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A new species of Microtetrameres (Nematoda, Tetrameridae) parasitizing Buteogallus urubitinga (Aves, Accipitridae) from northeastern Argentina

Abstract

A new tetramerid nematode, Microtetrameres urubitinga n. sp., is described from specimens recovered from the proventriculus of the great black-hawk, Buteogallus urubitinga (Aves: Accipitridae), from Formosa Province, Argentina. The males of the new species are characterized by having spicules unequal (length ratio of spicules 1:3.8–5.9) and dissimilar in shape (right spicule with a simple tip, left spicule with a symmetrical bifurcated tip), caudal papillae arranged asymmetrically (two pairs precloacal and two pairs postcloacal) and cloacal lips highly protruded forming a tube. The gravid females are permanently coiled clockwise or counterclockwise in a spiral and having a tail tapering gradually to a sharp point, with a cuticular fold. This is the first nominal species of Microtetrameres (Travassos, 1915TRAVASSOS L. 1915. Sobre as especies brazileiras de genero Tetrameres Creplin. 1846 (Nota previa). Brazil Med 29: 297-298.) described parasitizing birds from Argentina. The relationship between the diet of B. urubitinga and the low prevalence of M. urubitinga n. sp. is discussed.

Key words
Accipitridae; Argentina; Buteogallus urubitinga; Microtetrameres urubitinga n. sp.; Tetrameridae

INTRODUCTION

The great black-hawk, Buteogallus urubitinga (Gmelin) (Accipitridae), is a diurnal bird of prey found in the open savanna and swamp edges of the Neotropical Region, from Mexico through Central America to Bolivia, Uruguay and central Argentina (Thiollay 1994THIOLLAY JM. 1994. Family Accipitridae. In: Del Hoyo J, Elliott A and Sargatal J (Eds), Handbook of the Birds of the World. Vol. 2, Barcelona: Lynx Edicions, p. 52-205.). The helminth fauna of the great black-hawk is scarcely known, so far seven species of helminths have been recorded parasitizing this species, Thelazia (Thelaziella) aquilina Baylis, 1934 (Nematoda-Thelaziidae), Contracaecum caballeroi Bravo-Hollis, 1939 (Nematoda-Anisakidae), Neodiplostomum microcotyleDubois, 1937DUBOIS G. 1937. Sur quelques Strigéidés (Notes préliminaires). Rev Suisse Zool 44(25): 391-396. (Digenea-Diplostomidae), and Oligacanthorhynchus iheringiTravassos, 1916TRAVASSOS L. 1919. Contribuições para o conhecimento da fauna helmintolojica brazileira. VIII, Sobre as espécies brasileiras do gênero Tetrameres Creplin. 1846. Mem Inst Oswaldo Cruz 11: 71-79. (Acanthocephala-Oligacanthorhynchidae) from Brazil, Choanotaenia trapezoides (Fuhrmann, 1906) (Cestoda- Dilepididae) from British Guiana and Brazil, Parastrigea macrobursa Drago and Lunaschi, 2011 and Strigea proteolitica Drago, Lunaschi and Draghi, 2014DRAGO FB, LUNASCHI LI and DRAGHI R. 2014. Digenean fauna in raptors from northeastern Argentina, with the description of a new species of Strigea (Digenea: Strigeidae). Zootaxa 3785: 258-270. (Digenea, Strigeidae) from Argentina (Travassos 1917TRAVASSOS L. 1917. Contribuições para o conhecimento da fauna helmintolojica brazileira. Mem Inst Oswaldo Cruz 9(1): 5-62., Vevers 1923VEVERS GM. 1923. Some new and little known helminths from British Guiana. J Helminthol 1(1): 35-45., Dubois 1937DUBOIS G. 1937. Sur quelques Strigéidés (Notes préliminaires). Rev Suisse Zool 44(25): 391-396., Pinto et al. 1994PINTO RM, VICENTE JJ and NORONHA D. 1994. Nematode parasites of Brazilian accipitrid and falconid birds (Falconiformes). Mem Inst Oswaldo Cruz 89(3): 359-362., Drago and Lunaschi 2011DRAGO FB and LUNASCHI LI. 2011. A new species of Parastrigea (Digenea, Strigeidae) endoparasite of Buteogallus urubitinga (Aves, Accipitridae) from Argentina. Helminthologia 48(4): 256-261., Drago et al. 2014DRAGO FB, LUNASCHI LI and DRAGHI R. 2014. Digenean fauna in raptors from northeastern Argentina, with the description of a new species of Strigea (Digenea: Strigeidae). Zootaxa 3785: 258-270., Justo et al. 2017JUSTO MCN, FERNANDES BMM, KNOFF M, CÁRDENAS MQ and COHEN SC. 2017. Checklist of Brazilian Cestode. Neotrop Helminthol 11(1): 187-282.).

