium species recovered from the green-winged saltatorSaltator similis. (a) Sporulated oocyst with its respective variations of (b, c) detached Stieda and substieda bodies. Scale-bar: 10 µm for oocysts; and 5 µm for Stieda and substieda bodies.

Figure 2.
Photographs (a-b) of sporulated oocysts ofIsospora similisi n. sp, a new coccidium species recovered from the green-winged saltator Saltator similis. Scale-bar: 10 µm.

Description of a sporulated oocyst: Oocyst shape (N = 25): spheroidal to sub-spheroidal; number of walls: 2; wall thickness: 1.2 (1.1-1.3); smooth outer wall about 2∕3 of total thickness; L x W: 27.5 × 25.9 (26-29 × 24-28), with L∕W ratio: 1.1 (1.0-1.1); M and OR: absent; PG: present, forming splinter-like or comma-like granules.

Description of a sporocyst and sporozoites: Sporocyst shape (N = 25): ellipsoidal or slightly ovoidal; L x W: 17.4 × 12.2 (15-19 × 11-13); L∕W ratio: 1.4 (1.2-1.7); SB: present, knoblike, 1.4 high × 2.6 wide; SSB: present, large, homogeneous, 2.6 high × 4.5 wide; PSB: absent; SR: present; SR characteristics: composed of granules of different sizes; SZ: vermiform with 1 posterior SRB and centrally located N.

Type host:Saltator similis Lafresnaye d'Orbigny, 1837 (Aves: Passeriformes: Cardinalidae).

Type material: One-half of the oocysts are kept in 10% aqueous buffered formalin (v∕v) and the other half in 70% ethanol according Duszynski and Gardner (1991)Duszynski DW, Gardner SL. Fixing coccidian oocysts is not an adequate solution to the problem of preserving protozoan type material. J Parasitol 1991; 77(1): 52-57. PMid:1899451. http:∕∕dx.doi.org∕10.2307∕3282555
http:∕∕dx.doi.org∕10.2307∕3282555... . Both samples were deposited in the Parasitology Collection, in the Department of Animal Parasitology, at UFRRJ, located in Seropédica, Rio de Janeiro, Brazil. Phototypes and line drawings are deposited as well. The repository number is P-41∕2011.

Type locality: Seropédica. (22° 43′ 23.79″′ S and 43° 42′ 36.94″′ W), Rio de Janeiro, Brazil.

Sporulation time: seven days.

Site of infection: Not investigated.

Prevalence: 59% (32 of 54 birds examined).

Etymology: The specific epithet is derived from the specific name of the type host.

Comments:Isospora similisi differs from other Isosporaspp. from the same host family (Table 3). Only I. trincaferri had similar dimensions with I. similisi; however, it can be distinguished by the unique PG and bubble-shaped SB (BERTO et al., 2008Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267., 2011bBerto BP, Flausino W, McIntosh D, Teixeira-Filho WL, Lopes CWG. Coccidia of New World passerine birds (Aves: Passeriformes): a review of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae). Syst Parasitol 2011b; 80(3): 159-204. PMid:22002022.http:∕∕dx.doi.org∕10.1007∕s11230-011-9317-8
http:∕∕dx.doi.org∕10.1007∕s11230-011-931... ).

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Table 3.
Comparative morphology of Isospora similisi n. sp and Isospora spp. recorded from cardinalid birds.

The periodicity associated with Isospora spp. is presented in the Table 4. Firstly, a larger number of oocysts were recovered in the late afternoon. Secondly, in the late afternoon, four Isospora spp. were indentified (I. trincaferri; I. vanriperorum;I. saltatori; and I. similisi), in contrast, in the morning only I. trincaferri and I. vanriperorum were indentified. Isospora similisishowed the highest mean of OoPD in the late afternoon; and I. trincaferri and I. vanriperorum have equal mean values of OoPD in the morning.

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Table 4.
Periodicity of shedding Isospora oocysts from green-winged saltators Saltator similis at CETAS∕IBAMA, Seropédica in the State of Rio de Janeiro, Brazil.

Discussion

This study determined the most probable period of oocyst shedding, which should result in more reliable diagnosis of coccidian infection during quarantine at a center for wild animals, where the passerines had suffered constant stress since their capture until their seizure by IBAMA. During winter in Rio de Janeiro, Brazil, the sunset happens earlier, between 5:00-6:00 PM and the samples used were collected in autumn, winter and spring. The period of sampling occurred in the morning, between 9:00-12:00 PM, and in late afternoon, between 3:00-5:00 PM, which covered the main times for treatment and management of animal sheld at CETAS. According toBrawner III and Hill (1999)Brawner III WR, Hill GE. Temporal variation in shedding of coccidial oocysts: implications for sexual-selection studies. Can J Zool 1999; 77(2): 347-350. http:∕∕dx.doi.org∕10.1139∕z98-207
http:∕∕dx.doi.org∕10.1139∕z98-207... , and Villanúa et al. (2006)Villanúa D, Pérez-Rodríguez L, Gortázar C, Hofle U, Viñuela J. Avoiding bias in parasite excretion estimates: the effect of sampling time and type of faeces. Parasitology 2006; 133(2): 251-259. PMid:16707034. http:∕∕dx.doi.org∕10.1017∕S003118200600031X
http:∕∕dx.doi.org∕10.1017∕S0031182006000... , the time of day is a crucial factor that must be taken into consideration when undertaking the sampling of bird droppings. The majority of species of coccidia that infect passerines belong to the genus Isospora and during their developmental cycle, which includes oocyst shedding, there is a diurnal periodicity (BOUGHTON, 1937Boughton DC. Notes of avian coccidiosis. The Auk 1937; 54(4): 500-509. http:∕∕dx.doi.org∕10.2307∕4078141
http:∕∕dx.doi.org∕10.2307∕4078141... ; DOLNIK, 2006Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
http:∕∕dx.doi.org∕10.1007∕s00436-006-025... ).

