The role of arbuscular mycorrhizal fungi in plant invasion trajectory
The role of arbuscular mycorrhizal fungi in plant invasion trajectory
Background: Invasive plant species pose a global threat because they alter ecosystem functioning and biodiversity. The majority of plants form mutualistic mycorrhizal associations with mycorrhizal fungi, which contribute to the nutrient and water supply as well as diversity, competitive ability, and ecosystem productivity. In addition, the role of mycorrhizal interactions in plant invasiveness and the susceptibility or resistance of a habitat to invasion is increasingly recognized. However, the mechanisms by which mycorrhizae contribute to invasion remain unresolved. Scope: Here, we provide an overview of the empirical evidence and discuss the prospects for mycorrhizaemediated plant invasion. Overall, mycorrhizal fungi appear to have impacts on plant invasion that depend on the similarities between the mycorrhizal associations of the alien and native plants. We introduce plant mycorrhizal niche space (PMNS) as a plant’s ability to exploit and shape the mycorrhizal fungi pool of a habitat based on its dependency on mycorrhizal fungi, traits and priority effects. Conclusions: Collectively, the available evidence supports the idea that PMNS is independent of place of origin (invasive status). Understanding the drivers of the PMNS of both native and alien plant species may help to predict the potential invasiveness of plants and the invasibility of a habitat, to elucidate the role of the mycorrhizal fungal community in plant invasion and the impact of plant invasion on the structure of the mycorrhizal fungal community in new habitats (i.e., neighbour effect) and to improve restoration planning. In this regard, we highlight a number of knowledge gaps and discuss future research directions.
Fungal diversity, Invasion ecology, Mycorrhizal adaptation, Plant-mycobiome interactions, Symbiosis
1-14
Aslani, Farzad
45d78076-9f3d-4a2b-a2ec-899560c3810e
Juraimi, A. Shukor
070e862c-03e2-4350-90f2-6bde406c6948
Ahmad-Hamdani, M. Saiful
c8d72ec6-71ce-49b8-8ae8-369f0efe536c
Alam, M. Amirul
bed50c6f-9b90-4c60-a539-bde7bf1f18dd
Hasan, M. Mahmudul
c4bfecae-c3cd-412c-a56a-26662ca72e24
Hashemi, F. S.Golestan
6dab1094-bde2-4d43-8617-3d1033763247
Bahram, Mohammad
527fda21-bba5-425c-b488-7b1ac51dcabc
August 2019
Aslani, Farzad
45d78076-9f3d-4a2b-a2ec-899560c3810e
Juraimi, A. Shukor
070e862c-03e2-4350-90f2-6bde406c6948
Ahmad-Hamdani, M. Saiful
c8d72ec6-71ce-49b8-8ae8-369f0efe536c
Alam, M. Amirul
bed50c6f-9b90-4c60-a539-bde7bf1f18dd
Hasan, M. Mahmudul
c4bfecae-c3cd-412c-a56a-26662ca72e24
Hashemi, F. S.Golestan
6dab1094-bde2-4d43-8617-3d1033763247
Bahram, Mohammad
527fda21-bba5-425c-b488-7b1ac51dcabc
Aslani, Farzad, Juraimi, A. Shukor, Ahmad-Hamdani, M. Saiful, Alam, M. Amirul, Hasan, M. Mahmudul, Hashemi, F. S.Golestan and Bahram, Mohammad
(2019)
The role of arbuscular mycorrhizal fungi in plant invasion trajectory.
Plant and Soil, 441 (1-2), .
(doi:10.1007/s11104-019-04127-5).
Abstract
Background: Invasive plant species pose a global threat because they alter ecosystem functioning and biodiversity. The majority of plants form mutualistic mycorrhizal associations with mycorrhizal fungi, which contribute to the nutrient and water supply as well as diversity, competitive ability, and ecosystem productivity. In addition, the role of mycorrhizal interactions in plant invasiveness and the susceptibility or resistance of a habitat to invasion is increasingly recognized. However, the mechanisms by which mycorrhizae contribute to invasion remain unresolved. Scope: Here, we provide an overview of the empirical evidence and discuss the prospects for mycorrhizaemediated plant invasion. Overall, mycorrhizal fungi appear to have impacts on plant invasion that depend on the similarities between the mycorrhizal associations of the alien and native plants. We introduce plant mycorrhizal niche space (PMNS) as a plant’s ability to exploit and shape the mycorrhizal fungi pool of a habitat based on its dependency on mycorrhizal fungi, traits and priority effects. Conclusions: Collectively, the available evidence supports the idea that PMNS is independent of place of origin (invasive status). Understanding the drivers of the PMNS of both native and alien plant species may help to predict the potential invasiveness of plants and the invasibility of a habitat, to elucidate the role of the mycorrhizal fungal community in plant invasion and the impact of plant invasion on the structure of the mycorrhizal fungal community in new habitats (i.e., neighbour effect) and to improve restoration planning. In this regard, we highlight a number of knowledge gaps and discuss future research directions.
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More information
Accepted/In Press date: 2 May 2019
e-pub ahead of print date: 18 May 2019
Published date: August 2019
Keywords:
Fungal diversity, Invasion ecology, Mycorrhizal adaptation, Plant-mycobiome interactions, Symbiosis
Identifiers
Local EPrints ID: 434113
URI: http://eprints.soton.ac.uk/id/eprint/434113
ISSN: 0032-079X
PURE UUID: f1d92cfb-bdb7-46c7-a8cb-c5058420447f
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Date deposited: 12 Sep 2019 16:30
Last modified: 16 Mar 2024 02:20
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Contributors
Author:
Farzad Aslani
Author:
A. Shukor Juraimi
Author:
M. Saiful Ahmad-Hamdani
Author:
M. Amirul Alam
Author:
M. Mahmudul Hasan
Author:
F. S.Golestan Hashemi
Author:
Mohammad Bahram
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