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Is diversity of mycorrhizal fungi important for ecosystem functioning?

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter

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Is diversity of mycorrhizal fungi important for ecosystem functioning? / Leake, Jonathan R.; Johnson, David; Donnelly, DP et al.
Biological Diversity and Function in Soils. ed. / Richard Bardgett; Michael Usher; David Hopkins. Cambridge University Press (CUP), 2005. p. 216-235 (Ecological Reviews).

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter

Harvard

Leake, JR, Johnson, D, Donnelly, DP, Boddy, L & Read, DJ 2005, Is diversity of mycorrhizal fungi important for ecosystem functioning? in R Bardgett, M Usher & D Hopkins (eds), Biological Diversity and Function in Soils. Ecological Reviews, Cambridge University Press (CUP), pp. 216-235. <https://www.cambridge.org/gb/universitypress/subjects/life-sciences/ecology-and-conservation/biological-diversity-and-function-soils?format=PB>

APA

Leake, J. R., Johnson, D., Donnelly, DP., Boddy, L., & Read, D. J. (2005). Is diversity of mycorrhizal fungi important for ecosystem functioning? In R. Bardgett, M. Usher, & D. Hopkins (Eds.), Biological Diversity and Function in Soils (pp. 216-235). (Ecological Reviews). Cambridge University Press (CUP). https://www.cambridge.org/gb/universitypress/subjects/life-sciences/ecology-and-conservation/biological-diversity-and-function-soils?format=PB

Vancouver

Leake JR, Johnson D, Donnelly DP, Boddy L, Read DJ. Is diversity of mycorrhizal fungi important for ecosystem functioning? In Bardgett R, Usher M, Hopkins D, editors, Biological Diversity and Function in Soils. Cambridge University Press (CUP). 2005. p. 216-235. (Ecological Reviews).

Author

Leake, Jonathan R. ; Johnson, David ; Donnelly, DP et al. / Is diversity of mycorrhizal fungi important for ecosystem functioning?. Biological Diversity and Function in Soils. editor / Richard Bardgett ; Michael Usher ; David Hopkins. Cambridge University Press (CUP), 2005. pp. 216-235 (Ecological Reviews).

Bibtex

@inbook{37305c42b60c4f0e8e663f94edfeebb8,
title = "Is diversity of mycorrhizal fungi important for ecosystem functioning?",
abstract = "Globally accelerating rates of species loss make it imperative that relationships between biodiversity and ecosystem function are analysed, yet resolution of these interactions has presented one of the most intractable challenges in ecological research. Because biodiversity in soil is considerably greater than that aboveground, and the identities and functions of many soil microorganisms are uncharacterized, the difficulties involved in establishing diversity-function relationships in the below-ground environment are compounded. In this paper, the mycorrhizal fungi are selected as a representative keystone group of soil microorganisms, and the relationship between their biodiversity and function in soil ecosystems are explored. For some keystone groups of soil microorganisms, prominent among which are the mycorrhizal fungi, diversity-function relationships are starting to be elucidated. Mycorrhizal symbionts are present in virtually all terrestrial ecosystems where they are major components of the soil microbial biomass. There is increasing evidence that mycorrhizal diversity is of central importance in agro-ecosystem functioning, and that intensification of agriculture and forestry, combined with air and soil pollution, is reducing their diversity and compromising their functioning. Two lines of evidence support the case that mycorrhizal diversity is of major functional significance, namely: (1) that mycorrhizal associations are multi-functional and exhibit complementarity, assisting plants in nutrient acquisition, mediating carbon transfer between plants and protecting their roots from pathogens; and (2) that based on emerging evidence of a combination of high specificity and dependency in many mycorrhizal associations, especially those involving myco-heterotrophic plants, it is hypothesized that the extent of functional 'redundancy' is low.",
author = "Leake, {Jonathan R.} and David Johnson and DP Donnelly and Lynne Boddy and Read, {David J.}",
year = "2005",
month = sep,
day = "30",
language = "English",
isbn = "‎ 9780521847094",
series = "Ecological Reviews",
publisher = "Cambridge University Press (CUP)",
pages = "216--235",
editor = "Richard Bardgett and Michael Usher and David Hopkins",
booktitle = "Biological Diversity and Function in Soils",

}

RIS

TY - CHAP

T1 - Is diversity of mycorrhizal fungi important for ecosystem functioning?

