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. 2019 Jul 24;7(1):108.
doi: 10.1186/s40168-019-0723-5.

Seeds of native alpine plants host unique microbial communities embedded in cross-kingdom networks

Birgit Wassermann  1 Tomislav Cernava  1 Henry Müller  1 Christian Berg  2 Gabriele Berg  3
Affiliations

Seeds of native alpine plants host unique microbial communities embedded in cross-kingdom networks

Birgit Wassermann et al. Microbiome. .

Abstract

Background: The plant microbiota is crucial for plant health and growth. Recently, vertical transmission of a beneficial core microbiota was identified for crop seeds, but for native plants, complementary mechanisms are almost completely unknown.

Methods: We studied the seeds of eight native plant species growing together for centuries under the same environmental conditions in Alpine meadows (Austria) by qPCR, FISH-CLSM, and amplicon sequencing targeting bacteria, archaea, and fungi.

Results: Bacteria and fungi were determined with approx. 1010 gene copy numbers g-1 seed as abundant inhabitants. Archaea, which were newly discovered as seed endophytes, are less and represent only 1.1% of the signatures. The seed microbiome was highly diversified, and all seeds showed a species-specific, highly unique microbial signature, sharing an exceptionally small core microbiome. The plant genotype (species) was clearly identified as the main driver, while different life cycles (annual/perennial) had less impact on the microbiota composition, and fruit morphology (capsule/achene) had no significant impact. A network analysis revealed significant co-occurrence patterns for bacteria and archaea, contrasting with an independent fungal network that was dominated by mutual exclusions.

Conclusions: These novel insights into the native seed microbiome contribute to a deeper understanding of seed microbial diversity and phytopathological processes for plant health, and beyond that for ecosystem plasticity and diversification within plant-specific microbiota.

Keywords: Seed microbiota; cross-kingdom networks; endophytes; native plants; plant resilience.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

Fig. 1
Fig. 1
Micrographs of alpine plant seeds (including achenes). a Whole seed visualization shows the high morphological diversity of the alpine plant seeds investigated, from left to right and top to bottom: S. lucida, E. rostkoviana, A. major, P. palustris, G. asclepiadea, H. quadrifida, R. glacialis, and G. germanica. Scale bars in a indicate 0.5 mm. b FISH-Confocal laser scanning micrographs visualize endophytic fungi (indicated by green arrows) and bacteria (yellow arrows) in P. palustris and G. asclepiadea seeds. Scale bars in b indicate 10 μm
Fig. 2
Fig. 2
Microbial gene copy numbers in alpine plant seeds determined by qPCR. Values are given by primers targeting bacterial and archaeal 16S rRNA gene and fungal ITS region in seeds of the eight different alpine plants. Gene copy numbers are calculated per gram seeds used for the microbiome analysis. The table describes the prokaryote to eukaryote ratio within the total microbial gene copies detected in the seeds of the respective plant genotype. Total microbial gene copies can be looked up in Additional file 1: Table S1
Fig. 3
Fig. 3
Beta-diversity analysis calculating microbiome composition dependencies on either categorical variable. PCoA plots are based on weighted UniFraq distance matrix for bacterial community (a) and on Bray-Curtis dissimilarities for the fungal community (b) of seed microbiomes. Bacterial and fungal composition of the samples are grouped by plant genotype, plant’s life cycle, and the fruit type. Color codes are explained in the legends below
Fig. 4
Fig. 4
Co-occurrence and mutual exclusion relationships among seed-associated microbiota of alpine plants. Network was prepared by combining taxonomic assignment to OTUs on species level of 16S rRNA and ITS amplicon dataset. Only significant interactions are shown (q ≥ 0.0004). Color of nodes represent the three taxonomic groups (blue: bacteria, yellow: fungi, pink: archaea), and the size of nodes is proportional to the abundance of the taxon. Color of edges indicates the type of the interaction (green: positive or co-occurrence, red: negative or mutual exclusion), and the edge width is proportional to the significance. Taxonomy for high-abundant taxa is included
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