Different meal, same flavor: cospeciation and host switching of haemosporidian parasites in some non-passerine birds

Santiago‐Alarcon, Diego; Rodríguez-Ferraro, Adriana; Parker, Patricia G.; Ricklefs, Robert E.

doi:10.1186/1756-3305-7-286

Cited by 38 publications

(21 citation statements)

References 74 publications

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“…; Santiago‐Alarcon et al . ; Choi & Thines ). Studies of parasite population genetic structure can inform how speciation via host‐switching unfolds.…”

Section: Introductionmentioning

confidence: 99%

Population structure of a vector‐borne plant parasite

et al. 2016

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Parasites are among the most diverse groups of life on Earth, yet complex natural histories often preclude studies of their speciation processes. The biology of parasitic plants facilitates in situ collection of data on both genetic structure and the mechanisms responsible for that structure. Here, we studied the role of mating, dispersal and establishment in host race formation of a parasitic plant. We investigated the population genetics of a vector-borne desert mistletoe (Phoradendron californicum) across two legume host tree species (Senegalia greggii and Prosopis velutina) in the Sonoran desert using microsatellites. Consistent with host race formation, we found strong host-associated genetic structure in sympatry, little genetic variation due to geographic site and weak isolation by distance. We hypothesize that genetic differentiation results from differences in the timing of mistletoe flowering by host species, as we found initial flowering date of individual mistletoes correlated with genetic ancestry. Hybrids with intermediate ancestry were detected genetically. Individuals likely resulting from recent, successful establishment events following dispersal between the host species were detected at frequencies similar to hybrids between host races. Therefore, barriers to gene flow between the host races may have been stronger at mating than at dispersal. We also found higher inbreeding and within-host individual relatedness values for mistletoes on the more rare and isolated host species (S. greggii). Our study spanned spatial scales to address how interactions with both vectors and hosts influence parasitic plant structure with implications for parasite virulence evolution and speciation.

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“…; Santiago‐Alarcon et al . ; Choi & Thines ). Studies of parasite population genetic structure can inform how speciation via host‐switching unfolds.…”

Section: Introductionmentioning

confidence: 99%

Population structure of a vector‐borne plant parasite

et al. 2016

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“…Merino et al 2000;Marzal et al 2005;Palinauskas et al 2008). Although parasitologists long believed that avian haemosporidian parasites were host specific (Bennett et al 1993(Bennett et al , 1994, recent studies have shown that avian haemosporidian parasites have an evolutionary history of host switching with little codivergence (Bensch et al 2000;Ricklefs et al 2004;Santiago-Alarcon et al 2014). Haemosporidians are mainly transmitted by five families of Diptera: Culicidae, Hippoboscidae, Simuliidae, Ceratopogonidae and Psychodidae (Valkiūnas 2005;SantiagoAlarcon et al 2012b).…”

Section: Introductionmentioning

confidence: 99%

Avian haemosporidian parasites in an urban forest and their relationship to bird size and abundance

et al. 2015

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Urbanization has been identified as a threat to biodiversity due to landscape modifications. Studies of parasite ecology in urbanized areas lagged behind those made on macro organisms. Here we studied infection prevalence of haemosporidian parasites in an avian community of an urban forest from Germany, and its relationship with bird abundance and body mass. We used PCR to amplify a fragment of the mtDNA cyt b gene to determine the infection status of birds, and bird point counts to determine bird relative abundances. The avifauna was dominated by two small sized insectivore passerines (Parus major, Cyanistes caeruleus), representing~40 % of the total bird records. The highest haemosporidian prevalence was recorded for Turdus philomelos (100 %) and for Fringilla coelebs (75 %). Bird abundance and body mass were positively associated with infection status for two haemosporidian genera: Plasmodium and Leucocytozoon. Infection rate was lower in juveniles compared to adult birds. We recorded a total of 7 Plasmodium, 26 Haemoproteus, and 10 Leucocytozoon lineages. Avian malaria (P. relictum) was detected infecting 5 individuals of P. major, the most abundant species in the community. These results, together with those of previous studies at the same site, suggest that potentially any of the genetic haemosporidian lineages detected in this urban forest can be transmitted across native and pet bird species, and to species of conservation concern housed at aviaries. Urban Ecosyst

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“…cytochrome b | evolution | phylogeny | Nycteris H aemosporidia blood parasites (phylum Apicomplexa) are vector-borne protozoan parasites that infect multiple vertebrate hosts such as squamates, chelonians, birds, and mammals, including humans, in which five species of the genus Plasmodium are known to cause malaria (1,2). The diversity of Haemosporidia has been mostly investigated using mitochondrial genes.…”

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confidence: 99%

Highly rearranged mitochondrial genome in Nycteria parasites (Haemosporidia) from bats

Karadjian

Hassanin

Saintpierre

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Haemosporidia parasites have mostly and abundantly been described using mitochondrial genes, and in particular cytochrome b (cytb). Failure to amplify the mitochondrial cytb gene of Nycteria parasites isolated from Nycteridae bats has been recently reported. Bats are hosts to a diverse and profuse array of Haemosporidia parasites that remain largely unstudied. There is a need to obtain more molecular data from chiropteran parasites. Such data would help to better understand the evolutionary history of Haemosporidia, which notably include the Plasmodium parasites, malaria’s agents. We use next-generation sequencing to obtain the complete mitochondrial genome of Nycteria parasites from African Nycteris grandis (Nycteridae) and Rhinolophus alcyone (Rhinolophidae) and Asian Megaderma spasma (Megadermatidae). We report four complete mitochondrial genomes, including two rearranged mitochondrial genomes within Haemosporidia. Our results open outlooks into potentially undiscovered Haemosporidian diversity.

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Different meal, same flavor: cospeciation and host switching of haemosporidian parasites in some non-passerine birds

Cited by 38 publications

References 74 publications

Population structure of a vector‐borne plant parasite

Population structure of a vector‐borne plant parasite

Avian haemosporidian parasites in an urban forest and their relationship to bird size and abundance

Highly rearranged mitochondrial genome in Nycteria parasites (Haemosporidia) from bats

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