Françoise D. Messu Mandeng scite author profile

In diet metabarcoding analyses, insufficient taxonomic coverage of PCR primer sets generates false negatives that may dramatically distort biodiversity estimates. In this paper, we investigated the taxonomic coverage and complementarity of three cytochrome c oxidase subunit I gene (COI) primer sets based on in silico analyses and we conducted an in vivo evaluation using fecal and spider web samples from different invertivores, environments, and geographic locations. Our results underline the lack of predictability of both the coverage and complementarity of individual primer sets: (a) sharp discrepancies exist observed between in silico and in vivo analyses (to the detriment of in silico analyses); (b) both coverage and complementarity depend greatly on the predator and on the taxonomic level at which preys are considered; (c) primer sets’ complementarity is the greatest at fine taxonomic levels (molecular operational taxonomic units [MOTUs] and variants). We then formalized the “one‐locus‐several‐primer‐sets” (OLSP) strategy, that is, the use of several primer sets that target the same locus (here the first part of the COI gene) and the same group of taxa (here invertebrates). The proximal aim of the OLSP strategy is to minimize false negatives by increasing total coverage through multiple primer sets. We illustrate that the OLSP strategy is especially relevant from this perspective since distinct variants within the same MOTUs were not equally detected across all primer sets. Furthermore, the OLSP strategy produces largely overlapping and comparable sequences, which cannot be achieved when targeting different loci. This facilitates the use of haplotypic diversity information contained within metabarcoding datasets, for example, for phylogeography and finer analyses of prey–predator interactions.

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A phylogeny of Cichlidogyrus spp. (Monogenea, Dactylogyridea) clarifies a host-switch between fish families and reveals an adaptive component to attachment organ morphology of this parasite genus

Mandeng

Bilong

Pariselle

et al. 2015

Parasites Vectors

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BackgroundParasite switches to new host species are of fundamental scientific interest and may be considered an important speciation mechanism. For numerous monogenean fish parasites, infecting different hosts is associated with morphological adaptations, in particular of the attachment organ (haptor). However, haptoral morphology in Cichlidogyrus spp. (Monogenea, Dactylogyridea), parasites of African cichlids, has been mainly linked to phylogenetic rather than to host constraints. Here we determined the position of Cichlidogyrus amieti, a parasite of species of Aphyosemion (Cyprinodontiformes, Nothobranchiidae) in the phylogeny of its congeners in order to infer its origin and assess the morphological changes associated with host-switching events.MethodsThe DNA of specimens of C. amieti isolated from Aphyosemion cameronense in Cameroon was sequenced and analyzed together with that of Cichlidogyrus spp. from cichlid hosts. In order to highlight the influence of the lateral transfer of C. amieti on the haptoral sclerotised parts we performed a Principal Component Analysis (PCA) to compare the attachment organ structure of C. amieti to that of congeners infecting cichlids.ResultsCichlidogyrus amieti was found to be nested within a strongly supported clade of species described from Hemichromis spp. (i.e. C. longicirrus and C. dracolemma). This clade is located at a derived position of the tree, suggesting that C. amieti transferred from cichlids to Cyprinodontiformes and not inversely. The morphological similarity between features of their copulatory organs suggested that C. amieti shares a recent ancestor with C. dracolemma. It also indicates that in this case, these organs do not seem subjected to strong divergent selection pressure. On the other hand, there are substantial differences in haptoral morphology between C. amieti and all of its closely related congeners described from Hemichromis spp..ConclusionsOur study provides new evidence supporting the hypothesis of the adaptive nature of haptor morphology. It demonstrates this adaptive component for the first time within Cichlidogyrus, the attachment organs of which were usually considered to be mainly phylogenetically constrained.

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Spatial distribution of monogenean gill parasites of Parachanna obscura (Günther, 1861) – Channidae – in Lake Ossa (Edéa, Cameroon)

Nack¹,

Mandeng²,

Yede³

et al. 2018

Int. J. Bio. Chem. Sci

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Parasites are a danger for fish even more in natural environment than in farming conditions. Knowledge of their biology of is important for prevention. The objective of this study was to investigate the distribution of monogenean gill community of Parachanna obscura (Pisces, Channidae). Monogenean species were identified using the morphology of haptoral and genital sclerotized parts. Appropriate statistical tests were used to compare prevalence and intensity of parasites. In Lake Ossa (south Cameroon), P. obscura individuals were in relatively good condition (K = 1,4±0,15) although they were infected by five monogenean species (Eutrianchoratus magnus, E. minutus, E. imbachi, E. chibami and E. malleus). Male and female fish harbor similar parasite intensity. There was not statistical difference in the infection patterns of different host sizes, although big or old fish seemed to accumulate parasites over time. The distribution of helminthes on the gills did not revealed host side preference. There is no evidence of competition between species of Eutrianchoratus in their distribution areas, but the filaments of different gill arches exert a progressive (antero-posterior) sifting effect on the infecting larvae. This study proves once again that in natural environment parasite intensities are very low or low and this state minimizes competition between monogeneans species.

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