In the present study only 1.82% of the samples collected in the morning were positive for coccidia but in the late afternoon, 31.36% of the samples were positive. Thus, these results are similar to those of Boughton (1933Boughton DC. Diurnal gametic periodicity in avian Isospora. Am J Epidemiol 1933; 18(1): 161-184., 1937Boughton DC. Notes of avian coccidiosis. The Auk 1937; 54(4): 500-509. http:∕∕dx.doi.org∕10.2307∕4078141
http:∕∕dx.doi.org∕10.2307∕4078141... , 1988)Boughton DC. Circaduodian rhythms in avian coccidia. Trans Am Micros Soc 1988; 107(4): 329-344. http:∕∕dx.doi.org∕10.2307∕3226328
http:∕∕dx.doi.org∕10.2307∕3226328... , Dolnik (1999Dolnik OV. Diurnal periodicity in appearance of Isospora (Protozoa: Coccidea) oocysts from some passerine birds. Proc Zool Inst RAS 1999; 281:113-118., 2006)Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
http:∕∕dx.doi.org∕10.1007∕s00436-006-025... , Brown et al. (2001)Brown MA, Ball SJ, Holdman D. The periodicity of isosporan oocyst discharge in the greenfinch (Carduelis chloris). J Nat Hist 2001; 35(7): 945-948. http:∕∕dx.doi.org∕10.1080∕002229301300323875
http:∕∕dx.doi.org∕10.1080∕00222930130032... , López et al. (2007)López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.... , Lindstrom et al. (2009)Lindstrom KM, Dolnik O, Yabsley M, Heligren O, O'Connor B, Parn H, et al. Feather mites and internal parasites in small ground Finches (Geospiza fuliginosa, Emberizidae) from the Galapagos Islands (Equador). J Parasitol 2009; 95(1): 39-45. PMid:19245281.http:∕∕dx.doi.org∕10.1645∕GE-1655.1
http:∕∕dx.doi.org∕10.1645∕GE-1655.1... , Martinaud et al. (2009)Martinaud G, Billaudelle M, Moreau J. Circadian variation in shedding of the oocysts of Isospora turdi (Apicomplexa) in blackbirds (Turdus merula): An adaptative trait against desiccation and ultraviolet radiation. Int J Parasitol 2009; 39(6): 735-739. PMid:19100268. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.... , Filipiak et al. (2009)Filipiak L, Mathieu F, Moreau J. Caution on the assessment of intestinal parasitic load in studing parasite-mediated sexual selection: the case of Blackbirds coccidiosis. Int J Parasitol 2009; 39(6): 741-746. PMid:19100267. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.005
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.... , Dolnik et al. (2010)Dolnik OV, Dolnik VR, Bairlen F. The effect of host foraging ecology on the prevalence and intensity of coccidian infection in wild passerine birds. Ardea 2010; 98(1): 97-103. http:∕∕dx.doi.org∕10.5253∕078.098.0112
http:∕∕dx.doi.org∕10.5253∕078.098.0112... , Morin-Adeline et al. (2011)Morin-Adeline V, Vogelnest L, Dhand NK, Shiels M, Angus W, Slapeta J. Afternoon shedding of a new species of Isospora (Apicomplexa) in the endangered Regent Honeyeater (Xanthomyza phrygia). Parasitology 2011; 138(6): 713-724. http:∕∕dx.doi.org∕10.1017∕S0031182011000126
http:∕∕dx.doi.org∕10.1017∕S0031182011000... and Pap et al. (2011)Pap PL, Vágasi CI, Czirják GA, Titilincu A, Pintea A, Osváth G, et al. The effect of coccidians on the condition and immune profile of molting house sparrows (Passer domesticus). The Auk 2011; 128(2): 330-339. http:∕∕dx.doi.org∕10.1525∕auk.2011.10142
http:∕∕dx.doi.org∕10.1525∕auk.2011.10142... , where, in spite of different latitudes and longitudes, it was reported that the late afternoon was the most reliable period for sampling because it is the period during which oocyst shedding is greatest. In birds kept in captivity, the oocysts shedding begin earlier and ended later, when compared with the free-living passerines which have peak of oocysts shedding between 1:00-9:00 PM. Moreover, the number of oocysts shed during the first days of captivity was reported to be significantly higher than during longer times post capture (DOLNIK, 1999Dolnik OV. Diurnal periodicity in appearance of Isospora (Protozoa: Coccidea) oocysts from some passerine birds. Proc Zool Inst RAS 1999; 281:113-118.). Based on that report, the sampling in the current study was performed, whenever possible, on the first day of arrival of passerines in quarantine, with the objective of ensuring a more reliable diagnosis. In a study with house sparrows P. domesticus was reported that the periodicity of oocysts shedding was not associated with feeding; however, it was associated with photoperiod, because after the reversal of light and darkness, there is a reversal in the time of oocyst shedding. On other hand, it is known that oocyst shedding is controlled by physiology of the host and physiological differences between dietary habits are probably responsible for these differences (LÓPEZ et al., 2007López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.... ). In the wild, birds show two peaks of feeding activity, one in the morning and another in the late afternoon. During this period, the birds feed in the same areas. In the breeding season, they feed on the same territory all day and, during the migration season, many species gather in flocks to feed. Clearly, the presence of parasites in feces during this period would increase the chances of infecting new hosts (DOLNIK, 1999Dolnik OV. Diurnal periodicity in appearance of Isospora (Protozoa: Coccidea) oocysts from some passerine birds. Proc Zool Inst RAS 1999; 281:113-118.; MARTINAUD et al., 2009Martinaud G, Billaudelle M, Moreau J. Circadian variation in shedding of the oocysts of Isospora turdi (Apicomplexa) in blackbirds (Turdus merula): An adaptative trait against desiccation and ultraviolet radiation. Int J Parasitol 2009; 39(6): 735-739. PMid:19100268. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.... ). It is of value to note, that, although the oocysts are relatively resistant to environmental factors, such as temperature and relative humidity, it has been reported that desiccation can reduce the infectivity of oocysts of Eimeria spp. in poultry production; this lack of infectivity was confirmed in an experiment withIsospora infection in Eurasian blackbirds T. merula. It was observed that the release of oocysts in the late afternoon represented an adaptation to provide resistance to desiccation and ultraviolet radiation, because if oocysts were released throughout the day, most would be quickly destroyed by the action of sunlight (MARTINAUD et al., 2009Martinaud G, Billaudelle M, Moreau J. Circadian variation in shedding of the oocysts of Isospora turdi (Apicomplexa) in blackbirds (Turdus merula): An adaptative trait against desiccation and ultraviolet radiation. Int J Parasitol 2009; 39(6): 735-739. PMid:19100268. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.... ). In some species of birds which begin to migrate, the feeding peak disappears in the morning, but the feeding peak at late afternoon never disappears. Thus, these birds gather with others, at least in a period of day, increasing the chances of infection of new hosts (DOLNIK, 1999Dolnik OV. Diurnal periodicity in appearance of Isospora (Protozoa: Coccidea) oocysts from some passerine birds. Proc Zool Inst RAS 1999; 281:113-118.).

