scholarly journals Multiple host use and the dynamics of host switching in host–parasite systems

2019 ◽  
Vol 12 (6) ◽  
pp. 511-522 ◽  
Author(s):  
Thomas Hovestadt ◽  
Jeremy A. Thomas ◽  
Oliver Mitesser ◽  
Karsten Schönrogge
Keyword(s):  
Host Switching ◽  
Host Use ◽  
Host Parasite

scholarly journals Tracking host use by bat ectoparasites with stable isotope analysis

2016 ◽  
Vol 94 (5) ◽  
pp. 353-360 ◽  
Author(s):  
Ulalume Hernández-Arciga ◽  
L. Gerardo Herrera M. ◽  
Juan B. Morales-Malacara
Keyword(s):  
Stable Isotope ◽  
Isotope Analysis ◽  
Enrichment Factors ◽  
Host Switching ◽  
Host Use ◽  
Higher Ed ◽  
The Difference ◽  
Anoura Geoffroyi ◽  
Leptonycteris Yerbabuenae ◽  
Host Parasite

We used C and N stable isotopes of nectarivorous bats and their ectoparasites to determine the extent to which parasites depend on the host individual for food. The difference in stable isotope values between parasites and host tissues (Δ13C and Δ15N) was used as a proxy of host use. First, we tested the hypothesis that movement among individual Mexican long-tongued bats (Choeronycteris mexicana Tschudi, 1844) is more likely to occur in winged flies than in mites as indicated by higher host–parasite isotopic Euclidian distance (ED). Second, we tested the hypothesis that ectoparasite species in two coexisting bat species representing the C3 (Geoffroy’s tailless bat, Anoura geoffroyi Gray, 1838) and the CAM (lesser long-nosed bat, Leptonycteris yerbabuenae Martínez and Villa-R., 1940) food chains were monoxenous as indicated by their isotopic values. We also examined Δ13C and Δ15N of individual parasites in relation to 13C and 15N reference enrichment factors as an indication of host switching. In general, flies in C. mexicana had higher ED and wider ranges of individual Δ13C and Δ15N than mites, suggesting that host switching occurred to a larger extent. Most ectoparasites species collected in both coexisting bats were monoxenous, but one fly species appears to be oligoxenous. Individual Δ13C and Δ15N values varied widely in these parasite species, suggesting movements within species hosts.

Host–parasite co-evolution

2021 ◽  
pp. 389-416
Author(s):  
Paul Schmid-Hempel
Keyword(s):  
Meiotic Recombination ◽  
Evolutionary Process ◽  
Host Switching ◽  
Response To Selection ◽  
Red Queen ◽  
Arms Races ◽  
Migration Rates ◽  
Frequency Changes ◽  
Host Parasite ◽  
Relative Migration

Macroevolutionary patterns concern phylogenies of hosts and their parasites. From those, co-speciation occurs; but host switching is a common evolutionary process and more likely when hosts are close phylogenetically and geographical ranges overlap. Microevolutionary processes refer to allele frequency changes within population. In arms races, traits of hosts and parasites evolve in one direction in response to selection by the other party. With selective sweeps, advantageous alleles rapidly spread in host or parasite population and can become fixed. With antagonistic negative frequency-dependent fluctuations (Red Queen dynamics) genetic polymorphism in populations can be maintained, even through speciation events. A Red Queen co-evolutionary process can favour sexual over asexual reproduction and maintain meiotic recombination despite its other disadvantages (two-fold cost of sex). Local adaptation of host and parasites exist in various combinations; the relative migration rates of the two parties, embedded in a geographical mosaic, are important for this process.

scholarly journals Patterns of host use by brood parasitic Maculinea butterflies across Europe

2019 ◽  
Vol 374 (1769) ◽  
pp. 20180202 ◽  
Author(s):  
András Tartally ◽  
Jeremy A. Thomas ◽  
Christian Anton ◽  
Emilio Balletto ◽  
Francesca Barbero ◽  
...  
Keyword(s):  
Brood Parasitism ◽  
Geographical Variation ◽  
Host Switching ◽  
Host Use ◽  
Theme Issue ◽  
Geographic Mosaic ◽  
New Host ◽  
Brood Parasites ◽  
Comprehensive Survey ◽  
Maculinea Butterflies

