The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem

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The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem. / Crotty, Felicity Victoria; Fychan, Aled Rhun; Scullion, John et al.

EGF at 50: The Future of European Grasslands: Grassland Science in Europe. ed. / Alan Hopkins. Vol. 19 2014. p. 267-269.

Research output: Chapter in Book/Report/Conference proceedingConference Proceeding (Non-Journal item)

Harvard

Crotty, FV, Fychan, AR, Scullion, J, Sanderson, R & Marley, CL 2014, The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem. in A Hopkins (ed.), EGF at 50: The Future of European Grasslands: Grassland Science in Europe. vol. 19, pp. 267-269, 25th EGF Conference, Aberystwyth, United Kingdom of Great Britain and Northern Ireland, 08 Sept 2014.

APA

Crotty, F. V., Fychan, A. R., Scullion, J., Sanderson, R., & Marley, C. L. (2014). The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem. In A. Hopkins (Ed.), EGF at 50: The Future of European Grasslands: Grassland Science in Europe (Vol. 19, pp. 267-269)

Vancouver

Crotty FV, Fychan AR, Scullion J, Sanderson R, Marley CL. The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem. In Hopkins A, editor, EGF at 50: The Future of European Grasslands: Grassland Science in Europe. Vol. 19. 2014. p. 267-269

Author

Crotty, Felicity Victoria ; Fychan, Aled Rhun ; Scullion, John et al. / The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem. EGF at 50: The Future of European Grasslands: Grassland Science in Europe. editor / Alan Hopkins. Vol. 19 2014. pp. 267-269

Bibtex - Download

@inproceedings{07f3e25e57c842998554065b7bd6d8ea,
title = "The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem",
abstract = "Soil biology is key to maintaining soil health, and soil health is fundamental to the sustainability of agricultural systems. Alternative forages have higher concentrations of essential nutrients, and different rooting patterns, potentially affecting soil-plant-animal interactions. Soil fauna have significant effects on belowground processes and are a vital part of carbon/nitrogen cycling, litter decomposition and the redistribution of nutrients. It is unknown how the soil food web will be affected by different forages, whilst all other environmental variables remain the same, under field conditions. An experiment was set up to test the hypothesis that alternative forages would alter the soil habitat leading to changes in soil biology. To investigate this, plots of chicory (Cichorium intybus), red clover (Trifolium pratense) white clover (Trifolium repens) and perennial ryegrass (Lolium perenne) were established in 2009. Plots were maintained over a three year period, before soil biology samples were taken including soil mesofauna, nematodes, and earthworms. Significant differences were found between the forages and earthworm abundance, as well as some of the microarthropod groups. The implication of these results in relation to the soil food web and sustainable grassland systems is discussed.",
keywords = "Trifolium pratense, Trifolium repens, Cichorium intybus, Soil food webs, Earthworms",
author = "Crotty, {Felicity Victoria} and Fychan, {Aled Rhun} and John Scullion and Ruth Sanderson and Marley, {Christina Louise}",
note = "Crotty, F. V., Fychan, A. R., Scullion, J., Sanderson, R., & Marley, C. L. (2014). The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem. In A. Hopkins (Ed.), EGF at 50: The Future of European Grasslands: Grassland Science in Europe. (Vol. 19, pp. 267-269); 25th EGF Conference ; Conference date: 08-09-2014 Through 10-09-2014",
year = "2014",
month = sep,
day = "1",
language = "English",
isbn = "978-0992694012",
volume = "19",
pages = "267--269",
editor = "Alan Hopkins",
booktitle = "EGF at 50: The Future of European Grasslands",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem

AU - Crotty, Felicity Victoria

AU - Fychan, Aled Rhun

AU - Scullion, John

AU - Sanderson, Ruth

AU - Marley, Christina Louise

N1 - Crotty, F. V., Fychan, A. R., Scullion, J., Sanderson, R., & Marley, C. L. (2014). The effects of agricultural forages on soil biology - linking the plant-soil-invertebrate ecosystem. In A. Hopkins (Ed.), EGF at 50: The Future of European Grasslands: Grassland Science in Europe. (Vol. 19, pp. 267-269)

PY - 2014/9/1

Y1 - 2014/9/1

N2 - Soil biology is key to maintaining soil health, and soil health is fundamental to the sustainability of agricultural systems. Alternative forages have higher concentrations of essential nutrients, and different rooting patterns, potentially affecting soil-plant-animal interactions. Soil fauna have significant effects on belowground processes and are a vital part of carbon/nitrogen cycling, litter decomposition and the redistribution of nutrients. It is unknown how the soil food web will be affected by different forages, whilst all other environmental variables remain the same, under field conditions. An experiment was set up to test the hypothesis that alternative forages would alter the soil habitat leading to changes in soil biology. To investigate this, plots of chicory (Cichorium intybus), red clover (Trifolium pratense) white clover (Trifolium repens) and perennial ryegrass (Lolium perenne) were established in 2009. Plots were maintained over a three year period, before soil biology samples were taken including soil mesofauna, nematodes, and earthworms. Significant differences were found between the forages and earthworm abundance, as well as some of the microarthropod groups. The implication of these results in relation to the soil food web and sustainable grassland systems is discussed.

AB - Soil biology is key to maintaining soil health, and soil health is fundamental to the sustainability of agricultural systems. Alternative forages have higher concentrations of essential nutrients, and different rooting patterns, potentially affecting soil-plant-animal interactions. Soil fauna have significant effects on belowground processes and are a vital part of carbon/nitrogen cycling, litter decomposition and the redistribution of nutrients. It is unknown how the soil food web will be affected by different forages, whilst all other environmental variables remain the same, under field conditions. An experiment was set up to test the hypothesis that alternative forages would alter the soil habitat leading to changes in soil biology. To investigate this, plots of chicory (Cichorium intybus), red clover (Trifolium pratense) white clover (Trifolium repens) and perennial ryegrass (Lolium perenne) were established in 2009. Plots were maintained over a three year period, before soil biology samples were taken including soil mesofauna, nematodes, and earthworms. Significant differences were found between the forages and earthworm abundance, as well as some of the microarthropod groups. The implication of these results in relation to the soil food web and sustainable grassland systems is discussed.

KW - Trifolium pratense

KW - Trifolium repens

KW - Cichorium intybus

KW - Soil food webs

KW - Earthworms

UR - http://hdl.handle.net/2160/37960

M3 - Conference Proceeding (Non-Journal item)

SN - 978-0992694012

SN - 0992694019

VL - 19

SP - 267

EP - 269

BT - EGF at 50: The Future of European Grasslands

A2 - Hopkins, Alan

T2 - 25th EGF Conference

Y2 - 8 September 2014 through 10 September 2014

ER -

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