Finally, we conclude that estimations of the prevalence and parasite load performed without considering the time of day are not reliable. A good method for accuracy would be to restrict the period of sampling. Collection of samples for quantification of parasite load for coccidia would be restricted to the second half of the late afternoon, while those intended for prevalence studies could be carried out between 1∕2 and 4∕5 of the late afternoon as suggested by López et al. (2007)López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.... . The results of the current study were similar, because the sampling was restricted to the late afternoon, specifically between 3:00-5:00 PM. The oocysts' shedding was quantitatively greater in the late afternoon, with a mean value of 98 OoPD, in comparison with the mean value of <1 OoPD in the morning period, even in wild passerines kept in a quarantine regime.

The illegal animal trade had led to the reduction and extinction of some bird species worldwide. In addition, another consequence is the introduction of new parasites, as occurred with Isospora vanriperorumLevine, 1982Levine ND. Isospora vanriperorum n. nom. for I. cardinalis Levine, Van Riper & Van Riper, 1980, preoccupied. J Eukaryot Microbiol 1982; 29(4): 653., first described from the northern cardinal Cardinalis cardinalis L., 1758, but which due to its introduction into South America for breeding in captivity, was subsequently reported from S. similis (LOPES et al., 2007Lopes BB, Berto BP, Massad FV, Lopes CWG. Isospora vanriperorum Levine, 1982 (Apicomplexa: Eimeriidae) in the green-winged saltator, Saltator similis Lafresnaye and D'Orbigny, 1837 (Passeriformes: Cardinalinae) in southeastern Brazil. Rev Bras Parasitol Vet 2007; 16(4): 211-214. PMid:18373897.; BERTO et al., 2011bBerto BP, Flausino W, McIntosh D, Teixeira-Filho WL, Lopes CWG. Coccidia of New World passerine birds (Aves: Passeriformes): a review of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae). Syst Parasitol 2011b; 80(3): 159-204. PMid:22002022.http:∕∕dx.doi.org∕10.1007∕s11230-011-9317-8
http:∕∕dx.doi.org∕10.1007∕s11230-011-931... ).

The ease of transmission of Isospora among birds from the same family, the large number of cardinalid species in New World and the illegal bird trade may serve to ensure a wide distribution of these parasites in South, Central and North America (BERTO et al., 2011bBerto BP, Flausino W, McIntosh D, Teixeira-Filho WL, Lopes CWG. Coccidia of New World passerine birds (Aves: Passeriformes): a review of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae). Syst Parasitol 2011b; 80(3): 159-204. PMid:22002022.http:∕∕dx.doi.org∕10.1007∕s11230-011-9317-8
http:∕∕dx.doi.org∕10.1007∕s11230-011-931... ).

In Brazil, the native birds are protected by law and supervised by the Brazilian Institute of the Environment and Natural Renewable Resources (IBAMA), therefore a symbiotype could not be collected (IBAMA, 2011).

According to Duszynski and Wilber (1997)Duszynski DW, Wilber PG. A guideline for the preparation of species descriptions in the Eimeriidae. J Parasitol 1997; 83(2): 333-336. PMid:9105325. http:∕∕dx.doi.org∕10.2307∕3284470
http:∕∕dx.doi.org∕10.2307∕3284470... and Berto et al. (2011b)Berto BP, Flausino W, McIntosh D, Teixeira-Filho WL, Lopes CWG. Coccidia of New World passerine birds (Aves: Passeriformes): a review of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae). Syst Parasitol 2011b; 80(3): 159-204. PMid:22002022.http:∕∕dx.doi.org∕10.1007∕s11230-011-9317-8
http:∕∕dx.doi.org∕10.1007∕s11230-011-931... , aBerto BP, Flausino W, Luz HR, Ferreira I, Lopes CWG. Isospora coerebae n. sp. (Apicomplexa: Eimeriidae) from the bananaquit Coereba flaveola (Passeriformes: Coerebidae) in South America. Rev Bras Parasitol Vet 2011a; 20(1): 22-26. PMid:21439227. http:∕∕dx.doi.org∕10.1590∕S1984-29612011000100005
http:∕∕dx.doi.org∕10.1590∕S1984-29612011... new coccidian species should be morphologically compared with other congeneric coccidian species, that share similar features and belong to the same host family. Thus, I. similisi sporulated oocysts was compared to all of described species from Cardinalidae.

