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Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality?

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Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality? / Alaux, Pierre Louis; Zhang, Yaqian; Gilbert, Lucy et al.
In: Plants, People, Planet, Vol. 3, No. 5, 30.09.2021, p. 433-444.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Alaux, PL, Zhang, Y, Gilbert, L & Johnson, D 2021, 'Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality?', Plants, People, Planet, vol. 3, no. 5, pp. 433-444. https://doi.org/10.1002/ppp3.10178

APA

Alaux, P. L., Zhang, Y., Gilbert, L., & Johnson, D. (2021). Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality? Plants, People, Planet, 3(5), 433-444. https://doi.org/10.1002/ppp3.10178

Vancouver

Alaux PL, Zhang Y, Gilbert L, Johnson D. Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality? Plants, People, Planet. 2021 Sept 30;3(5):433-444. Epub 2021 Feb 2. doi: 10.1002/ppp3.10178

Author

Alaux, Pierre Louis ; Zhang, Yaqian ; Gilbert, Lucy et al. / Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality?. In: Plants, People, Planet. 2021 ; Vol. 3, No. 5. pp. 433-444.

Bibtex

@article{b12ac66a336d44c79cf5662a47ccaa11,
title = "Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality?",
abstract = "Mycorrhizal fungi are key components of soil biodiversity that offer potential to provide sustainable solutions for land management, notably in agriculture and forestry. Several studies conducted in controlled environments show that key functional attributes of common mycorrhizal networks (CMNs), which inter-link different plants, are influenced by management practices. Here, we highlight the need to consider how land management affects the ubiquity and function of CMNs in nature to maximize the role of mycorrhizal fungi in enhancing ecosystem services. We emphasize that CMNs can sometimes negatively affect aspects of plant performance, but there remain major gaps in understanding before explicit consideration of CMN management can be delivered. Summary: Most mycorrhizal fungi have the capacity to develop extensive extraradical mycelium, and thus have the potential to connect multiple plants and form a {\textquoteleft}common mycorrhizal network{\textquoteright}. Several studies have shown that these networks can influence plant establishment, nutrition, productivity and defense, nutrient distribution and storage, and multitrophic interactions. However, many of these studies have focused on the importance of common mycorrhizal networks in ecological contexts and there has been less emphasis in managed systems, including croplands, grassland, agroforestry and forestry, on which humankind relies. Here we review the evidence of the potential importance of common mycorrhizal networks in managed systems, and provide insight into how these networks could be managed effectively to maximize the functions and outputs from managed systems. We also emphasize possible negative effects of common mycorrhizal networks on plant performance and question popular views that mycorrhizal networks may offer a panacea for enhancing ecosystem services. We highlight the need to gain greater insight into the ubiquity, functioning, and response to management interventions of common mycorrhizal networks and, critically, the need to determine the extent to which these networks can add value to the promotion of mycorrhizal colonization.",
keywords = "agroecosystems, forestry, land management, plant to plant signaling, restoration, soil biodiversity, sustainable agriculture",
author = "Alaux, {Pierre Louis} and Yaqian Zhang and Lucy Gilbert and David Johnson",
note = "Publisher Copyright: {\textcopyright} 2021 The Authors. Plants, People, Planet {\textcopyright} New Phytologist Foundation",
year = "2021",
month = sep,
day = "30",
doi = "10.1002/ppp3.10178",
language = "English",
volume = "3",
pages = "433--444",
journal = "Plants, People, Planet",
issn = "2572-2611",
publisher = "Wiley Open Access",
number = "5",

}

RIS

TY - JOUR

T1 - Can common mycorrhizal fungal networks be managed to enhance ecosystem functionality?

AU - Alaux, Pierre Louis

AU - Zhang, Yaqian

AU - Gilbert, Lucy

AU - Johnson, David

N1 - Publisher Copyright: © 2021 The Authors. Plants, People, Planet © New Phytologist Foundation

PY - 2021/9/30

Y1 - 2021/9/30

N2 - Mycorrhizal fungi are key components of soil biodiversity that offer potential to provide sustainable solutions for land management, notably in agriculture and forestry. Several studies conducted in controlled environments show that key functional attributes of common mycorrhizal networks (CMNs), which inter-link different plants, are influenced by management practices. Here, we highlight the need to consider how land management affects the ubiquity and function of CMNs in nature to maximize the role of mycorrhizal fungi in enhancing ecosystem services. We emphasize that CMNs can sometimes negatively affect aspects of plant performance, but there remain major gaps in understanding before explicit consideration of CMN management can be delivered. Summary: Most mycorrhizal fungi have the capacity to develop extensive extraradical mycelium, and thus have the potential to connect multiple plants and form a ‘common mycorrhizal network’. Several studies have shown that these networks can influence plant establishment, nutrition, productivity and defense, nutrient distribution and storage, and multitrophic interactions. However, many of these studies have focused on the importance of common mycorrhizal networks in ecological contexts and there has been less emphasis in managed systems, including croplands, grassland, agroforestry and forestry, on which humankind relies. Here we review the evidence of the potential importance of common mycorrhizal networks in managed systems, and provide insight into how these networks could be managed effectively to maximize the functions and outputs from managed systems. We also emphasize possible negative effects of common mycorrhizal networks on plant performance and question popular views that mycorrhizal networks may offer a panacea for enhancing ecosystem services. We highlight the need to gain greater insight into the ubiquity, functioning, and response to management interventions of common mycorrhizal networks and, critically, the need to determine the extent to which these networks can add value to the promotion of mycorrhizal colonization.

AB - Mycorrhizal fungi are key components of soil biodiversity that offer potential to provide sustainable solutions for land management, notably in agriculture and forestry. Several studies conducted in controlled environments show that key functional attributes of common mycorrhizal networks (CMNs), which inter-link different plants, are influenced by management practices. Here, we highlight the need to consider how land management affects the ubiquity and function of CMNs in nature to maximize the role of mycorrhizal fungi in enhancing ecosystem services. We emphasize that CMNs can sometimes negatively affect aspects of plant performance, but there remain major gaps in understanding before explicit consideration of CMN management can be delivered. Summary: Most mycorrhizal fungi have the capacity to develop extensive extraradical mycelium, and thus have the potential to connect multiple plants and form a ‘common mycorrhizal network’. Several studies have shown that these networks can influence plant establishment, nutrition, productivity and defense, nutrient distribution and storage, and multitrophic interactions. However, many of these studies have focused on the importance of common mycorrhizal networks in ecological contexts and there has been less emphasis in managed systems, including croplands, grassland, agroforestry and forestry, on which humankind relies. Here we review the evidence of the potential importance of common mycorrhizal networks in managed systems, and provide insight into how these networks could be managed effectively to maximize the functions and outputs from managed systems. We also emphasize possible negative effects of common mycorrhizal networks on plant performance and question popular views that mycorrhizal networks may offer a panacea for enhancing ecosystem services. We highlight the need to gain greater insight into the ubiquity, functioning, and response to management interventions of common mycorrhizal networks and, critically, the need to determine the extent to which these networks can add value to the promotion of mycorrhizal colonization.

KW - agroecosystems

KW - forestry

KW - land management

KW - plant to plant signaling

KW - restoration

KW - soil biodiversity

KW - sustainable agriculture

U2 - 10.1002/ppp3.10178

DO - 10.1002/ppp3.10178

M3 - Journal article

VL - 3

SP - 433

EP - 444

JO - Plants, People, Planet

JF - Plants, People, Planet

SN - 2572-2611

IS - 5

ER -