Redescription of Babesia ardeae Toumanoff, 1940, a parasite of Ardeidae, including molecular characterization.

Among the actual 16 identified and thought to be valid avian piroplasm species, certain parasites are only known from their original description with no subsequent report. Babesia ardeae Toumanoff, 1940 is one of them. It was described from a single sacrificed gray heron (Ardea cinerea) from Vietnam and had never been reported since this date despite inhabiting a very common avian host. The present study reports the accidental rediscovery of B. ardeae from an injured wild gray heron rescued in Singapore. This report confirms the existence of this parasite species in the gray heron from Southeast Asia, highlights the similarities with the original description, provides additional morphologic and morphometric data, and designates neotype material for B. ardeae. Additionally, the report also furnishes the first molecular data about B. ardeae with the amplification and sequencing of the near-full-length 18S rRNA gene sequence and its comparison with the other available sequences of avian piroplasms. Phylogenetic analysis based on this gene was performed to study the relationship of B. ardeae with the other piroplasms from mammals and birds and indicated that B. ardeae appears as a brother group of a clade formed by several avian piroplasm species isolated from seabirds, altogether clustering in a well-supported clade related to the "Babesia duncani group" and protothelerids. Scarcity of this parasite is discussed as well as its taxonomy in relation to the conundrum about the systematics of piroplasms.

The haemosporidian parasites of bats with description of Sprattiella alecto gen. nov., sp. nov.

Four species of Haemoproteidae were found in Pteropus alecto Temminck, 1837 in Queensland, Australia: i) Johnsprentia copemani, Landau et al., 2012; ii) Sprattiella alecto gen. nov., sp. nov., characterised by schizonts in the renal vessels; iii) Hepatocystis levinei, Landau et al., 1985, originally described from Pteropus poliocephalus Temminck, 1825 and, experimentally from Culicoides nubeculosus and found in this new host and for which features of the hepatic schizonts are reported; iv) gametocytes of Hepatocystis sp. which are illustrated but cannot be assigned to a known species. A tentative interpretation of phylogenetic characters of haemosporidians of bats is provided from the morphology of the gametocytes and localisation of the tissue stages with respect to recent data on the phylogeny of bats.

Ultrastructure of erythrocytic stages of avian Plasmodium spp. of the sub-genus Novyella and its "globule".

A globule frequently refractory, appearing blue, pale blue, or white with Giemsa stain, is characteristic of the intraerythrocytic stages of the type species and of most of the other species included at present in the subgenus Novyella. This globule is absent from the other Plasmodium sub-genera. An ultrastructural study has been performed on schizogonic stages of Plasmodium merulae from the blood of the blackbird, Turdus merula. In section the globule contains a finely granular substance suggesting a condensed or coagulated substance. It differs distinctly from a classical food vacuole by denser contents, and show in some sections (19, 23) a peripheral opaque rim with a radial arrangement of ribosomes. Except for the presence of the globule, in other details P. merulae do not diverge from the ultrastructure common to the intraerythrocytic stages of avian Plasmodium.

The sub-genera of avian Plasmodium.

The study of the morphology of a species of Plasmodium is difficult because these organisms have relatively few characters. The size of the schizont, for example, which is easy to assess is important at the specific level but is not always of great phylogenetic significance. Factors reflecting the parasite's metabolism provide more important evidence. Thus the position of the parasite within the host red cell (attachment to the host nucleus or its membrane, at one end or aligned with it) has been shown to be constant for a given species. Another structure of essential significance that is often ignored is a globule, usually refringent in nature, that was first decribed in Plasmodium vaoughani Novy & MacNeal, 1904 and that we consider to be characteristic of the subgenus Novyella. Species without this structure, previously classified in this sub-genus, are now included in the new sub-genus Papernaia n. sg.

Malarial infections in sedentary and migratory passerine birds in Israel: description of new species.

Our objective was to investigate the diversity of Plasmodium species in birds of the Rift Valley section in Israel. Plasmodium merulae Corradetti & Scanga, 1973 was previously reported in blackbirds (Turdus merula Linnaeus, 1758), that are resident. We also report and describe three other species and seven new species of Plasmodium from migratory birds in the north, and from Eilat at the southernmost tip of the Jordan Valley. New species are: Plasmodium lusciniae sp. n., Plasmodium alloreticulatus sp. n. and Plasmodium paranuclearis sp. n. from Luscinia svecica (Linnaeus, 1758), Plasmodium phoenicuri sp. n., Plasmodium reticulatus sp. n. and Plasmodium synnuclearis sp. n. from Phoenicurus phoenicurus (Linnaeus, 1758), and Plasmodium bilobatus sp. n. from Acrocephalus schoenobaenus (Linnaeus, 1758). The morphological affinities among the new described species and between P merulae and Plasmodium vaughani Novy & MacNeal, 1904 are highlighted and discussed. The host birds belong to two families: Muscicapidae (Turdus merula, Luscinia svecica and Phoenicurus phoenicurus) and Sylviidae (Acrocephalus schoenobaenus). All the parasites species are affiliated to the so-called "vaughani complex" (Corradetti & Scanga 1973) which are small parasites that possess a characteristic refractile globule in their cytoplasm.

[Probable speciations by "host-vector 'fidelity'": 14 species of Plasmodium from magpies]. / Fidélisation du couple hôte-vecteur facteur probable de spéciation: 14 espèces de Plasmodium de la Pie.

33 Magpies resident in two parks close to Paris were investigated for the presence of Plasmodium parasites. The majority of the birds were found to be infected with multiple parasite species. A total of 14 species were observed, and of these 10 were novel and consequently described, and two could not be assigned with confidence. It is hypothesized that the unexpected abundance of species is due to a phenomenon which we term "host-vector 'fidelisation'". Indeed, the combination of the eco-biological characteristics of the host (mating pairs in contiguous, but strictly defined territories) with those of the vector (numerous Aedes species with distinct behavior), would generate fragmentation of the niches. This type of isolation overlays others known for parasitic populations (geographical, circadian, microlocalisations), leading to the formation of independent host-parasite niches which in turn lead to speciation.