The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits

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Standard

The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits. / Würth, David G.; Dahl, Mathilde Borg; Trouillier, Mario; Wilmking, Martin; Unterseher, Martin; Scholler, Markus; Sørensen, Søren; Mortensen, Martin; Schnittler, Martin.

I: Fungal Ecology, Bind 41, 2019, s. 177-186.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Würth, DG, Dahl, MB, Trouillier, M, Wilmking, M, Unterseher, M, Scholler, M, Sørensen, S, Mortensen, M & Schnittler, M 2019, 'The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits', Fungal Ecology, bind 41, s. 177-186. https://doi.org/10.1016/j.funeco.2019.05.006

APA

Würth, D. G., Dahl, M. B., Trouillier, M., Wilmking, M., Unterseher, M., Scholler, M., Sørensen, S., Mortensen, M., & Schnittler, M. (2019). The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits. Fungal Ecology, 41, 177-186. https://doi.org/10.1016/j.funeco.2019.05.006

Vancouver

Würth DG, Dahl MB, Trouillier M, Wilmking M, Unterseher M, Scholler M o.a. The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits. Fungal Ecology. 2019;41:177-186. https://doi.org/10.1016/j.funeco.2019.05.006

Author

Würth, David G. ; Dahl, Mathilde Borg ; Trouillier, Mario ; Wilmking, Martin ; Unterseher, Martin ; Scholler, Markus ; Sørensen, Søren ; Mortensen, Martin ; Schnittler, Martin. / The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits. I: Fungal Ecology. 2019 ; Bind 41. s. 177-186.

Bibtex

@article{c8d8df046f124da394b34e6326538586,
title = "The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits",
abstract = "Fungi play a crucial role in terrestrial Arctic ecosystems as symbionts of vascular plants and nutrient recyclers in soil, with many species persistently or temporarily inhabiting the phyllosphere of the vegetation. In this study we apply high-throughput sequencing to investigate the mycobiome of 172 samples of fresh (current year) and aged (3 year old) needles of Picea glauca from three sites over a distance of 500 km in Alaska (USA). We analysed Illumina-generated ITS2 sequences to relate mycobiome data with phenotypic tree traits, measures of genetic variation and climate variables obtained from long-term monitoring of the sites. Alpha-diversity declined with increasing environmental stress/climate harshness. Fungal communities differed in richness and taxonomic composition between sites, with a pronounced difference in the relative abundance of OTUs assigned to species of the rust genus Chrysomyxa, plant pathogens which seem to have been in an outbreak at two sites at the time of sampling. Beside climate parameters, needle age was the second strongest explanatory variable of the mycobiome composition, whereas we found no effect of tree genetic variation, indicating that environmental and tree trait specific variables mainly determined individual white spruce mycobiomes at Alaska's treelines.",
author = "W{\"u}rth, {David G.} and Dahl, {Mathilde Borg} and Mario Trouillier and Martin Wilmking and Martin Unterseher and Markus Scholler and S{\o}ren S{\o}rensen and Martin Mortensen and Martin Schnittler",
year = "2019",
doi = "10.1016/j.funeco.2019.05.006",
language = "English",
volume = "41",
pages = "177--186",
journal = "Fungal Ecology",
issn = "1754-5048",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - The needle mycobiome of Picea glauca – A dynamic system reflecting surrounding environment and tree phenological traits

AU - Würth, David G.

AU - Dahl, Mathilde Borg

AU - Trouillier, Mario

AU - Wilmking, Martin

AU - Unterseher, Martin

AU - Scholler, Markus

AU - Sørensen, Søren

AU - Mortensen, Martin

AU - Schnittler, Martin

PY - 2019

Y1 - 2019

N2 - Fungi play a crucial role in terrestrial Arctic ecosystems as symbionts of vascular plants and nutrient recyclers in soil, with many species persistently or temporarily inhabiting the phyllosphere of the vegetation. In this study we apply high-throughput sequencing to investigate the mycobiome of 172 samples of fresh (current year) and aged (3 year old) needles of Picea glauca from three sites over a distance of 500 km in Alaska (USA). We analysed Illumina-generated ITS2 sequences to relate mycobiome data with phenotypic tree traits, measures of genetic variation and climate variables obtained from long-term monitoring of the sites. Alpha-diversity declined with increasing environmental stress/climate harshness. Fungal communities differed in richness and taxonomic composition between sites, with a pronounced difference in the relative abundance of OTUs assigned to species of the rust genus Chrysomyxa, plant pathogens which seem to have been in an outbreak at two sites at the time of sampling. Beside climate parameters, needle age was the second strongest explanatory variable of the mycobiome composition, whereas we found no effect of tree genetic variation, indicating that environmental and tree trait specific variables mainly determined individual white spruce mycobiomes at Alaska's treelines.

AB - Fungi play a crucial role in terrestrial Arctic ecosystems as symbionts of vascular plants and nutrient recyclers in soil, with many species persistently or temporarily inhabiting the phyllosphere of the vegetation. In this study we apply high-throughput sequencing to investigate the mycobiome of 172 samples of fresh (current year) and aged (3 year old) needles of Picea glauca from three sites over a distance of 500 km in Alaska (USA). We analysed Illumina-generated ITS2 sequences to relate mycobiome data with phenotypic tree traits, measures of genetic variation and climate variables obtained from long-term monitoring of the sites. Alpha-diversity declined with increasing environmental stress/climate harshness. Fungal communities differed in richness and taxonomic composition between sites, with a pronounced difference in the relative abundance of OTUs assigned to species of the rust genus Chrysomyxa, plant pathogens which seem to have been in an outbreak at two sites at the time of sampling. Beside climate parameters, needle age was the second strongest explanatory variable of the mycobiome composition, whereas we found no effect of tree genetic variation, indicating that environmental and tree trait specific variables mainly determined individual white spruce mycobiomes at Alaska's treelines.

U2 - 10.1016/j.funeco.2019.05.006

DO - 10.1016/j.funeco.2019.05.006

M3 - Journal article

AN - SCOPUS:85068483194

VL - 41

SP - 177

EP - 186

JO - Fungal Ecology

JF - Fungal Ecology

SN - 1754-5048

ER -

ID: 226488608