Among nematodes, several members of the family Tetrameridae Travassos, 1914TRAVASSOS L. 1914. Contribuições para o conhecimento da fauna helmintolojica brazileira. IV, Sobre as espécies brasileiras do gênero Tetrameres Creplin. 1846. Mem Inst Oswaldo Cruz 6: 150-162. are frequently found parasitizing birds. Chabaud (1975)CHABAUD AG. 1975. Keys to the genera of the order Spirurida. Part 2. Spiruroidea, Habronematoidea and Acuarioidea. In: Anderson C, Chabaud AG and Willmott S (Eds), CIH Keys to the nematode parasites of vertebrates. No. 3, Farnham Royal: R. Commonwealth Agricultural Bureaux, p. 29-58. recognized three subfamilies: Crassicaudinae Yorke and Maplestone, 1926; Geopetitinae Chabaud, 1951 and Tetramerinae Raillet, 1915. The subfamily Crassicaudinae contains two genera, Crassicauda Leiper and Atkinson, 1914 found in the urogenital system and the cranial pterygoid sinuses of cetaceans, and Placentonema Guvanov, 1951 reported in the placenta, uterus, mammary glands and subdermis of sperm whales (Hermosilla et al. 2015HERMOSILLA C, SILVA LMR, PRIETO R, KLEINERTZ S, TAUBERT A and SILVA MA. 2015. Endo- and ectoparasites of large whales (Cetartiodactyla: Balaenopteridae, Physeteridae): Overcoming difficulties in obtaining appropriate samples by non- and minimally-invasive methods. Int J Parasitol Parasites Wildl 4: 414-420., Keenan-Bateman et al. 2016KEENAN-BATEMAN TF et al. 2016. Prevalence and anatomic site of Crassicauda sp. infection, and its use in species identification, in kogiid whales from the mid-Atlantic United States‎. Mar Mammal Sci 32(3): 868-883.). The subfamily Geopetitinae contains only one genus, GeopetitiaChabaud, 1951CHABAUD AG. 1975. Keys to the genera of the order Spirurida. Part 2. Spiruroidea, Habronematoidea and Acuarioidea. In: Anderson C, Chabaud AG and Willmott S (Eds), CIH Keys to the nematode parasites of vertebrates. No. 3, Farnham Royal: R. Commonwealth Agricultural Bureaux, p. 29-58., found in capsules attached to the serosa of the oesophagus, proventriculus and gizzard from birds (Anderson 2000ANDERSON RC. 2000. Nematode Parasites of Vertebrates: Their Development and Transmission. 2nd ed., Wallingford, Oxford: CAB International, 650 p.). The subfamily Tetramerinae contains three genera, Microhadjelia Jogis, 1965, TetrameresCreplin, 1846CREPLIN ECH. 1846. Nachträge zu Gurlt’s Verzeichniss der Thiere, bei welchen Entozoen gefunden worden sind. Arch Natur Berlin 1: 129-160. and Microtetrameres (Travassos, 1915TRAVASSOS L. 1915. Sobre as especies brazileiras de genero Tetrameres Creplin. 1846 (Nota previa). Brazil Med 29: 297-298.).

The members of Microhadjelia are found in the digestive tract of passeriform birds. They are filiform worms, the females are totally coiled, while the males only have the posterior end coiled (Quentin and Wertheim 1975QUENTIN JC and WERTHEIM G. 1975. Helminthes d’Oiseaux et de Mammifères d’Israël V. Spirurides nouveaux ou peu connus. Ann Parasit Hum Comp 50(1): 63-85.). The members of Tetrameres and Microtetrameres are parasites of the proventriculus of birds. The females are typically embedded in the gastric glands, with the tails directed towards the lumen of the proventriculus. The filiform males are generally found on the mucosa, in the lumen of the proventriculus, or in the crypts (associated or not with females). The evidence suggests that males move about freely, to reach and fertilize the stationary females (Anderson 2000). The taxonomic status of genus Tetrameres is closely related to that of the genus Microtetrameres. These nematodes originally were grouped by Diesing (1835)DIESING KM. 1835. Tropisurus und Thysanosoma, zwey neue Gattungen von Binnenwürmern (Entozoen) aus Brasilien. Med Jahrb K K Österr Staates 7: 83-115. under the name Tropidurus, including species from Brazilian birds. Creplin (1846) renamed the genus as Tetrameres,because the name Tropidurus was preoccupied. Travassos (1915) separated the genus into two subgenera, Tetrameres and Microtetrameres. Cram (1927)CRAM EB. 1927. Bird parasites of the nematode suborders Strongylata, Ascaridata, and Spirurata. United States National Museum, Bulletin 140. Washington DC: United States Government Printing Office, 465 p. raises to generic category both subgenera based on female body form; globular or spindle-shaped in Tetrameres and with its longitudinal axis spirally coiled in Microtetrameres.

