“Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms

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Standard

“Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms. / Khalfallah, F.; Bon, L.; El Mazlouzi, M.; Bakker, M.R.; Fanin, N.; Bellanger, R.; Bernier, F.; De Schrijver, A.; Ducatillon, C.; Fotelli, M.; Gateble, G.; Gundale, M.J. ; Larsson, M.; Legout, A.; Mason, W.L.; Nordin, A.; Smolander, A.; Spyroglou, G.; Vanguelova, E.I.; Verheyen, K.; Vesterdal, L.; Zeller, B.; Augusto, L.; Derrien, D.; Buée, M.

I: Mycorrhiza, Bind 34, 2024, s. 203–216.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Khalfallah, F, Bon, L, El Mazlouzi, M, Bakker, MR, Fanin, N, Bellanger, R, Bernier, F, De Schrijver, A, Ducatillon, C, Fotelli, M, Gateble, G, Gundale, MJ, Larsson, M, Legout, A, Mason, WL, Nordin, A, Smolander, A, Spyroglou, G, Vanguelova, EI, Verheyen, K, Vesterdal, L, Zeller, B, Augusto, L, Derrien, D & Buée, M 2024, '“Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms', Mycorrhiza, bind 34, s. 203–216. https://doi.org/10.1007/s00572-024-01146-8

APA

Khalfallah, F., Bon, L., El Mazlouzi, M., Bakker, M. R., Fanin, N., Bellanger, R., Bernier, F., De Schrijver, A., Ducatillon, C., Fotelli, M., Gateble, G., Gundale, M. J., Larsson, M., Legout, A., Mason, W. L., Nordin, A., Smolander, A., Spyroglou, G., Vanguelova, E. I., ... Buée, M. (2024). “Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms. Mycorrhiza, 34, 203–216. https://doi.org/10.1007/s00572-024-01146-8

Vancouver

Khalfallah F, Bon L, El Mazlouzi M, Bakker MR, Fanin N, Bellanger R o.a. “Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms. Mycorrhiza. 2024;34:203–216. https://doi.org/10.1007/s00572-024-01146-8

Author

Khalfallah, F. ; Bon, L. ; El Mazlouzi, M. ; Bakker, M.R. ; Fanin, N. ; Bellanger, R. ; Bernier, F. ; De Schrijver, A. ; Ducatillon, C. ; Fotelli, M. ; Gateble, G. ; Gundale, M.J. ; Larsson, M. ; Legout, A. ; Mason, W.L. ; Nordin, A. ; Smolander, A. ; Spyroglou, G. ; Vanguelova, E.I. ; Verheyen, K. ; Vesterdal, L. ; Zeller, B. ; Augusto, L. ; Derrien, D. ; Buée, M. / “Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms. I: Mycorrhiza. 2024 ; Bind 34. s. 203–216.

Bibtex

@article{5b5426ef5fcf48c483910b672217450c,
title = "“Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms",
abstract = "In European forests, most tree species form symbioses with ectomycorrhizal (EM) and arbuscular mycorrhizal (AM) fungi. The EM fungi are classified into different morphological types based on the development and structure of their extraradical mycelium. These structures could be root extensions that help trees to acquire nutrients. However, the relationship between these morphological traits and functions involved in soil nutrient foraging is still under debate.We described the composition of mycorrhizal fungal communities under 23 tree species in a wide range of climates and humus forms in Europe and investigated the exploratory types of EM fungi. We assessed the response of this tree extended phenotype to humus forms, as an indicator of the functioning and quality of forest soils. We found a significant relationship between the relative proportion of the two broad categories of EM exploration types (short- or long-distance) and the humus form, showing a greater proportion of long-distance types in the least dynamic soils. As past land-use and host tree species are significant factors structuring fungal communities, we showed this relationship was modulated by host trait (gymnosperms versus angiosperms), soil depth and past land use (farmland or forest).We propose that this potential functional trait of EM fungi be used in future studies to improve predictive models of forest soil functioning and tree adaptation to environmental nutrient conditions.",
author = "F. Khalfallah and L. Bon and {El Mazlouzi}, M. and M.R. Bakker and N. Fanin and R. Bellanger and F. Bernier and {De Schrijver}, A. and C. Ducatillon and M. Fotelli and G. Gateble and M.J. Gundale and M. Larsson and A. Legout and W.L. Mason and A. Nordin and A. Smolander and G. Spyroglou and E.I. Vanguelova and K. Verheyen and L. Vesterdal and B. Zeller and L. Augusto and D. Derrien and M. Bu{\'e}e",
year = "2024",
doi = "10.1007/s00572-024-01146-8",
language = "English",
volume = "34",
pages = "203–216",
journal = "Mycorrhiza",
issn = "0940-6360",
publisher = "Springer",

