Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size

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Standard

Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size. / Kaur, Jaspreet; Harder, Christoffer B.; Sharma, Jyotsna.

I: American Journal of Botany, Bind 110, Nr. 5, e16168, 2023.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Kaur, J, Harder, CB & Sharma, J 2023, 'Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size', American Journal of Botany, bind 110, nr. 5, e16168. https://doi.org/10.1002/ajb2.16168

APA

Kaur, J., Harder, C. B., & Sharma, J. (2023). Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size. American Journal of Botany, 110(5), [e16168]. https://doi.org/10.1002/ajb2.16168

Vancouver

Kaur J, Harder CB, Sharma J. Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size. American Journal of Botany. 2023;110(5). e16168. https://doi.org/10.1002/ajb2.16168

Author

Kaur, Jaspreet ; Harder, Christoffer B. ; Sharma, Jyotsna. / Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size. I: American Journal of Botany. 2023 ; Bind 110, Nr. 5.

Bibtex

@article{1822fb600ba6415683d009c50b6d10db,
title = "Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size",
abstract = "Premise: Besides the beneficial plant-fungus symbiosis in mycorrhizal plants, bacteria also enhance plant fitness via tripartite interactions. While bacterial associations are presumably just as important for the obligate mycorrhizal family Orchidaceae, little is known about orchid associating bacteria (OAB). Methods: We examined the OAB communities of two, congeneric, terrestrial orchids, Platanthera cooperi and Platanthera praeclara, which represent widely disparate North American ecosystems. We tested whether they recruit distinct OAB communities, and whether variability in OAB communities can be linked to phenology, population size, or habitat soil. Genomic DNAs from roots of seedling, vegetative, and reproductive plants and from soil were subjected to Illumina sequencing of V4 and V5 regions of the 16S rRNA gene. Results: We obtained 809 OAB Zero-radius Operational Taxonomic Units (ZOTUs). Despite an overlap of 209 ZOTUs that accounted for >75% relative abundances of their respective OAB communities, the overall community structures of the two orchids were distinct. Within each orchid, distinctions were detected in the OAB communities of large and small populations and the three phenological stages. The OAB ZOTUs were either absent or present with low abundances in soil associated with both orchids. Conclusions: The two orchids exhibited preferential recruitment of known growth-promoting OAB communities from soil. Their OAB communities also showed considerable overlap despite the large environmental and geographical separation of the two host taxa. Our results lend further support to the emerging evidence that not only the fungi, but root-associated bacteria also have functional importance for orchid ecology.",
keywords = "Bacteria, orchids, phenology, Platanthera cooperi, Platanthera praeclara, population size, roots, soil",
author = "Jaspreet Kaur and Harder, {Christoffer B.} and Jyotsna Sharma",
note = "Publisher Copyright: {\textcopyright} 2023 Botanical Society of America.",
year = "2023",
doi = "10.1002/ajb2.16168",
language = "English",
volume = "110",
journal = "American Journal of Botany",
issn = "0002-9122",
publisher = "Botanical Society of America, Inc. (Columbus) Business Office",
number = "5",

}

RIS

TY - JOUR

T1 - Congeneric temperate orchids recruit similar—yet differentially abundant—endophytic bacterial communities that are uncoupled from soil, but linked to host phenology and population size

AU - Kaur, Jaspreet

AU - Harder, Christoffer B.

AU - Sharma, Jyotsna

N1 - Publisher Copyright: © 2023 Botanical Society of America.

PY - 2023

Y1 - 2023

N2 - Premise: Besides the beneficial plant-fungus symbiosis in mycorrhizal plants, bacteria also enhance plant fitness via tripartite interactions. While bacterial associations are presumably just as important for the obligate mycorrhizal family Orchidaceae, little is known about orchid associating bacteria (OAB). Methods: We examined the OAB communities of two, congeneric, terrestrial orchids, Platanthera cooperi and Platanthera praeclara, which represent widely disparate North American ecosystems. We tested whether they recruit distinct OAB communities, and whether variability in OAB communities can be linked to phenology, population size, or habitat soil. Genomic DNAs from roots of seedling, vegetative, and reproductive plants and from soil were subjected to Illumina sequencing of V4 and V5 regions of the 16S rRNA gene. Results: We obtained 809 OAB Zero-radius Operational Taxonomic Units (ZOTUs). Despite an overlap of 209 ZOTUs that accounted for >75% relative abundances of their respective OAB communities, the overall community structures of the two orchids were distinct. Within each orchid, distinctions were detected in the OAB communities of large and small populations and the three phenological stages. The OAB ZOTUs were either absent or present with low abundances in soil associated with both orchids. Conclusions: The two orchids exhibited preferential recruitment of known growth-promoting OAB communities from soil. Their OAB communities also showed considerable overlap despite the large environmental and geographical separation of the two host taxa. Our results lend further support to the emerging evidence that not only the fungi, but root-associated bacteria also have functional importance for orchid ecology.

AB - Premise: Besides the beneficial plant-fungus symbiosis in mycorrhizal plants, bacteria also enhance plant fitness via tripartite interactions. While bacterial associations are presumably just as important for the obligate mycorrhizal family Orchidaceae, little is known about orchid associating bacteria (OAB). Methods: We examined the OAB communities of two, congeneric, terrestrial orchids, Platanthera cooperi and Platanthera praeclara, which represent widely disparate North American ecosystems. We tested whether they recruit distinct OAB communities, and whether variability in OAB communities can be linked to phenology, population size, or habitat soil. Genomic DNAs from roots of seedling, vegetative, and reproductive plants and from soil were subjected to Illumina sequencing of V4 and V5 regions of the 16S rRNA gene. Results: We obtained 809 OAB Zero-radius Operational Taxonomic Units (ZOTUs). Despite an overlap of 209 ZOTUs that accounted for >75% relative abundances of their respective OAB communities, the overall community structures of the two orchids were distinct. Within each orchid, distinctions were detected in the OAB communities of large and small populations and the three phenological stages. The OAB ZOTUs were either absent or present with low abundances in soil associated with both orchids. Conclusions: The two orchids exhibited preferential recruitment of known growth-promoting OAB communities from soil. Their OAB communities also showed considerable overlap despite the large environmental and geographical separation of the two host taxa. Our results lend further support to the emerging evidence that not only the fungi, but root-associated bacteria also have functional importance for orchid ecology.

KW - Bacteria

KW - orchids

KW - phenology

KW - Platanthera cooperi

KW - Platanthera praeclara

KW - population size

KW - roots

KW - soil

U2 - 10.1002/ajb2.16168

DO - 10.1002/ajb2.16168

M3 - Journal article

C2 - 37052191

AN - SCOPUS:85159204816

VL - 110

JO - American Journal of Botany

JF - American Journal of Botany

SN - 0002-9122

IS - 5

M1 - e16168

ER -

ID: 352933091