Biases in the metabarcoding of plant pathogens using rust fungi as a model system

Makiola, Andreas; Dickie, Ian A.; Holdaway, Robert J.; Wood, Jamie R.; Orwin, Kate H.; Lee, Charles K.; Glare, Travis R.

doi:10.1002/mbo3.780

Cited by 17 publications

(13 citation statements)

References 63 publications

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“…For instance, Erysiphe necator, the causal agent of grapevine powdery mildew, was significantly more abundant in conventional than in organic plots. These results are consistent with visual assessments of disease symptoms, indicating that, despite their numerous biases, metabarcoding data do contain some quantitative information useful for monitoring plant disease development (Sapkota et al, 2015;Jakuschkin et al, 2016;Makiola et al, 2018). Several yeast strains, assigned to the genera Vishniacozyma, Sporobolomyces and Filobasidium, were significantly more abundant in organic plots.…”

Section: Discussionsupporting

confidence: 78%

Inferred microbial networks lack replicability: consequences for next-generation biomonitoring

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Delière

et al. 2019

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Microbial interaction networks support many ecosystem services, including the regulation of crop diseases. One of the current challenges is automatically reconstructing these networks from metabarcoding data and monitoring their responses to environmental change. Here, we evaluated the ability of network inference methods to detect changes in crop-associated microbial networks. We used grapevine as a model plant system and assessed the impact of vineyard management (conventional versus organic) on the alpha-and beta-diversity of the fungal communities of grapevine leaves. We also inferred replicated networks of fungal associations, to compare network alpha-and beta-properties between management systems and to generate hypotheses concerning fungus-fungus interactions. We found that the richness, diversity and evenness of fungal communities were significantly higher in organic plots, and that community composition differed between management systems. Erysiphe necator, the causal agent of grapevine powdery mildew, was significantly more abundant in conventional plots, consistent with visual records of disease symptoms, whereas several yeast species were significantly more abundant in organic plots. Vineyard management also had a significant impact on the beta-properties of fungal association networks, but the high turnover of associations between plots precluded the generation of robust hypotheses concerning interactions between fungal taxa, casting doubts on the relationship between microbial association networks and plant health. Network inference methods therefore require improvement and validation before use in the next-generation biomonitoring of disease control services provided by the crop microbiota. As things stand, community-level data appear to be a more reliable and statistically powerful option than network-level data for monitoring the ecosystem services provided by the plant microbiota.

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Section: Discussionsupporting

confidence: 78%

Inferred microbial networks lack replicability: consequences for next-generation biomonitoring

Pauvert

Vallance

Delière

et al. 2019

Preprint

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“…It is worth noting that the composition of the protist community in female and male alates did not differ significantly, a general result that allowed us to estimate α values of protists based on their frequency among the 14 alates (seven females and seven males) studied per colony. Overall, our analyses suggested that α values have been underestimated because of the detection limit of metabarcoding (Coissac, Riaz, & Puillandre, ; Hatzenbuhler, Kelly, Martinson, Okum, & Pilgrim, ; Makiola et al, ; Port et al, ). Results of qPCR demonstrated the presence of TgA in workers from colonies in which our deep sequencing approach of the 18S rRNA gene did not allow detection of a single read assigned to this protist species in the pool of worker guts.…”

Section: Discussionmentioning

confidence: 82%

Efficient but occasionally imperfect vertical transmission of gut mutualistic protists in a wood‐feeding termite

et al. 2019

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Although mutualistic associations between animals and microbial symbionts are widespread in nature, the mechanisms that have promoted their evolutionary persistence remain poorly understood. A vertical mode of symbiont transmission (from parents to offspring) is thought to ensure partner fidelity and stabilization, although the efficiency of vertical transmission has rarely been investigated, especially in cases where hosts harbour a diverse microbial community. Here we evaluated vertical transmission rates of cellulolytic gut oxymonad and parabasalid protists in the wood‐feeding termite Reticulitermes grassei. We sequenced amplicons of the 18S rRNA gene of protists from 24 colonies of R. grassei collected in two populations. For each colony, the protist community was characterized from the gut of 14 swarming reproductives and from a pool of 10 worker guts. A total of 98 operational taxonomic units belonging to 13 species‐level taxa were found. The vertical transmission rate was estimated for each protist present in a colony based on its frequency among the reproductives. The results revealed that transmission rates were high, with an average of 0.897 (±0.164) per protist species. Overall, the protist community did not differ between reproductive sexes, suggesting that both the queen and the king could contribute to the gut microbiota of the offspring. A positive relationship between the transmission rate of protists and their prevalence within populations was also detected. However, transmission rates alone do not explain the prevalence of protists. In conclusion, these findings reveal key forces behind a conserved, multispecies mutualism, raising further questions on the roles of horizontal transfer and negative selection in shaping symbiont prevalence.

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“…Such pathogens often remain largely concealed until the next disease outbreak. However, these pathogens can be detected using DNA‐based approaches such as metabarcoding (Makiola et al, ; Merges, Bálint, Schmitt, Böhning‐Gaese, & Neuschulz, ). Hence, DNA‐based approaches allow a holistic picture of potential plant pathogen communities.…”

Section: Introductionmentioning

confidence: 99%

Land use is a determinant of plant pathogen alpha‐ but not beta‐diversity

et al. 2019

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Little is known about the diversity patterns of plant pathogens and how they change with land use at a broad scale. We employed DNA metabarcoding to describe the diversity and composition of putative plant pathogen communities in three substrates (soil, roots, and leaves) across five major land uses at a national scale. Almost all plant pathogen communities (fungi, oomycetes, and bacteria) showed strong responses to land use and substrate type. Land use category could explain up to 24% of the variance in composition between communities. Alpha‐diversity (richness) of plant pathogens was consistently lower in natural forests than in agricultural systems. In planted forests, there was also generally low pathogen alpha‐diversity in soil and roots, but alpha‐diversity in leaves was high compared with most other land uses. In contrast to alpha‐diversity, differences in within‐land use beta‐diversity of plant pathogens (the predictability of plant pathogen communities within land use) were subtle. Our results show that large‐scale patterns and distributions of putative plant pathogens can be determined using metabarcoding, allowing some of the first landscape level insights into these critically important communities.

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Biases in the metabarcoding of plant pathogens using rust fungi as a model system

Cited by 17 publications

References 63 publications

Inferred microbial networks lack replicability: consequences for next-generation biomonitoring

Inferred microbial networks lack replicability: consequences for next-generation biomonitoring

Efficient but occasionally imperfect vertical transmission of gut mutualistic protists in a wood‐feeding termite

Land use is a determinant of plant pathogen alpha‐ but not beta‐diversity

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