The range of hosts exploited by a parasite is determined by several factors, including host availability, infectivity and exploitability. Each of these can be the target of natural selection on both host and parasite, which will determine the local outcome of interactions, and potentially lead to coevolution. However, geographical variation in host use and specificity has rarely been investigated. Maculinea (= Phengaris ) butterflies are brood parasites of Myrmica ants that are patchily distributed across the Palæarctic and have been studied extensively in Europe. Here, we review the published records of ant host use by the European Maculinea species, as well as providing new host ant records for more than 100 sites across Europe. This comprehensive survey demonstrates that while all but one of the Myrmica species found on Maculinea sites have been recorded as hosts, the most common is often disproportionately highly exploited. Host sharing and host switching are both relatively common, but there is evidence of specialization at many sites, which varies among Maculinea species. We show that most Maculinea display the features expected for coevolution to occur in a geographic mosaic, which has probably allowed these rare butterflies to persist in Europe. This article is part of the theme issue ‘The coevolutionary biology of brood parasitism: from mechanism to pattern’.

Analysis of parasite host-switching: limitations on the use of phylogenies

Parasitology ◽  
1999 ◽  
Vol 119 (S1) ◽  
pp. S111-S123 ◽  
Author(s):  
J. A. Jackson
Keyword(s):  
Host Species ◽  
Host Tree ◽  
Host Switching ◽  
Environmental Constraints ◽  
Important Process ◽  
Potential Host ◽  
Historical Reconstructions ◽  
History Of ◽  
Host Parasite ◽  
Parasite Assemblages

SUMMARYEven the most generalist parasites usually occur in only a subset of potential host species, a tendency which reflects overriding environmental constraints on their distributions in nature. The periodic shifting of these limitations represented by host-switches may have been an important process in the evolution of many host-parasite assemblages. To study such events, however, it must first be established where and when they have occurred. Past host-switches within a group of parasites are usually inferred from a comparison of the parasite phylogeny with that of the hosts. Congruence between the phylogenies is often attributed to a history of association by descent with cospeciation, and incongruence to host-switching or extinction in ‘duplicated’ parasite lineages (which diverged without a corresponding branching of the host tree). The inference of host-switching from incongrucnt patterns is discussed. Difficulties arise because incongruence can frequently be explained by different combinations of biologically distinct events whose relative probabilities are uncertain. Also, the models of host parasite relationships implicit in historical reconstructions may often not allow for plausible sources of incongruence other than host-switching or duplication/extinction, or for the possibility that colonization could, in some circumstances, be disguised by ‘false’ congruence.

Life cycles, molecular phylogeny and historical biogeography of the ‘pygmaeus’ microphallids (Digenea: Microphallidae): widespread parasites of marine and coastal birds in the Holarctic

Parasitology ◽  
2012 ◽  
Vol 139 (10) ◽  
pp. 1346-1360 ◽  
Author(s):  
KIRILL V. GALAKTIONOV ◽  
ISABEL BLASCO-COSTA ◽  
PETER D. OLSON
Keyword(s):  
Life Cycles ◽  
The Arctic ◽  
Host Switching ◽  
Glacial Cycles ◽  
Related Group ◽  
Coastal Birds ◽  
Host Life ◽  
Host Parasite ◽  
Its1 And Its2 Rdna ◽  
Its1 And Its2

