Gut Microbiota in Decapod Shrimps: Evidence of Phylosymbiosis

Yuanyuan Tang¹, Ka Yan Ma^{1

2}, Man Kit Cheung³, Chien-Hui Yang⁴, Yaqin Wang¹, Xuelei Hu^{1

5}, Hoi Shan Kwan⁶, Ka Hou Chu^{7

8}

Affiliations

¹ Simon F.S. Li Marine Science Laboratory, School of Life Sciences, The Chinese University of Hong Kong, Hong Kong, SAR, China.
² School of Ecology, Sun Yat-sen University, Guangzhou, China.
³ Department of Surgery, The Chinese University of Hong Kong, Hong Kong, SAR, China.
⁴ Institute of Marine Biology, National Taiwan Ocean University, Keelung, Taiwan.
⁵ School of Biology and Food Engineering, Guangdong University of Education, Guangzhou, China.
⁶ Food Research Centre, School of Life Sciences, The Chinese University of Hong Kong, Hong Kong, SAR, China.
⁷ Simon F.S. Li Marine Science Laboratory, School of Life Sciences, The Chinese University of Hong Kong, Hong Kong, SAR, China. kahouchu@cuhk.edu.hk.
⁸ Hong Kong Branch of Southern Marine Science and Technology Guangdong Laboratory (Guangzhou), Hong Kong, SAR, China. kahouchu@cuhk.edu.hk.

PMID: 33629169
DOI: 10.1007/s00248-021-01720-z

Gut Microbiota in Decapod Shrimps: Evidence of Phylosymbiosis

Yuanyuan Tang et al. Microb Ecol. 2021 Nov.

. 2021 Nov;82(4):994-1007.

doi: 10.1007/s00248-021-01720-z. Epub 2021 Feb 24.

Authors

Yuanyuan Tang¹, Ka Yan Ma^{1

2}, Man Kit Cheung³, Chien-Hui Yang⁴, Yaqin Wang¹, Xuelei Hu^{1

5}, Hoi Shan Kwan⁶, Ka Hou Chu^{7

8}

Affiliations

¹ Simon F.S. Li Marine Science Laboratory, School of Life Sciences, The Chinese University of Hong Kong, Hong Kong, SAR, China.
² School of Ecology, Sun Yat-sen University, Guangzhou, China.
³ Department of Surgery, The Chinese University of Hong Kong, Hong Kong, SAR, China.
⁴ Institute of Marine Biology, National Taiwan Ocean University, Keelung, Taiwan.
⁵ School of Biology and Food Engineering, Guangdong University of Education, Guangzhou, China.
⁶ Food Research Centre, School of Life Sciences, The Chinese University of Hong Kong, Hong Kong, SAR, China.
⁷ Simon F.S. Li Marine Science Laboratory, School of Life Sciences, The Chinese University of Hong Kong, Hong Kong, SAR, China. kahouchu@cuhk.edu.hk.
⁸ Hong Kong Branch of Southern Marine Science and Technology Guangdong Laboratory (Guangzhou), Hong Kong, SAR, China. kahouchu@cuhk.edu.hk.

PMID: 33629169
DOI: 10.1007/s00248-021-01720-z

Erratum in

Correction to: Gut Microbiota in Decapod Shrimps: Evidence of Phylosymbiosis.
Tang Y, Ma KY, Cheung MK, Yang CH, Wang Y, Hu X, Kwan HS, Chu KH. Tang Y, et al. Microb Ecol. 2021 Nov;82(4):1008. doi: 10.1007/s00248-021-01825-5. Microb Ecol. 2021. PMID: 34417850 No abstract available.

Abstract

Gut microbiota have long attracted the interest of scientists due to their profound impact on the well-being of animals. A non-random pattern of microbial assembly that results in a parallelism between host phylogeny and microbial similarity is described as phylosymbiosis. Phylosymbiosis has been consistently observed in different clades of animal hosts, but there have been no studies on crustaceans. In this study, we investigated whether host phylogeny has an impact on the gut microbiota assemblages in decapod shrimps. We examined the gut microbial communities in 20 shrimp species from three families inhabiting distinct environments, using metabarcoding analyses of the V1-V3 hypervariable region of the 16S rRNA gene. Gut microbial communities varied within each shrimp group but were generally dominated by Proteobacteria. A prevalent phylosymbiotic pattern in shrimps was evidenced for the first time by the observations of (1) the distinguishability of microbial communities among species within each group, (2) a significantly lower intraspecific than interspecific gut microbial beta diversity across shrimp groups, (3) topological congruence between host phylogenetic trees and gut microbiota dendrograms, and (4) a correlation between host genetic distances and microbial dissimilarities. Consistent signals of phylosymbiosis were observed across all groups in dendrograms based on the unweighted UniFrac distances at 99% operational taxonomic units (OTUs) level and in Mantel tests based on the weighted UniFrac distances based on 97% OTUs and amplicon sequence variants. Penaeids exhibited phylosymbiosis in most tests, while phylosymbiotic signals in atyids and pandalids were only detected in fewer than half of the tests. A weak phylogenetic signal was detected in the predicted functions of the penaeid gut microbiota. However, the functional diversities of the two caridean groups were not significantly related to host phylogeny. Our observations of a parallelism in the taxonomy of the gut microbiota with host phylogeny for all shrimp groups examined and in the predicted functions for the penaeid shrimps indicate a tight host-microbial relationship during evolution.

Keywords: Decapoda; Gut; Microbiota; Phylosymbiosis.

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Gut Microbiota in Decapod Shrimps: Evidence of Phylosymbiosis

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Gut Microbiota in Decapod Shrimps: Evidence of Phylosymbiosis

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