As observed in the current study, a few variations in SB and SSB (Figure 1b, c) were also observed in sporocysts of I. similisi according to Grulet et al. (1982)Grulet O, Landau I, Baccam D. Les Isospora du Moineau domestique: multiplicite des especes. Ann Parasitol Hum Comp 1982; 57(3): 209-233. PMid:7137798., Berto et al. (2009aBerto BP, Flausino W, Luz HR, Ferreira I, Lopes CWG. Isospora mionectesi sp. nov. (Apicomplexa, Eimeriidae) from the grey-hooded flycatcher, Mionectes rufiventris in Brazil. Acta Parasitol 2009a; 54(4): 301-304. http:∕∕dx.doi.org∕10.2478∕s11686-009-0053-z
http:∕∕dx.doi.org∕10.2478∕s11686-009-005... , bBerto BP, Luz HR, Flausino W, Ferreira I, Lopes CWG. New species of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae) from the short-crested flycatcher Myiarchus ferox (Gmelin) (Passeriformes: Tyrannidae) in South America. Syst Parasitol 2009b; 74(1): 75-80. PMid:19633934. http:∕∕dx.doi.org∕10.1007∕s11230-009-9197-3
http:∕∕dx.doi.org∕10.1007∕s11230-009-919... , cBerto BP, Luz HR, Flausino W, Ferreira I, Lopes CWG. Isospora piacobrai n. sp. (Apicomplexa: Eimeriidae) from the masked yellowthroat Geothlypis aequinoctialis (Gmelin) (Passeriformes: Parulidae) in South America. Syst Parasitol 2009c; 75(3): 225-230. PMid:20157796. http:∕∕dx.doi.org∕10.1007∕s11230-009-9221-7
http:∕∕dx.doi.org∕10.1007∕s11230-009-922... , 2010Berto BP, Flausino W, Luz HR, Ferreira I, Lopes CWG. Isospora ramphoceli n. sp. from the Brazilian tanager (Ramphocelus bresilius dorsalis) in South America. Zootaxa 2010; 2650(1): 57-62., 2011aBerto BP, Flausino W, Luz HR, Ferreira I, Lopes CWG. Isospora coerebae n. sp. (Apicomplexa: Eimeriidae) from the bananaquit Coereba flaveola (Passeriformes: Coerebidae) in South America. Rev Bras Parasitol Vet 2011a; 20(1): 22-26. PMid:21439227. http:∕∕dx.doi.org∕10.1590∕S1984-29612011000100005
http:∕∕dx.doi.org∕10.1590∕S1984-29612011... , c), Coelho et al. (2011aCoelho CD, Berto BP, Neves DM, Oliveira VM, Flausino W, Lopes CWG. Isospora mimusi n. sp. (Apicomplexa: Eimeriidae) from the tropical mockingbird Mimus gilvus in South America. Acta Protozool 2011a; 50(2): 137-140., b)Coelho CD, Berto BP, Neves DM, Oliveira VM, Flausino W, Lopes CWG. Two new Isospora species from the saffron finch, Sicalis flaveola in Brazil. Acta Parasitol 2011b; 56(3): 239-244. http:∕∕dx.doi.org∕10.2478∕s11686-011-0051-9
http:∕∕dx.doi.org∕10.2478∕s11686-011-005... and Pereira et al. (2011)Pereira LQ, Berto BP, Flausino W, Lovato M, Lopes CWG. Isospora bocamontensis n. sp. (Apicomplexa: Eimeriidae) from the yellow cardinal Gubernatrix cristata (Vieillot) (Passeriformes: Emberizidae) in South America. Syst Parasitol 2011; 78(1): 73-80. PMid:21161493. http:∕∕dx.doi.org∕10.1007∕s11230-010-9278-3
http:∕∕dx.doi.org∕10.1007∕s11230-010-927... ; however, these variations are not significant enough to separate and describe it as new species. These variations could possibly be the result of the sporulation process, the position of the SZ inside of the sporocyst, or the position of the oocyst and sporocyst under the coverslip.

Based upon its morphological features, I. similisi is considered as new to science, being the fourth description from S. similis and the sixth description from the host family Cardinalidae. Interestingly, based upon the OoPD values, this species was considered to be the most competitive among the four species of Isospora associated withS. similis.

We are thankful to staff at the CETAS∕IBAMA∕MMA facility at the Municipality of Seropédica in the State of Rio de Janeiro, who enabled the collection of samples from birds held for rehabilitation and reintroduction into the wild as well as CNPq and FAPERJ.