SUMMARYThe ‘pygmaeus’ microphallids (MPG) are a closely related group of 6 digenean (Platyhelminthes: Trematoda) Microphallus species that share a derived 2-host life cycle in which metacercariae develop inside daughter sporocysts in the intermediate host (intertidal and subtidal gastropods, mostly of the genus Littorina) and are infective to marine birds (ducks, gulls and waders). Here we investigate MPG transmission patterns in coastal ecosystems and their diversification with respect to historical events, host switching and host-parasite co-evolution. Species phylogenies and phylogeographical reconstructions are estimated on the basis of 28S, ITS1 and ITS2 rDNA data and we use a combination of analyses to test the robustness and stability of the results, and the likelihood of alternative biogeographical scenarios. Results demonstrate that speciation within the MPG was not associated with co-speciation with either the first intermediate or final hosts, but rather by host-switching events coincident with glacial cycles in the Northern Hemisphere during the late Pliocene/Pleistocene. These resulted in the expansion of Pacific biota into the Arctic-North Atlantic and periodic isolation of Atlantic and Pacific populations. Thus we hypothesize that contemporary species of MPG and their host associations resulted from fragmentation of populations in regional refugia during stadials, and their subsequent range expansion from refugial centres during interstadials.

scholarly journals Three new red algal parasites from New Zealand: Cladhymenia oblongifoliaphila sp. nov. (Rhodomelaceae), Phycodrys novae-zelandiaephila sp. nov. (Delesseriaceae) and Judithia parasitica sp. nov. (Kallymeniaceae)

2020 ◽  
Author(s):  
Maren Preuss ◽  
Giuseppe Zuccarello
Keyword(s):  
New Zealand ◽  
Host Switching ◽  
Patchy Distribution ◽  
Free Living ◽  
Mitochondrial Markers ◽  
Reproductive Structures ◽  
Phylogenetic Studies ◽  
Red Algal ◽  
Plastid Markers ◽  
Host Parasite

2018 International Phycological Society There are over 120 species of red algal parasites (Florideophyceae) but they are often overlooked due to their small size and patchy distribution. Red algal parasites have mostly been described as independent genera but recent phylogenetic studies have shown that parasites are related to free-living relatives, often their hosts, and have been named in these genera to maintain monophyly. We investigated the morphology, distribution and phylogeny, using diverse molecular markers (mitochondrial, nuclear, plastid), of three new red algal parasites in New Zealand. We describe the parasites using morphological and anatomical observations and estimate their distribution by surveying herbarium vouchers. Analyses of reproductive structures and molecular phylogenies indicate that the closest relative of the parasite Phycodrys novae-zelandiaephila sp. nov. is its host, Phycodrys novae-zelandiae. Based on nuclear and mitochondrial markers, the closest relative of the parasite Cladhymenia oblongifoliaphila sp. nov. is its host Cladhymenia oblongifolia but plastid markers group it with Cladhymenia lyallii, suggesting that this species was a past host and the source of parasite plastids. The parasite Judithia parasitica sp. nov. groups with Judithia delicatissima but infects Blastophyllis spp., suggesting that this parasite evolved as a free-living or parasitic Judithia species, and host switching may have occurred. This study adds to our knowledge of New Zealand red algal parasites and highlights contrasting patterns of host–parasite relationships.

Phylogeny Inferred From Allozymes in the Heterodoxus-Octoseriatus Group of Species (Phthiraptera, Boopiidae)

1992 ◽  
Vol 40 (4) ◽  
pp. 411 ◽  
Author(s):  
SC Barker ◽  
DA Briscoe ◽  
RL Close
Keyword(s):  
Phylogenetic Relationships ◽  
Morphological Characters ◽  
Host Switching ◽  
Phenetic Analysis ◽  
Geographic Ranges ◽  
History Of ◽  
Group A ◽  
Cladistic Analyses ◽  
Allozyme Loci ◽  
Host Parasite

Phenetic and phylogenetic relationships in the Heterodoxus octoseriatus group of species were explored with data from 21 putative allozyme loci. The phenetic analyses and some of the cladistic analyses (maximum parsimony) were consistent with a phenetic analysis of morphological characters in that they indicated two main lines of evolution in the H. octoseriatus group. These culminated in two groups of species: (i) H. harrisoni, H. hughendensis, H. closei, H. maynesi, H. octoseriatus, H. lesouefi, H. briscoei and H. insulatus, and (ii) H. murrayi, H. insularis and H. orarius. The allozyme and morphological analyses, however, differed in the arrangement of species within the two main groups. Other cladistic analyses revealed the first group of lice, but not the second group. A hypothesis proposed for the evolution of the H. octoseriatus group involves widespread host-switching followed by the expansion of the geographic ranges of some lice at the expense of others. The evolution of host-parasite associations among rock-wallabies and lice from the H. octoseriatus group demonstrates how tangled the history of host-parasite associations may become.