The genus Microtetrameres currently includes over 50 nominal species parasitic in birds worldwide (Mawson 1977MAWSON PM. 1977. The genus Microtetrameres Travassos (Nematoda, Spirurida) in Australian birds. Rec South Aust Mus 17(14): 239-259., Clark et al. 1979CLARK WC, BLACK H and RUTHERFORD DM. 1979. Microtetrameres nestoris n. sp. (Nematoda: Spirurida), a parasite of the North Island kaka, Nestor meridionalis septentrionalis (Aves: Psittaciformes). N Z J Zool 6: 1-5., Martínez Gómez et al. 1982MARTÍNEZ GÓMEZ F, NAVARRETE I and GUTIÉRREZ PALOMINO PN. 1982. Microtetrameres corderoi n. sp. (Nematoda: Spiruridae) parasito de la urraca Pica pica (Passeriformes: Corvidae). Rev Iber Parasitol 42(2): 133-142., Mahdy and El-Ghaysh 1998MAHDY OA and EL-GHAYSH A. 1998. Spiruroid parasites of buff backed heron (Ardeola ibis ibis) with a new species of Cordonema and Microtetrameres together with a key to the genera of Acuariidae (Seurat, 1915). J Egypt Ger Soc Zool (D. Invertebr Zool & Parasitol) 27: 73-89.).

The aim of this paper is to describe a new species of Microtetrameres obtained from the proventriculus of the great black-hawks, B. urubitinga, from northeastern Argentina.

The ZooBank Life Science Identifier (LSID) of this publication is: urn:lsid:zoobank.org:pub:0F813D24-C6EF-4D08-B26A-191924F8D143.

MATERIALS AND METHODS

Six specimens of B. urubitinga were collected between 2004 and 2012 at La Marcela farm (26°17’35”S, 59°08’38”W), Pirané, Formosa Province, Argentina, with authorization of Ministerio de la Producción y Ambiente, Dirección de Fauna y Parques of Formosa Province. The birds were captured with a shotgun and dissected in the field, the viscera preserved in 10% formalin and transported to the laboratory for examination. Nematodes were removed from the proventriculus and preserved in 70% alcohol. For examination, the males were cleared by immersion in glycerine-alcohol and the females in Amman’s lactophenol. Measurements are given in micrometres (μm) unless otherwise stated, as the range followed by mean in parentheses. Drawings were made with the aid of a drawing tube. The helminths were deposited in the Helminthological Collection of the Museo de La Plata (MLP–He) and the hosts in the Ornithological Collection of the Museo de La Plata (MLP–Or), La Plata, Argentina. Additionally, one specimen of Microtetrameres sp. stored in MLP–He was examined (MLP–He 6734).

RESULTS

MORPHOLOGICAL DESCRIPTION

Tetrameridae Travassos, 1914

Microtetrameres (Travassos, 1915)

Microtetrameres urubitinga n. sp. (Figs. 15, Table I, Table II)

TABLE I
Comparative data for males of Microtetrameres urubitinga n. sp. and South American Microtetrameres spp.
TABLE II
Comparative data for females of Microtetrameres urubitinga n. sp. and South American Microtetrameres spp.
Figure 1
Male of Microtetrameres urubitinga n. sp. (a) Entire worm. (b) Left spicule. (c) Right spicule. Scale bars: 100 μm.
Figure 2
Male of Microtetrameres urubitinga n. sp. (a) Detail of anterior end. (b) Detail of posterior end. Scale bars: 100 μm.
Figure 3
Female of Microtetrameres urubitinga n. sp. (a) Entire worm showing spiral coiling. (b) Gravid female. Scale bars: 300 μm.
Figure 4
Female of Microtetrameres urubitinga n. sp. (a) Detail of anterior end, scale bar: 50 μm. (b) Detail of posterior end, scale bar: 200 μm.
Figure 5
Eggs of Microtetrameres urubitinga n. sp. (a) Egg non-embryonated. (b) Egg embryonated containing first-stage larva. (c) Microphotograph of embryonated eggs in the uterus. Scale bars: 20 μm.

ZooBank Life Science Identifier (LSID) - urn:lsid:zoobank.org:act:40436225-3CC7-4CC1-A4C2-E613527FBB9C.

Diagnosis

Male (based on 4 entire worms and 3 damaged specimens): Whitish worms. Body elongated, tapering towards ends. Cuticle with fine transverse striations. Total length 2020–2540 (2354). Maximum width 60–71 (65). Buccal capsule cylindrical, moderately sclerotized, 19–24 (21) in depth and 5–7 (6) of inner diameter. Oesophagus 660–780 (712) long, muscular portion 250–280 (268), about 32–42% (38%) of oesophagus length and glandular portion 380–530 (445) long. Nerve ring at 124–180 (146) from the anterior end. Excretory pore not seen. Spicules unequal and dissimilar in shape. Right spicule slightly curved, 130–260 (189) long, with a simple tip. Left spicule thin, 770–1040 (953), 32–50% (41%) of body length, with a symmetrical bifurcated tip. Length ratio of spicules 1:3.8–5.9 (1:5.2). Cloacal lips highly protruded forming a tube. Two pairs precloacal papillae and two pairs postcloacal, all arranged asymmetrically. Tail ventrally curved forming a loop, 140–160 (150) long. (Figures 1, 2, Table I).