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Lindstrom KM, Dolnik O, Yabsley M, Heligren O, O'Connor B, Parn H, et al. Feather mites and internal parasites in small ground Finches (Geospiza fuliginosa, Emberizidae) from the Galapagos Islands (Equador). J Parasitol 2009; 95(1): 39-45. PMid:19245281.http:∕∕dx.doi.org∕10.1645∕GE-1655.1
» http:∕∕dx.doi.org∕10.1645∕GE-1655.1
Lopes BB, Berto BP, Massad FV, Lopes CWG. Isospora vanriperorum Levine, 1982 (Apicomplexa: Eimeriidae) in the green-winged saltator, Saltator similis Lafresnaye and D'Orbigny, 1837 (Passeriformes: Cardinalinae) in southeastern Brazil. Rev Bras Parasitol Vet 2007; 16(4): 211-214. PMid:18373897.
López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
» http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
Martinaud G, Billaudelle M, Moreau J. Circadian variation in shedding of the oocysts of Isospora turdi (Apicomplexa) in blackbirds (Turdus merula): An adaptative trait against desiccation and ultraviolet radiation. Int J Parasitol 2009; 39(6): 735-739. PMid:19100268. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
» http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
McQuistion TE, Capparella A. Two new coccidian parasites from the slate-colored grosbeak (Pitylus grossus) of South America. J Parasitol 1992; 78(5): 805-807. PMid:1403421. http:∕∕dx.doi.org∕10.2307∕3283308
» http:∕∕dx.doi.org∕10.2307∕3283308
Morin-Adeline V, Vogelnest L, Dhand NK, Shiels M, Angus W, Slapeta J. Afternoon shedding of a new species of Isospora (Apicomplexa) in the endangered Regent Honeyeater (Xanthomyza phrygia). Parasitology 2011; 138(6): 713-724. http:∕∕dx.doi.org∕10.1017∕S0031182011000126
» http:∕∕dx.doi.org∕10.1017∕S0031182011000126
Pap PL, Vágasi CI, Czirják GA, Titilincu A, Pintea A, Osváth G, et al. The effect of coccidians on the condition and immune profile of molting house sparrows (Passer domesticus). The Auk 2011; 128(2): 330-339. http:∕∕dx.doi.org∕10.1525∕auk.2011.10142
» http:∕∕dx.doi.org∕10.1525∕auk.2011.10142
Pereira LQ, Berto BP, Flausino W, Lovato M, Lopes CWG. Isospora bocamontensis n. sp. (Apicomplexa: Eimeriidae) from the yellow cardinal Gubernatrix cristata (Vieillot) (Passeriformes: Emberizidae) in South America. Syst Parasitol 2011; 78(1): 73-80. PMid:21161493. http:∕∕dx.doi.org∕10.1007∕s11230-010-9278-3
» http:∕∕dx.doi.org∕10.1007∕s11230-010-9278-3
Sampaio IBM. Estatística aplicada à experimentação animal. 2. ed. Belo Horizonte: FEPMVZ; 2002. 265 p.
Sick H. Ornitologia Brasileira. Rio de Janeiro: Nova Fronteira; 1997. 862 p.
Silva DC, Homem CG, Nakamura AA, Meireles MV. Ocorrência da infecção por Isospora spp. em aves passeriformes mantidas em cativeiro. Vet Zootec 2010; 17(S1): 111.
Villanúa D, Pérez-Rodríguez L, Gortázar C, Hofle U, Viñuela J. Avoiding bias in parasite excretion estimates: the effect of sampling time and type of faeces. Parasitology 2006; 133(2): 251-259. PMid:16707034. http:∕∕dx.doi.org∕10.1017∕S003118200600031X
» http:∕∕dx.doi.org∕10.1017∕S003118200600031X

Publication Dates

Publication in this collection
Jan-Mar 2013

History

Received
14 May 2012
Accepted
6 Nov 2012

All the contents of this journal, except where otherwise noted, is licensed under a Creative Commons Attribution License.

[1] Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267.

[2] Berto BP, Flausino W, Luz HR, Ferreira I, Lopes CWG. Isospora coerebae n. sp. (Apicomplexa: Eimeriidae) from the bananaquit Coereba flaveola (Passeriformes: Coerebidae) in South America. Rev Bras Parasitol Vet 2011a; 20(1): 22-26. PMid:21439227. http:∕∕dx.doi.org∕10.1590∕S1984-29612011000100005
» http:∕∕dx.doi.org∕10.1590∕S1984-29612011000100005

[3] Berto BP, Flausino W, Luz HR, Ferreira I, Lopes CWG. Isospora mionectesi sp. nov. (Apicomplexa, Eimeriidae) from the grey-hooded flycatcher, Mionectes rufiventris in Brazil. Acta Parasitol 2009a; 54(4): 301-304. http:∕∕dx.doi.org∕10.2478∕s11686-009-0053-z
» http:∕∕dx.doi.org∕10.2478∕s11686-009-0053-z

[4] Berto BP, Flausino W, Luz HR, Ferreira I, Lopes CWG. Isospora ramphoceli n. sp. from the Brazilian tanager (Ramphocelus bresilius dorsalis) in South America. Zootaxa 2010; 2650(1): 57-62.

[5] Berto BP, Flausino W, McIntosh D, Teixeira-Filho WL, Lopes CWG. Coccidia of New World passerine birds (Aves: Passeriformes): a review of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae). Syst Parasitol 2011b; 80(3): 159-204. PMid:22002022.http:∕∕dx.doi.org∕10.1007∕s11230-011-9317-8
» http:∕∕dx.doi.org∕10.1007∕s11230-011-9317-8

[6] Berto BP, Luz HR, Flausino W, Ferreira I, Lopes CWG. New species of Eimeria Schneider, 1875 and Isospora Schneider, 1881 (Apicomplexa: Eimeriidae) from the short-crested flycatcher Myiarchus ferox (Gmelin) (Passeriformes: Tyrannidae) in South America. Syst Parasitol 2009b; 74(1): 75-80. PMid:19633934. http:∕∕dx.doi.org∕10.1007∕s11230-009-9197-3
» http:∕∕dx.doi.org∕10.1007∕s11230-009-9197-3

[7] Berto BP, Luz HR, Flausino W, Ferreira I, Lopes CWG. Isospora piacobrai n. sp. (Apicomplexa: Eimeriidae) from the masked yellowthroat Geothlypis aequinoctialis (Gmelin) (Passeriformes: Parulidae) in South America. Syst Parasitol 2009c; 75(3): 225-230. PMid:20157796. http:∕∕dx.doi.org∕10.1007∕s11230-009-9221-7
» http:∕∕dx.doi.org∕10.1007∕s11230-009-9221-7

[8] Berto BP, Luz HR, Flausino W, Teixeira-Filho WL, Ferreira I, Lopes CWG. Isosporoid coccidia (Apicomplexa: Eimeriidae) parasites of tanagers (Passeriformes: Thraupidae) from the Marambaia Island, Brazil. Pesq Vet Bras 2011c; 31(9): 798-805, 2011c.

