Seven of 28 passerine birds that died in captivity were positive for malarial parasites by polymerase chain reaction targeting the mitochondrial cytochrome b (cytB) and apicoplast ribosomal RNA (rRNA) genes. Each bird was infected with a single parasite lineage having a unique genotype. Apicoplast rRNA sequences were present both in Haemoproteus spp. and Plasmodium spp. and had typically high adenosine + thymidine content. Phylogenies for cytB and apicoplast rRNA sequences were largely congruent and supported previous studies that suggest that Plasmodium–Haemoproteus spp. underwent synchronous speciation with their avian hosts, interrupted by sporadic episodes of host switching. Apicoplast phylogeny further indicated that Haemoproteus spp. are ancestral to Plasmodium spp. All the 7 infected passerine birds had histologic lesions of malaria, and malarial parasites may have contributed to the death of at least 4 animals. These findings provide new genetic data on passerine hematozoa, including initial sequences of apicoplast DNA, and emphasize the relevance of parasite prevalence, evolutionary relationships, and host switching to modern management and husbandry practices of captive birds.
MOLECULAR CHARACTERIZATION OF MALARIAL PARASITES IN CAPTIVE PASSERINE BIRDS
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Mark D. Schrenzel, Gabriel A. Maalouf, Laura L. Keener, Patricia M. Gaffney; MOLECULAR CHARACTERIZATION OF MALARIAL PARASITES IN CAPTIVE PASSERINE BIRDS. J Parasitol 1 October 2003; 89 (5): 1025–1033. doi: https://doi.org/10.1645/GE-3163
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