}

RIS

TY - JOUR

T1 - “Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms

AU - Khalfallah, F.

AU - Bon, L.

AU - El Mazlouzi, M.

AU - Bakker, M.R.

AU - Fanin, N.

AU - Bellanger, R.

AU - Bernier, F.

AU - De Schrijver, A.

AU - Ducatillon, C.

AU - Fotelli, M.

AU - Gateble, G.

AU - Gundale, M.J.

AU - Larsson, M.

AU - Legout, A.

AU - Mason, W.L.

AU - Nordin, A.

AU - Smolander, A.

AU - Spyroglou, G.

AU - Vanguelova, E.I.

AU - Verheyen, K.

AU - Vesterdal, L.

AU - Zeller, B.

AU - Augusto, L.

AU - Derrien, D.

AU - Buée, M.

PY - 2024

Y1 - 2024

N2 - In European forests, most tree species form symbioses with ectomycorrhizal (EM) and arbuscular mycorrhizal (AM) fungi. The EM fungi are classified into different morphological types based on the development and structure of their extraradical mycelium. These structures could be root extensions that help trees to acquire nutrients. However, the relationship between these morphological traits and functions involved in soil nutrient foraging is still under debate.We described the composition of mycorrhizal fungal communities under 23 tree species in a wide range of climates and humus forms in Europe and investigated the exploratory types of EM fungi. We assessed the response of this tree extended phenotype to humus forms, as an indicator of the functioning and quality of forest soils. We found a significant relationship between the relative proportion of the two broad categories of EM exploration types (short- or long-distance) and the humus form, showing a greater proportion of long-distance types in the least dynamic soils. As past land-use and host tree species are significant factors structuring fungal communities, we showed this relationship was modulated by host trait (gymnosperms versus angiosperms), soil depth and past land use (farmland or forest).We propose that this potential functional trait of EM fungi be used in future studies to improve predictive models of forest soil functioning and tree adaptation to environmental nutrient conditions.

AB - In European forests, most tree species form symbioses with ectomycorrhizal (EM) and arbuscular mycorrhizal (AM) fungi. The EM fungi are classified into different morphological types based on the development and structure of their extraradical mycelium. These structures could be root extensions that help trees to acquire nutrients. However, the relationship between these morphological traits and functions involved in soil nutrient foraging is still under debate.We described the composition of mycorrhizal fungal communities under 23 tree species in a wide range of climates and humus forms in Europe and investigated the exploratory types of EM fungi. We assessed the response of this tree extended phenotype to humus forms, as an indicator of the functioning and quality of forest soils. We found a significant relationship between the relative proportion of the two broad categories of EM exploration types (short- or long-distance) and the humus form, showing a greater proportion of long-distance types in the least dynamic soils. As past land-use and host tree species are significant factors structuring fungal communities, we showed this relationship was modulated by host trait (gymnosperms versus angiosperms), soil depth and past land use (farmland or forest).We propose that this potential functional trait of EM fungi be used in future studies to improve predictive models of forest soil functioning and tree adaptation to environmental nutrient conditions.

U2 - 10.1007/s00572-024-01146-8

DO - 10.1007/s00572-024-01146-8

M3 - Journal article

C2 - 38700516

VL - 34

SP - 203

EP - 216

JO - Mycorrhiza

JF - Mycorrhiza

SN - 0940-6360

ER -

ID: 392659174