[9] Boughton DC. Circaduodian rhythms in avian coccidia. Trans Am Micros Soc 1988; 107(4): 329-344. http:∕∕dx.doi.org∕10.2307∕3226328
» http:∕∕dx.doi.org∕10.2307∕3226328

[10] Boughton DC. Diurnal gametic periodicity in avian Isospora. Am J Epidemiol 1933; 18(1): 161-184.

[11] Boughton DC. Notes of avian coccidiosis. The Auk 1937; 54(4): 500-509. http:∕∕dx.doi.org∕10.2307∕4078141
» http:∕∕dx.doi.org∕10.2307∕4078141

[12] Box ED. Life cycles of two Isospora species in the canary, Serinus canarius Linnaeus. J Protozool 1977; 24(1): 57-67. PMid:559084.

[13] Brawner III WR, Hill GE. Temporal variation in shedding of coccidial oocysts: implications for sexual-selection studies. Can J Zool 1999; 77(2): 347-350. http:∕∕dx.doi.org∕10.1139∕z98-207
» http:∕∕dx.doi.org∕10.1139∕z98-207

[14] Brown MA, Ball SJ, Holdman D. The periodicity of isosporan oocyst discharge in the greenfinch (Carduelis chloris). J Nat Hist 2001; 35(7): 945-948. http:∕∕dx.doi.org∕10.1080∕002229301300323875
» http:∕∕dx.doi.org∕10.1080∕002229301300323875

[15] Coelho CD, Berto BP, Neves DM, Oliveira VM, Flausino W, Lopes CWG. Isospora mimusi n. sp. (Apicomplexa: Eimeriidae) from the tropical mockingbird Mimus gilvus in South America. Acta Protozool 2011a; 50(2): 137-140.

[16] Coelho CD, Berto BP, Neves DM, Oliveira VM, Flausino W, Lopes CWG. Two new Isospora species from the saffron finch, Sicalis flaveola in Brazil. Acta Parasitol 2011b; 56(3): 239-244. http:∕∕dx.doi.org∕10.2478∕s11686-011-0051-9
» http:∕∕dx.doi.org∕10.2478∕s11686-011-0051-9

[17] Dolnik O. 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 2006; 100(1): 155-160. PMid:16874477. http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5
» http:∕∕dx.doi.org∕10.1007∕s00436-006-0253-5

[18] Dolnik OV, Dolnik VR, Bairlen F. The effect of host foraging ecology on the prevalence and intensity of coccidian infection in wild passerine birds. Ardea 2010; 98(1): 97-103. http:∕∕dx.doi.org∕10.5253∕078.098.0112
» http:∕∕dx.doi.org∕10.5253∕078.098.0112

[19] Dolnik OV, Palinauskas V, Bensch S. Individual oocysts of Isospora (Apicomplexa: Coccidia) parasites from avian feces: from photo to sequence. J Parasitol 2009; 95(1): 169-174. PMid:19245285. http:∕∕dx.doi.org∕10.1645∕GE-1873.1
» http:∕∕dx.doi.org∕10.1645∕GE-1873.1

[20] Dolnik OV. Diurnal periodicity in appearance of Isospora (Protozoa: Coccidea) oocysts from some passerine birds. Proc Zool Inst RAS 1999; 281:113-118.

[21] Duszynski DW, Gardner SL. Fixing coccidian oocysts is not an adequate solution to the problem of preserving protozoan type material. J Parasitol 1991; 77(1): 52-57. PMid:1899451. http:∕∕dx.doi.org∕10.2307∕3282555
» http:∕∕dx.doi.org∕10.2307∕3282555

[22] Duszynski DW, Wilber PG. A guideline for the preparation of species descriptions in the Eimeriidae. J Parasitol 1997; 83(2): 333-336. PMid:9105325. http:∕∕dx.doi.org∕10.2307∕3284470
» http:∕∕dx.doi.org∕10.2307∕3284470

[23] Filipiak L, Mathieu F, Moreau J. Caution on the assessment of intestinal parasitic load in studing parasite-mediated sexual selection: the case of Blackbirds coccidiosis. Int J Parasitol 2009; 39(6): 741-746. PMid:19100267. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.005
» http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.005

[24] Grulet O, Landau I, Baccam D. Les Isospora du Moineau domestique: multiplicite des especes. Ann Parasitol Hum Comp 1982; 57(3): 209-233. PMid:7137798.

[25] Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais e Renováveis - IBAMA. Instrução Normativa n° 10∕2011. Devolução dos animais à natureza. [cited 2012 Feb 17]. Available from: http:∕∕www.servicos.ibama.gov.br∕phocadownload∕legislacao∕instrucao_normativa_n_10_de_20_setembro_2011.pdf
» http:∕∕www.servicos.ibama.gov.br∕phocadownload∕legislacao∕instrucao_normativa_n_10_de_20_setembro_2011.pdf

[26] International Union for Conservation of Nature and Natural Resources - IUCN. 2011. [cited 2012 Mar 30]. Available from: http:∕∕www.iucnredlist.org
» http:∕∕www.iucnredlist.org

[27] Levine ND. Isospora vanriperorum n. nom. for I. cardinalis Levine, Van Riper & Van Riper, 1980, preoccupied. J Eukaryot Microbiol 1982; 29(4): 653.