Female (based on 8 specimens): Red. Gravid specimens permanently coiled clockwise or counterclockwise in a spiral. Cuticle with fine transverse striations. Body without longitudinal furrows, 1285–2430 (1678) long by 743–1029 (885) wide in coiled position. Buccal capsule rounded, moderately sclerotized, 17–21 (19) in depth and 10–11 (10) of inner diameter. Oesophagus 770–1020 (885) long, muscular portion 160–210 (190), about 20–25% (22%) of oesophagus length and glandular portion 590–800 (673). Nerve ring at 119–220 (148) from the anterior end. Excretory pore not observed. Tail tapering gradually to a sharp point, with a cuticular fold, 161–240 (203) long. Vulva at 161–240 (203) from posterior end. Eggs elongate, with a thin eggshell, 1-1.5, near parallel sides, and without polar filaments. Young females with non-embryonated eggs. Fully gravid females with eggs containing fully developed larvae, 48–52 (49) long by 24 wide. (Figures 3-5, Table II).

TAXONOMIC SUMMARY

Type host: Buteogallus urubitinga (Gmelin) (Accipitridae), (great black-hawk).

Site of infection: Proventriculus. Females within the glands, males free in the lumen.

Type locality and collection date: La Marcela farm (26°17’35”S, 59°08’38”W), Pirané, Formosa Province, Argentina. 19 June 2012.

Prevalence and mean intensity: 1 of 6 birds examined (16.7%), females 80, males 22.

Specimens deposited: Holotype (male) MLP–He 7447; allotype (female) MLP–He 7448; paratypes MLP–He 7449; voucher specimens: MLP–He 7450.

Etymology: The new species is named after the specific name of the host.

REMARKS

In South America, only three species of Microtetrameres are known parasitizing Piciform and Passeriform birds from Brazil: Microtetrameres cruzi (Travassos, 1914) in Notharchus swainsoni (Gray) (as Bucco swainsoni)and Melanerpes flavifrons (Vieillot); Microtetrameres minima (Travassos, 1914) in Tachyphonus cristatus brunneus (Spix) and Passer domesticus (Linnaeus); and Microtetrameres pusilla (Travassos, 1915) in Turdus rufiventris Vieillot and Turdus flavipes (Vieillot) (as Platycichla flavipes) (Travassos 1914TRAVASSOS L. 1914. Contribuições para o conhecimento da fauna helmintolojica brazileira. IV, Sobre as espécies brasileiras do gênero Tetrameres Creplin. 1846. Mem Inst Oswaldo Cruz 6: 150-162., 1915, Brasil and Amato 1992BRASIL MC and AMATO SB. 1992. Análise faunística dos helmintos de pardais (Passer domesticus L., 1758) capturados em Campo Grande, Rio de Janeiro, RJ. Mem Inst Oswaldo Cruz 87(Supl. 1): 43-48.). Also, there are four reports of Microtetrameres sp. parasitizing Passeriform birds, Cyanocorax chrysops (Vieillot), Coryphospingus cucullatus (Müller) and Sturnus vulgaris Linnaeus from Argentina (Boero and Led 1968BOERO JJ and LED JE. 1968. El parasitismo de la fauna autóctona. III. Los parásitos de las aves argentinas. Rev Fac C Vet, La Plata 10: 97-129., Valente et al. 2014VALENTE R, IBAÑEZ LM, LORENTI E, FIORINI VD, MONTALTI D and DÍAZ JI. 2014. Helminth parasites of the European starling (Sturnus vulgaris) (Aves, Sturnidae), an invasive bird in Argentina. Parasitol Res 113: 2719-2724.), and P. domesticus from Peru (Sarmiento et al. 1999SARMIENTO L, TANTALEÁN M and HUIZA A.1999. Nemátodos parásitos del hombre y de los animales en el Perú. Rev Peru Parasitol 14(1-2): 9-65.).

Microtetrameres cruzi can be differentiated from M. urubitinga n. sp. by having shorter males, shorter right spicule, higher spicule length ratio, different distribution of caudal papillae (1 pair precloacal and 3 pairs postcloacal arranged symmetrically) and females with shorter tail without cuticular fold (Table I, II).

Microtetrameres minima can be distinguished from the new species by having shorter males, shorter right spicule, and higher ratio between spicules. Females differ from those of M. urubitinga n. sp. by being smaller and by having shorter tail and smaller eggs (Tables I, II).

Microtetrameres pusilla can be differentiated from M. urubitinga n. sp. by having longer males with longer left spicule, shorter right spicule, higher spicular ratio and different distribution of caudal papillae (two pairs precloacal, 1 pair adcloacal and 2 pairs postcloacal), and wider females with longitudinal furrows (Tables I, II).

