Resilience of European ash forests influenced by ash dieback

Research output: Chapter in Book/Report/Conference proceedingConference abstract in proceedingsResearch

Standard

Resilience of European ash forests influenced by ash dieback. / Kjær, Erik Dahl; Lobo, Albin; Kosawang, Chatchai; Long, Feng; Thomsen, Iben; Doonan, James; Xu, Jing; Hansen, Lars; Nielsen, Lene ; Hansen, Jon Kehlet.

Resilient Forests for the Future: Book of Abstracts. ed. / Alexandru Lucian Curtu; Elena Ciocîrlan. Transilvania University of Brașov, 2023. p. 35.

Research output: Chapter in Book/Report/Conference proceedingConference abstract in proceedingsResearch

Harvard

Kjær, ED, Lobo, A, Kosawang, C, Long, F, Thomsen, I, Doonan, J, Xu, J, Hansen, L, Nielsen, L & Hansen, JK 2023, Resilience of European ash forests influenced by ash dieback. in AL Curtu & E Ciocîrlan (eds), Resilient Forests for the Future: Book of Abstracts. Transilvania University of Brașov, pp. 35, EvolTree Conference 2023, Brasov, Romania, 12/09/2023. https://doi.org/10.31926/evoltree.2023

APA

Kjær, E. D., Lobo, A., Kosawang, C., Long, F., Thomsen, I., Doonan, J., Xu, J., Hansen, L., Nielsen, L., & Hansen, J. K. (2023). Resilience of European ash forests influenced by ash dieback. In A. L. Curtu, & E. Ciocîrlan (Eds.), Resilient Forests for the Future: Book of Abstracts (pp. 35). Transilvania University of Brașov. https://doi.org/10.31926/evoltree.2023

Vancouver

Kjær ED, Lobo A, Kosawang C, Long F, Thomsen I, Doonan J et al. Resilience of European ash forests influenced by ash dieback. In Curtu AL, Ciocîrlan E, editors, Resilient Forests for the Future: Book of Abstracts. Transilvania University of Brașov. 2023. p. 35 https://doi.org/10.31926/evoltree.2023

Author

Kjær, Erik Dahl ; Lobo, Albin ; Kosawang, Chatchai ; Long, Feng ; Thomsen, Iben ; Doonan, James ; Xu, Jing ; Hansen, Lars ; Nielsen, Lene ; Hansen, Jon Kehlet. / Resilience of European ash forests influenced by ash dieback. Resilient Forests for the Future: Book of Abstracts. editor / Alexandru Lucian Curtu ; Elena Ciocîrlan. Transilvania University of Brașov, 2023. pp. 35

Bibtex

@inbook{5213ffd553174329897f0aec5d90637b,
title = "Resilience of European ash forests influenced by ash dieback",
abstract = "During the last century, several forest calamities has been caused by host shifts where an introduced fungus has become a severe pathogen on a native species that lacked co-evolutionary history with the new pathogen. This is considered to be the case for the European ash (Fraxinus excelsior) that in recent decades has become severely damaged throughout most of its natural distribution area by the introduced Asian ascomycete Hymenoscyphus fraxineus. Fortunately, genetic variation in resistance against the novel pathogen in Europe was identified early in the epidemic, and a substantial body of research has since focused on understanding the genetics of this resistance with the vision to promote resilience of ash forest based on wise genetic management practices. Here, we review knowledge obtained from common garden trials, inoculation tests, in situ field studies of mature ash forests, analysis of microbiomes, genomes, transcriptomes and analysis in relation to survival and reproductive fitness. Based on present the knowledge, we discuss how genetic considerations can be integrated into the management of natural and planted ash forests to enhance and protect their resistance and evolutionary resilience.",
author = "Kj{\ae}r, {Erik Dahl} and Albin Lobo and Chatchai Kosawang and Feng Long and Iben Thomsen and James Doonan and Jing Xu and Lars Hansen and Lene Nielsen and Hansen, {Jon Kehlet}",
year = "2023",
doi = "10.31926/evoltree.2023",
language = "English",
pages = "35",
editor = "Curtu, {Alexandru Lucian} and Elena Cioc{\^i}rlan",
booktitle = "Resilient Forests for the Future",
publisher = "Transilvania University of Brașov",
note = "EvolTree Conference 2023 : RESILIENT FORESTS FOR THE FUTURE ; Conference date: 12-09-2023 Through 15-09-2023",
url = "https://www.evoltree.eu/conferences/conference/second-evoltree-conference-2023-resilient-forests-for-the-future",

}

RIS

TY - ABST

T1 - Resilience of European ash forests influenced by ash dieback

AU - Kjær, Erik Dahl

AU - Lobo, Albin

AU - Kosawang, Chatchai

AU - Long, Feng

AU - Thomsen, Iben

AU - Doonan, James

AU - Xu, Jing

AU - Hansen, Lars

AU - Nielsen, Lene

AU - Hansen, Jon Kehlet

PY - 2023

Y1 - 2023

N2 - During the last century, several forest calamities has been caused by host shifts where an introduced fungus has become a severe pathogen on a native species that lacked co-evolutionary history with the new pathogen. This is considered to be the case for the European ash (Fraxinus excelsior) that in recent decades has become severely damaged throughout most of its natural distribution area by the introduced Asian ascomycete Hymenoscyphus fraxineus. Fortunately, genetic variation in resistance against the novel pathogen in Europe was identified early in the epidemic, and a substantial body of research has since focused on understanding the genetics of this resistance with the vision to promote resilience of ash forest based on wise genetic management practices. Here, we review knowledge obtained from common garden trials, inoculation tests, in situ field studies of mature ash forests, analysis of microbiomes, genomes, transcriptomes and analysis in relation to survival and reproductive fitness. Based on present the knowledge, we discuss how genetic considerations can be integrated into the management of natural and planted ash forests to enhance and protect their resistance and evolutionary resilience.

AB - During the last century, several forest calamities has been caused by host shifts where an introduced fungus has become a severe pathogen on a native species that lacked co-evolutionary history with the new pathogen. This is considered to be the case for the European ash (Fraxinus excelsior) that in recent decades has become severely damaged throughout most of its natural distribution area by the introduced Asian ascomycete Hymenoscyphus fraxineus. Fortunately, genetic variation in resistance against the novel pathogen in Europe was identified early in the epidemic, and a substantial body of research has since focused on understanding the genetics of this resistance with the vision to promote resilience of ash forest based on wise genetic management practices. Here, we review knowledge obtained from common garden trials, inoculation tests, in situ field studies of mature ash forests, analysis of microbiomes, genomes, transcriptomes and analysis in relation to survival and reproductive fitness. Based on present the knowledge, we discuss how genetic considerations can be integrated into the management of natural and planted ash forests to enhance and protect their resistance and evolutionary resilience.

U2 - 10.31926/evoltree.2023

DO - 10.31926/evoltree.2023

M3 - Conference abstract in proceedings

SP - 35

BT - Resilient Forests for the Future

A2 - Curtu, Alexandru Lucian

A2 - Ciocîrlan, Elena

PB - Transilvania University of Brașov

T2 - EvolTree Conference 2023

Y2 - 12 September 2023 through 15 September 2023

ER -

ID: 376960662