Parasite evolutionary events inferred from host phylogeny: the case of Labeo species (Teleostei, Cyprinidae) and their dactylogyrid parasites (Monogenea, Dactylogyridae)

1991 ◽  
Vol 69 (3) ◽  
pp. 595-603 ◽  
Author(s):  
Jean-François Guégan ◽  
Jean-François Agnèse
Keyword(s):  
Parallel Evolution ◽  
West African ◽  
Sister Species ◽  
Host Switching ◽  
Morphometric Features ◽  
Ecological Relationship ◽  
Host Phylogeny ◽  
Gill Parasites ◽  
Host Parasite

Independent phylogenies of West African Labeo (Teleostei, Cyprinidae) and their gill parasites of the genus Dactylogyrus (Monogenea, Dactylogyridae) are proposed. The phylogeny of Labeo is based on allele characters, whereas the phylogeny of the parasites is based on morphometric features. The comparison of host and parasite phylogenies did not correlate completely with predictions made by using Fahrenholz's rule. Parasites encountered on L. coubie and L. senegalensis seem to have evolved in parallel with their host, or by sequential colonizations between these two related hosts. Whatever the host–parasite evolutionary events between L. coubie and L. senegalensis and their specific dactylogyrids, two hypotheses of host switching on L. parvus and L. roseopunctatus are probable, reflecting a close ecological relationship between the various host taxa. Dactylogyrus brevicirrus and D. nathaliae, found on the gills of L. parvus and L. roseopunctatus, respectively, are each the sister-species of a living parasite on L. coubie. The notions of parallel evolution (or coevolution in a broader sense) and host switching with speciation are discussed. Finally, Fahrenholz's rule is analyzed as a forecasting tool that can be used in systematics.

scholarly journals Three new red algal parasites from New Zealand: Cladhymenia oblongifoliaphila sp. nov. (Rhodomelaceae), Phycodrys novae-zelandiaephila sp. nov. (Delesseriaceae) and Judithia parasitica sp. nov. (Kallymeniaceae)

2020 ◽  
Author(s):  
Maren Preuss ◽  
Giuseppe Zuccarello
Keyword(s):  
New Zealand ◽  
Host Switching ◽  
Patchy Distribution ◽  
Free Living ◽  
Mitochondrial Markers ◽  
Reproductive Structures ◽  
Phylogenetic Studies ◽  
Red Algal ◽  
Plastid Markers ◽  
Host Parasite

2018 International Phycological Society There are over 120 species of red algal parasites (Florideophyceae) but they are often overlooked due to their small size and patchy distribution. Red algal parasites have mostly been described as independent genera but recent phylogenetic studies have shown that parasites are related to free-living relatives, often their hosts, and have been named in these genera to maintain monophyly. We investigated the morphology, distribution and phylogeny, using diverse molecular markers (mitochondrial, nuclear, plastid), of three new red algal parasites in New Zealand. We describe the parasites using morphological and anatomical observations and estimate their distribution by surveying herbarium vouchers. Analyses of reproductive structures and molecular phylogenies indicate that the closest relative of the parasite Phycodrys novae-zelandiaephila sp. nov. is its host, Phycodrys novae-zelandiae. Based on nuclear and mitochondrial markers, the closest relative of the parasite Cladhymenia oblongifoliaphila sp. nov. is its host Cladhymenia oblongifolia but plastid markers group it with Cladhymenia lyallii, suggesting that this species was a past host and the source of parasite plastids. The parasite Judithia parasitica sp. nov. groups with Judithia delicatissima but infects Blastophyllis spp., suggesting that this parasite evolved as a free-living or parasitic Judithia species, and host switching may have occurred. This study adds to our knowledge of New Zealand red algal parasites and highlights contrasting patterns of host–parasite relationships.

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