The specimens of Microtetrameres sp. reported by Boero and Led (1968) in C. chrysops and C. cucullatus were not described; only a female and eggs were drawn without scale. Unfortunately, these specimens cannot be reviewed because no specimens were deposited at the appropriate time. The specimens of Microtetrameres sp. from S. vulgaris reported by Valente et al. (2014) were not described or drawn. The material deposited by these authors (MLP-He 6734) consists of a single immature female; therefore it is not possible to compare with our specimens. The specimens of Microtetrameres sp. from P. domesticus listed by Sarmiento et al. (1999) were not described or drawn.

In accipitrid birds, several species of Microtetrameres have been reported: Microtetrameres aquila Schell, 1953 in Aquila chrysaetos (Linnaeus) and Microtetrameres accipiter Schell, 1953 in Accipiter gentilis (Linnaeus) from USA; Microtetrameres paraccipiter Mawson, 1977 in Accipiter fasciatus (Vigors and Horsfield), Microtetrameres cerci Mawson, 1977 in Circus assimilis Jardine and Selby from Australia, Microtetrameres cloacitectus Oschmarin, 1956 in Buteo buteo (Linnaeus) from Eurasia, Microtetrameres creplini (Vavilova, 1926) in Accipiter nisus (Linnaeus) from Russia, Microtetrameres inermis (Linstow, 1879) parasitizing A. gentilis and A. nisus from Europe, also reported in other groups of birds from Asia and Africa (Cram 1927CRAM EB. 1927. Bird parasites of the nematode suborders Strongylata, Ascaridata, and Spirurata. United States National Museum, Bulletin 140. Washington DC: United States Government Printing Office, 465 p., Schell 1953SCHELL SC. 1953. Four New Species of Microtetrameres (Nematoda: Spiruroidea) from North American Birds. Trans Am Microsc Soc 72(3): 227-236., Yamaguti 1961YAMAGUTI S. 1961. Systema Helminthum, Vol. III. The Nematodes of Vertebrates, Part. I and II, New York & London: Interscience Publishers, 1261 p., Barus 1966BARUS VL. 1966. Parasitic nematodes of birds in Czechoslovakia I. Hosts: Columbiformes, Piciformes, Falconiformes and Strigiformes. Folia Parasit 13: 7-27., Mawson 1977MAWSON PM. 1977. The genus Microtetrameres Travassos (Nematoda, Spirurida) in Australian birds. Rec South Aust Mus 17(14): 239-259., Zhang et al. 2012ZHANG S, BU Y, HUANG G, WEN Q and ZHANG L. 2012. A checklist of parasitic nematodes (Nematoda) from birds (Aves) in China. Zootaxa 3446: 1-31., Komorová et al. 2017KOMOROVÁ P, SITKO J, ŠPAKULOVÁ M, HURNIKOVA Z, SAŁAMATIN R and CHOVANCOVÁ G. 2017. New data on helminth fauna of birds of prey (Falconiformes, Accipitriformes, Strigiformes) in the Slovak Republic. Helminthologia 54(1): 314-321.).

Microtetrameres aquila mainly differs from the new species by having larger males (3600–4300 x 90–100 vs. 2020–2540 x 60–71) and longer left spicule (1480–1800 vs. 770–1040) (Schell 1953).

Males of M. accipiter differ from those of M. urubitinga n. sp. by being larger (3600–4400 x 79–04 vs. 2020–2540 x 60–71), having longer left spicule (2030–2400 vs. 770–1040), shorter right spicule (100–105 vs. 130–260), and higher spicular ratio (19–24 vs. 4–6). The females mainly differ in having a cuticular ruffled longitudinal flange and smaller eggs (43 x 25 vs. 48–52 x 24) (Schell 1953).

Microtetrameres paraccipiter differs from the new species by having longer males (3400–3700 vs. 2020–2540), higher spicular ratio (18–20 vs. 4–6), longer left spicule (2000–2400 vs. 770–1040), shorter right spicule (110–120 vs. 130–260) and smaller eggs (44–46 vs. 48–52) (Mawson 1977).

Males of M. cerci can be mainly distinguished from those of M. urubitinga n. sp. by having an undivided tip of left spicule and a higher spicular ratio (10.4–16 vs. 4–6). The females are unknown (Mawson 1977).

Males of M. cloacitectus described by Barus (1966) mainly differ from those of M. urubitinga n. sp. by the number of caudal papillae (five pairs vs. four pairs), the morphology of left spicule (tip leaf-shaped vs. symmetrically bifurcated) and the presence of a tongue-shaped prominence close to cloaca. Also, females have shorter and wider eggs (42–46 x 26–29 vs. 48–52 x 24).