AU - Leake, Jonathan R.

AU - Johnson, David

AU - Donnelly, DP

AU - Boddy, Lynne

AU - Read, David J.

PY - 2005/9/30

Y1 - 2005/9/30

N2 - Globally accelerating rates of species loss make it imperative that relationships between biodiversity and ecosystem function are analysed, yet resolution of these interactions has presented one of the most intractable challenges in ecological research. Because biodiversity in soil is considerably greater than that aboveground, and the identities and functions of many soil microorganisms are uncharacterized, the difficulties involved in establishing diversity-function relationships in the below-ground environment are compounded. In this paper, the mycorrhizal fungi are selected as a representative keystone group of soil microorganisms, and the relationship between their biodiversity and function in soil ecosystems are explored. For some keystone groups of soil microorganisms, prominent among which are the mycorrhizal fungi, diversity-function relationships are starting to be elucidated. Mycorrhizal symbionts are present in virtually all terrestrial ecosystems where they are major components of the soil microbial biomass. There is increasing evidence that mycorrhizal diversity is of central importance in agro-ecosystem functioning, and that intensification of agriculture and forestry, combined with air and soil pollution, is reducing their diversity and compromising their functioning. Two lines of evidence support the case that mycorrhizal diversity is of major functional significance, namely: (1) that mycorrhizal associations are multi-functional and exhibit complementarity, assisting plants in nutrient acquisition, mediating carbon transfer between plants and protecting their roots from pathogens; and (2) that based on emerging evidence of a combination of high specificity and dependency in many mycorrhizal associations, especially those involving myco-heterotrophic plants, it is hypothesized that the extent of functional 'redundancy' is low.

AB - Globally accelerating rates of species loss make it imperative that relationships between biodiversity and ecosystem function are analysed, yet resolution of these interactions has presented one of the most intractable challenges in ecological research. Because biodiversity in soil is considerably greater than that aboveground, and the identities and functions of many soil microorganisms are uncharacterized, the difficulties involved in establishing diversity-function relationships in the below-ground environment are compounded. In this paper, the mycorrhizal fungi are selected as a representative keystone group of soil microorganisms, and the relationship between their biodiversity and function in soil ecosystems are explored. For some keystone groups of soil microorganisms, prominent among which are the mycorrhizal fungi, diversity-function relationships are starting to be elucidated. Mycorrhizal symbionts are present in virtually all terrestrial ecosystems where they are major components of the soil microbial biomass. There is increasing evidence that mycorrhizal diversity is of central importance in agro-ecosystem functioning, and that intensification of agriculture and forestry, combined with air and soil pollution, is reducing their diversity and compromising their functioning. Two lines of evidence support the case that mycorrhizal diversity is of major functional significance, namely: (1) that mycorrhizal associations are multi-functional and exhibit complementarity, assisting plants in nutrient acquisition, mediating carbon transfer between plants and protecting their roots from pathogens; and (2) that based on emerging evidence of a combination of high specificity and dependency in many mycorrhizal associations, especially those involving myco-heterotrophic plants, it is hypothesized that the extent of functional 'redundancy' is low.

M3 - Chapter

SN - ‎ 9780521847094

T3 - Ecological Reviews

SP - 216

EP - 235

BT - Biological Diversity and Function in Soils

A2 - Bardgett, Richard

A2 - Usher, Michael

A2 - Hopkins, David

PB - Cambridge University Press (CUP)

ER -