[28] Levine ND, Van Riper S, Van Riper C. Five new species of Isospora from Hawaiian Birds. J Protozool 1980; 27(3): 258-259. PMid:7452523.

[29] Lindstrom KM, Dolnik O, Yabsley M, Heligren O, O'Connor B, Parn H, et al. Feather mites and internal parasites in small ground Finches (Geospiza fuliginosa, Emberizidae) from the Galapagos Islands (Equador). J Parasitol 2009; 95(1): 39-45. PMid:19245281.http:∕∕dx.doi.org∕10.1645∕GE-1655.1
» http:∕∕dx.doi.org∕10.1645∕GE-1655.1

[30] Lopes BB, Berto BP, Massad FV, Lopes CWG. Isospora vanriperorum Levine, 1982 (Apicomplexa: Eimeriidae) in the green-winged saltator, Saltator similis Lafresnaye and D'Orbigny, 1837 (Passeriformes: Cardinalinae) in southeastern Brazil. Rev Bras Parasitol Vet 2007; 16(4): 211-214. PMid:18373897.

[31] López G, Figuerola J, Soriguer R. Time of day, age and feeding habits influence coccidian oocyst shedding in wild passerines. Int J Parasitol 2007: 37(5): 559-564. PMid:17289051. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014
» http:∕∕dx.doi.org∕10.1016∕j.ijpara.2006.12.014

[32] Martinaud G, Billaudelle M, Moreau J. Circadian variation in shedding of the oocysts of Isospora turdi (Apicomplexa) in blackbirds (Turdus merula): An adaptative trait against desiccation and ultraviolet radiation. Int J Parasitol 2009; 39(6): 735-739. PMid:19100268. http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006
» http:∕∕dx.doi.org∕10.1016∕j.ijpara.2008.11.006

[33] McQuistion TE, Capparella A. Two new coccidian parasites from the slate-colored grosbeak (Pitylus grossus) of South America. J Parasitol 1992; 78(5): 805-807. PMid:1403421. http:∕∕dx.doi.org∕10.2307∕3283308
» http:∕∕dx.doi.org∕10.2307∕3283308

[34] Morin-Adeline V, Vogelnest L, Dhand NK, Shiels M, Angus W, Slapeta J. Afternoon shedding of a new species of Isospora (Apicomplexa) in the endangered Regent Honeyeater (Xanthomyza phrygia). Parasitology 2011; 138(6): 713-724. http:∕∕dx.doi.org∕10.1017∕S0031182011000126
» http:∕∕dx.doi.org∕10.1017∕S0031182011000126

[35] Pap PL, Vágasi CI, Czirják GA, Titilincu A, Pintea A, Osváth G, et al. The effect of coccidians on the condition and immune profile of molting house sparrows (Passer domesticus). The Auk 2011; 128(2): 330-339. http:∕∕dx.doi.org∕10.1525∕auk.2011.10142
» http:∕∕dx.doi.org∕10.1525∕auk.2011.10142

[36] Pereira LQ, Berto BP, Flausino W, Lovato M, Lopes CWG. Isospora bocamontensis n. sp. (Apicomplexa: Eimeriidae) from the yellow cardinal Gubernatrix cristata (Vieillot) (Passeriformes: Emberizidae) in South America. Syst Parasitol 2011; 78(1): 73-80. PMid:21161493. http:∕∕dx.doi.org∕10.1007∕s11230-010-9278-3
» http:∕∕dx.doi.org∕10.1007∕s11230-010-9278-3

[37] Sampaio IBM. Estatística aplicada à experimentação animal. 2. ed. Belo Horizonte: FEPMVZ; 2002. 265 p.

[38] Sick H. Ornitologia Brasileira. Rio de Janeiro: Nova Fronteira; 1997. 862 p.

[39] Silva DC, Homem CG, Nakamura AA, Meireles MV. Ocorrência da infecção por Isospora spp. em aves passeriformes mantidas em cativeiro. Vet Zootec 2010; 17(S1): 111.

[40] Villanúa D, Pérez-Rodríguez L, Gortázar C, Hofle U, Viñuela J. Avoiding bias in parasite excretion estimates: the effect of sampling time and type of faeces. Parasitology 2006; 133(2): 251-259. PMid:16707034. http:∕∕dx.doi.org∕10.1017∕S003118200600031X
» http:∕∕dx.doi.org∕10.1017∕S003118200600031X

Period^a a Sampling in the period of the morning, between 9:00-12:00 AM, and late afternoon, between 3:00-5:00 PM.	Presence of oocysts		Total	P value^b b Highly significant by Fisher's test.
Morning	Positive	4 ( 1.82 %)	110 (50%)	0.0001
	Negative	106 (48.18 %)
Late	Positive	69 (31.36 %)	110 (50%)
afternoon	Negative	41 (18.64 %)
Total			220 (100%)

Period^a a Sampling in the period of the morning, between 9:00-12:00 AM, and late afternoon, between 3:00-5:00 PM.	OoPD^b b Highly significant by Fisher's test.		P value^c c Highly significant by Wilcoxon's test.
Morning	N	110	0.0001
	Mean value	0.04 (0.0-1.0)
Late	N	110
afternoon	Mean value	98.3 (0.0-3668)