Males of M. creplini can be mainly distinguished from those of M. urubitinga n. sp. by having a higher spicular ratio (19 vs. 4–6) and by the number and distribution of caudal papillae (two symmetrical pairs and one unpaired precloacal papillae and two pairs of postcloacal papillae, the first symmetrically, and the second asymmetric arranged). The females are unknown.

Microtetrameres inermis differs from the new species by having males with longer left spicule (1187 vs. 770–1040), which tip is undivided, shorter right spicule (75 vs. 130–260), and by the number and distribution of caudal papillae (two pairs and one unpaired precloacal papillae, and two pairs postcloacal slightly asymmetrical) (Cram 1927).

Based on all these morphological and morphometrical differences, a new species Microtetrameres urubitinga n. sp. is proposed.

This is the first nominal species of Microtetrameres described from Argentina.

DISCUSSION

The known life cycle of Microtetrameres spp. involve grasshoppers and cockroaches, as experimental intermediate hosts and birds as natural definitive hosts (Anderson 2000ANDERSON RC. 2000. Nematode Parasites of Vertebrates: Their Development and Transmission. 2nd ed., Wallingford, Oxford: CAB International, 650 p.).

Cram (1934)CRAM EB. 1934. Orthopterans and pigeons as secondary and primary hosts, respectively for the crow stomach-worm Microtetrameres helix (Nematoda: Spiruridae) Proc Helminthol Soc Wash 1: 50. described the experimental life cycle of Microtetrameres helix Cram, 1927 from North America. This author gave embryonated eggs of this species, to earthworms, isopods, grasshoppers [Melanoplus bivittatus (Say) and Melanoplus femurrubrum (De Geer)] and a cockroach [Blattella germanica (Linnaeus)]. She obtained several infective third-stage larvae in the grasshoppers and only a single larva in the cockroach; while infections in annelids and isopods were negative.

Ellis (1969)ELLIS CJ. 1969. Life history of Microtetrameres centuri Barus, 1966 (Nematoda: Tetrameridae). I. Juveniles. J Nematol 1: 84-93. studied the life cycle of Microtetrameres centuri Barus, 1966 in USA. He obtained infective third-stage larvae in grasshopper nymphs (Melanoplus spp.) feed with embryonated eggs obtained from natural hosts, Sturnella neglecta Audubon and Sturnella magna (Linnaeus).

Bethel (1973)BETHEL WM. 1973. The life cycle and notes on the developmental stages of Microtetrameres corax Schell, 1953 (Nematoda: Tetrameridae). Proc Helminthol Soc Wash 40: 22-26. described the experimental life cycle of Microtetrameres corax Schell, 1953 in USA. He obtained infective third-stage larvae in grasshoppers (Melanoplus spp.) fed with embryonated eggs found in the natural host, Pica hudsonia (Sabine). However, the examination of grasshopper from natural environments revealed no infections with this nematode.

Quentin et al. (1986)QUENTIN JC, SEUREAU C and KULO SD. 1986. Cycle biologique de Tetrameres (Microtetrameres) inermis (Linstow, 1879) nématode Tetrameridae parasite du Tisserin Ploceus aurantius au Togo. Ann Parasit Hum Comp 61: 321-332. studied the life cycle of M. inermis from Togo, Africa. They obtained infective third-stage larvae in orthopterans[Metaxymecus patagiatus (Karsch) and Locusta migratoria Linnaeus]fed with embryonated eggs found in the natural host, Ploceus aurantius (Vieillot).

The diet of the great black-hawks consists mainly of vertebrates (reptiles, amphibians, birds and mammals), and in lesser extent large insects (Carvalho Filho et al. 2006CARVALHO FILHO EPM, CANUTO M and ZORZIN G. 2006. Biologia reprodutiva e dieta do gavião preto (Buteogallus u. urubitinga: Accipitridae) no sudeste do Brasil. Rev Bras Ornitol 14(4): 445-448.). The low prevalence of M. urubitinga (16.7%) in B. urubitinga would indicate the occasional ingestion of insects, which act as intermediate hosts.

Pathogenicity of Microtetrameres spp. is mainly related to mechanical effects caused by the location of the females in the proventricular glands. The poor physical appearance and loss of weight in the experimentally infected birds may have been due to their inability to compete for food and/or digest it (Bethel 1973)

The pathological effects of a few species of Microtetrameres are known, among them M. centuri and Microtetrameres nestoris Black and Rutherford, 1979 (Ellis 1970ELLIS CJ. 1970. Pathogenicity of Microtetrameres centuri Barus, 1966 (Nematoda: Tetrameridae) in meadowlark. J Nematol 2: 33-35., Bethel 1973BETHEL WM. 1973. The life cycle and notes on the developmental stages of Microtetrameres corax Schell, 1953 (Nematoda: Tetrameridae). Proc Helminthol Soc Wash 40: 22-26., Clark et al. 1979CLARK WC, BLACK H and RUTHERFORD DM. 1979. Microtetrameres nestoris n. sp. (Nematoda: Spirurida), a parasite of the North Island kaka, Nestor meridionalis septentrionalis (Aves: Psittaciformes). N Z J Zool 6: 1-5.). These authors detected glandular atrophy in the proventriculus but no marked inflammatory response, despite finding females with red blood cells in the intestine.

ACKNOWLEGMENTS

The authors express their gratitude to Luis Pagano by assistance in collecting the hosts. Mariano Dueñas Díaz is member of Consejo Interuniversitario Nacional (CIN). Fabiana Drago and Verónica Núñez are members of the Universidad Nacional de La Plata (UNLP) and Comisión de Investigaciones Científicas de la provincia de Buenos Aires (CIC). This study was funded by UNLP (11/N751) and CIC (Res. 597/16).

REFERENCES

  • ANDERSON RC. 2000. Nematode Parasites of Vertebrates: Their Development and Transmission. 2nd ed., Wallingford, Oxford: CAB International, 650 p.
  • BARUS VL. 1966. Parasitic nematodes of birds in Czechoslovakia I. Hosts: Columbiformes, Piciformes, Falconiformes and Strigiformes. Folia Parasit 13: 7-27.
  • BETHEL WM. 1973. The life cycle and notes on the developmental stages of Microtetrameres corax Schell, 1953 (Nematoda: Tetrameridae). Proc Helminthol Soc Wash 40: 22-26.
  • BOERO JJ and LED JE. 1968. El parasitismo de la fauna autóctona. III. Los parásitos de las aves argentinas. Rev Fac C Vet, La Plata 10: 97-129.
  • BRASIL MC and AMATO SB. 1992. Análise faunística dos helmintos de pardais (Passer domesticus L., 1758) capturados em Campo Grande, Rio de Janeiro, RJ. Mem Inst Oswaldo Cruz 87(Supl. 1): 43-48.
  • CARVALHO FILHO EPM, CANUTO M and ZORZIN G. 2006. Biologia reprodutiva e dieta do gavião preto (Buteogallus u. urubitinga: Accipitridae) no sudeste do Brasil. Rev Bras Ornitol 14(4): 445-448.
  • CHABAUD AG. 1975. Keys to the genera of the order Spirurida. Part 2. Spiruroidea, Habronematoidea and Acuarioidea. In: Anderson C, Chabaud AG and Willmott S (Eds), CIH Keys to the nematode parasites of vertebrates. No. 3, Farnham Royal: R. Commonwealth Agricultural Bureaux, p. 29-58.
  • CLARK WC, BLACK H and RUTHERFORD DM. 1979. Microtetrameres nestoris n. sp. (Nematoda: Spirurida), a parasite of the North Island kaka, Nestor meridionalis septentrionalis (Aves: Psittaciformes). N Z J Zool 6: 1-5.
  • CRAM EB. 1927. Bird parasites of the nematode suborders Strongylata, Ascaridata, and Spirurata. United States National Museum, Bulletin 140. Washington DC: United States Government Printing Office, 465 p.
  • CRAM EB. 1934. Orthopterans and pigeons as secondary and primary hosts, respectively for the crow stomach-worm Microtetrameres helix (Nematoda: Spiruridae) Proc Helminthol Soc Wash 1: 50.
  • CREPLIN ECH. 1846. Nachträge zu Gurlt’s Verzeichniss der Thiere, bei welchen Entozoen gefunden worden sind. Arch Natur Berlin 1: 129-160.
  • DIESING KM. 1835. Tropisurus und Thysanosoma, zwey neue Gattungen von Binnenwürmern (Entozoen) aus Brasilien. Med Jahrb K K Österr Staates 7: 83-115.
  • DRAGO FB and LUNASCHI LI. 2011. A new species of Parastrigea (Digenea, Strigeidae) endoparasite of Buteogallus urubitinga (Aves, Accipitridae) from Argentina. Helminthologia 48(4): 256-261.
  • DRAGO FB, LUNASCHI LI and DRAGHI R. 2014. Digenean fauna in raptors from northeastern Argentina, with the description of a new species of Strigea (Digenea: Strigeidae). Zootaxa 3785: 258-270.
  • DUBOIS G. 1937. Sur quelques Strigéidés (Notes préliminaires). Rev Suisse Zool 44(25): 391-396.
  • ELLIS CJ. 1969. Life history of Microtetrameres centuri Barus, 1966 (Nematoda: Tetrameridae). I. Juveniles. J Nematol 1: 84-93.
  • ELLIS CJ. 1970. Pathogenicity of Microtetrameres centuri Barus, 1966 (Nematoda: Tetrameridae) in meadowlark. J Nematol 2: 33-35.
  • HERMOSILLA C, SILVA LMR, PRIETO R, KLEINERTZ S, TAUBERT A and SILVA MA. 2015. Endo- and ectoparasites of large whales (Cetartiodactyla: Balaenopteridae, Physeteridae): Overcoming difficulties in obtaining appropriate samples by non- and minimally-invasive methods. Int J Parasitol Parasites Wildl 4: 414-420.