Coccidia	Host(s)	Reference(s)s	Oocysts					Sporocysts
Coccidia	Host(s)	Reference(s)s	Shape	Measurements (µm)	Shape index	Wall (µm)	Polar granule	Shape	Measurements (µm)	Stieda body	Substieda body	Residuum
Isospora vanriperorum Levine, 1982Levine ND. Isospora vanriperorum n. nom. for I. cardinalis Levine, Van Riper & Van Riper, 1980, preoccupied. J Eukaryot Microbiol 1982; 29(4): 653.	Cardinalis cardinalis Linnaeus, 1758;Saltator similis Lafresnaye d'Orbigny, 1837	Levine (1980)Levine ND, Van Riper S, Van Riper C. Five new species of Isospora from Hawaiian Birds. J Protozool 1980; 27(3): 258-259. PMid:7452523. and Levine et al. (1982) Lopes et al. (2007)Lopes BB, Berto BP, Massad FV, Lopes CWG. Isospora vanriperorum Levine, 1982 (Apicomplexa: Eimeriidae) in the green-winged saltator, Saltator similis Lafresnaye and D'Orbigny, 1837 (Passeriformes: Cardinalinae) in southeastern Brazil. Rev Bras Parasitol Vet 2007; 16(4): 211-214. PMid:18373897.	sub-spherical	24 × 23 (22-26 × 20-25)	-	one-layered, c.0.8	present	ovoid	16 × 10 (15-17 × 10)	knob-like	indistinct	compact
Isospora pityli McQuistion & Capparella, 1992McQuistion TE, Capparella A. Two new coccidian parasites from the slate-colored grosbeak (Pitylus grossus) of South America. J Parasitol 1992; 78(5): 805-807. PMid:1403421. http:∕∕dx.doi.org∕10.2307∕3283308 http:∕∕dx.doi.org∕10.2307∕3283308...	Saltator grossus saturatus Todd, 1922	McQuistion and Capparella (1992)McQuistion TE, Capparella A. Two new coccidian parasites from the slate-colored grosbeak (Pitylus grossus) of South America. J Parasitol 1992; 78(5): 805-807. PMid:1403421. http:∕∕dx.doi.org∕10.2307∕3283308 http:∕∕dx.doi.org∕10.2307∕3283308...	sub-spherical	20.1 × 18.8 (20-21 × 17-20)	1.1 (1.0-1.2)	bi-layered, c.1.5	absent	ovoid	14.7 × 9.4 (12-17 × 8-11)	nipple-like	absent	compact
Isospora formarum McQuistion & Capparella, 1992McQuistion TE, Capparella A. Two new coccidian parasites from the slate-colored grosbeak (Pitylus grossus) of South America. J Parasitol 1992; 78(5): 805-807. PMid:1403421. http:∕∕dx.doi.org∕10.2307∕3283308 http:∕∕dx.doi.org∕10.2307∕3283308...	Saltator grossus grossus Linnaeus, 1766;S. g. saturatus	McQuistion and Capparella (1992)McQuistion TE, Capparella A. Two new coccidian parasites from the slate-colored grosbeak (Pitylus grossus) of South America. J Parasitol 1992; 78(5): 805-807. PMid:1403421. http:∕∕dx.doi.org∕10.2307∕3283308 http:∕∕dx.doi.org∕10.2307∕3283308...	sub-spherical	24.6 × 23.5 (21-27 × 20-25)	1.0 (1.0-1.1)	bi-layered, c.1.5	absent	ovoid	15.7 × 11.3 (14-17 × 10-13)	small, nipple-like	large, triangular or conical	compact
Isospora saltatori Berto, Balthazar, Flausino & Lopes, 2008Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267.	S. similis	Berto et al. (2008)Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267.	sub-spherical	18.3 × 17.9 (17-20 × 16-20)	1.0 (1.0-1.1)	bi-layered, c.1.1	absent	ovoid	13.4 × 8.9 (12-15 × 8-10)	small, flattened	small	compact
Isospora trincaferri Berto, Balthazar, Flausino & Lopes, 2008Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267.	S. similis	Berto et al. (2008)Berto BP, Balthazar LMC, Flausino W, Lopes CWG. Two new coccidian parasites of green-winged saltator (Saltator similis) from South America. Acta Protozool 2008; 47(3): 263-267.	sub-spherical	26.2 × 23.6 (24-29 × 22-25)	1.1 (1.0-1.2)	bi-layered, c.1.2	present	ovoid	17.5 × 11.5 (17-18 × 10-13)	bubble-shaped	prominent	diffuse
Isospora similisi n. sp.	S. similis	current study	spherical to sub-spherical	27.5 × 25.9 (26-29 × 24-28)	1.1 (1.0-1.1)	bi-layered, c.1.2	present, splinter-like or comma-like granules	ellipsoidal or slightly ovoidal	17.4 × 12.2 (15-19 × 11-13)	knob-like	large, homogeneous	diffuse

Species	Morning^a a Sampling in the period of the morning, between 9:00-12:00 AM, and late afternoon, between 3:00-5:00 PM. (n = 54)		Late afternoon^b b Highly significant by Fisher's test. (n = 54)
	OoPD^c c Highly significant by Wilcoxon's test.	Means	OoPD^c c Highly significant by Wilcoxon's test.	Means
I. trincaferri	2	1	894	59.60
I. vanriperorum	2	1	1088	83.69
I. saltatori	0	0	1952	48.80
I. similisi	0	0	5789	175.42
Total	4	0.074	9723	180.05

Brasil

Brasil

Oocyst shedding by green-winged-saltator (Saltator similis) in the diagnostic of coccidiosis and Isospora similisi n. sp. (Apicomplexa: Eimeriidae)

Eliminação de oocistos por trinca-ferro-verdadeiro (Saltator similis) no diagnóstico da coccidiose e Isospora similisi n. sp. (Apicomplexa: Eimeriidae)

Abstracts

Introduction

Materials and Methods

Results

Isospora similisi n. sp. (Figures 1a-c, 2a, b)

Discussion

References

Publication Dates

History