  • JUSTO MCN, FERNANDES BMM, KNOFF M, CÁRDENAS MQ and COHEN SC. 2017. Checklist of Brazilian Cestode. Neotrop Helminthol 11(1): 187-282.
  • KEENAN-BATEMAN TF et al. 2016. Prevalence and anatomic site of Crassicauda sp. infection, and its use in species identification, in kogiid whales from the mid-Atlantic United States‎. Mar Mammal Sci 32(3): 868-883.
  • KOMOROVÁ P, SITKO J, ŠPAKULOVÁ M, HURNIKOVA Z, SAŁAMATIN R and CHOVANCOVÁ G. 2017. New data on helminth fauna of birds of prey (Falconiformes, Accipitriformes, Strigiformes) in the Slovak Republic. Helminthologia 54(1): 314-321.
  • MAHDY OA and EL-GHAYSH A. 1998. Spiruroid parasites of buff backed heron (Ardeola ibis ibis) with a new species of Cordonema and Microtetrameres together with a key to the genera of Acuariidae (Seurat, 1915). J Egypt Ger Soc Zool (D. Invertebr Zool & Parasitol) 27: 73-89.
  • MARTÍNEZ GÓMEZ F, NAVARRETE I and GUTIÉRREZ PALOMINO PN. 1982. Microtetrameres corderoi n. sp. (Nematoda: Spiruridae) parasito de la urraca Pica pica (Passeriformes: Corvidae). Rev Iber Parasitol 42(2): 133-142.
  • MAWSON PM. 1977. The genus Microtetrameres Travassos (Nematoda, Spirurida) in Australian birds. Rec South Aust Mus 17(14): 239-259.
  • PINTO RM, VICENTE JJ and NORONHA D. 1994. Nematode parasites of Brazilian accipitrid and falconid birds (Falconiformes). Mem Inst Oswaldo Cruz 89(3): 359-362.
  • QUENTIN JC, SEUREAU C and KULO SD. 1986. Cycle biologique de Tetrameres (Microtetrameres) inermis (Linstow, 1879) nématode Tetrameridae parasite du Tisserin Ploceus aurantius au Togo. Ann Parasit Hum Comp 61: 321-332.
  • QUENTIN JC and WERTHEIM G. 1975. Helminthes d’Oiseaux et de Mammifères d’Israël V. Spirurides nouveaux ou peu connus. Ann Parasit Hum Comp 50(1): 63-85.
  • SARMIENTO L, TANTALEÁN M and HUIZA A.1999. Nemátodos parásitos del hombre y de los animales en el Perú. Rev Peru Parasitol 14(1-2): 9-65.
  • SCHELL SC. 1953. Four New Species of Microtetrameres (Nematoda: Spiruroidea) from North American Birds. Trans Am Microsc Soc 72(3): 227-236.
  • THIOLLAY JM. 1994. Family Accipitridae. In: Del Hoyo J, Elliott A and Sargatal J (Eds), Handbook of the Birds of the World. Vol. 2, Barcelona: Lynx Edicions, p. 52-205.
  • TRAVASSOS L. 1914. Contribuições para o conhecimento da fauna helmintolojica brazileira. IV, Sobre as espécies brasileiras do gênero Tetrameres Creplin. 1846. Mem Inst Oswaldo Cruz 6: 150-162.
  • TRAVASSOS L. 1915. Sobre as especies brazileiras de genero Tetrameres Creplin. 1846 (Nota previa). Brazil Med 29: 297-298.
  • TRAVASSOS L. 1917. Contribuições para o conhecimento da fauna helmintolojica brazileira. Mem Inst Oswaldo Cruz 9(1): 5-62.
  • TRAVASSOS L. 1919. Contribuições para o conhecimento da fauna helmintolojica brazileira. VIII, Sobre as espécies brasileiras do gênero Tetrameres Creplin. 1846. Mem Inst Oswaldo Cruz 11: 71-79.
  • VALENTE R, IBAÑEZ LM, LORENTI E, FIORINI VD, MONTALTI D and DÍAZ JI. 2014. Helminth parasites of the European starling (Sturnus vulgaris) (Aves, Sturnidae), an invasive bird in Argentina. Parasitol Res 113: 2719-2724.
  • VEVERS GM. 1923. Some new and little known helminths from British Guiana. J Helminthol 1(1): 35-45.
  • YAMAGUTI S. 1961. Systema Helminthum, Vol. III. The Nematodes of Vertebrates, Part. I and II, New York & London: Interscience Publishers, 1261 p.
  • ZHANG S, BU Y, HUANG G, WEN Q and ZHANG L. 2012. A checklist of parasitic nematodes (Nematoda) from birds (Aves) in China. Zootaxa 3446: 1-31.

Publication Dates

  • Publication in this collection
    Sept 2018

History

  • Received
    27 Nov 2017
  • Accepted
    26 Mar 2018
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