Enhancing Soil Organic Matter as a Route to the Ecological Intensification of European Arable Systems

Research output: Contribution to journalArticleResearchpeer review

Authors

  • M.P.D. Garratt
  • R. Bommarco
  • D. Kleijn
  • E. Martin
  • S. R. Mortimer
  • S. Redlich
  • D. Senapathi
  • I. Steffan-Dewenter
  • S. Świtek
  • V. Takács
  • S. van Gils
  • W. H. van der Putten
  • S. G. Potts

External Research Organisations

  • University of Reading
  • Swedish University of Agricultural Sciences
  • Wageningen University and Research
  • Julius Maximilian University of Würzburg
  • University of Life Sciences in Poznan
  • Netherlands Institute of Ecology
View graph of relations

Details

Original languageEnglish
Pages (from-to)1404-1415
Number of pages12
JournalECOSYSTEMS
Volume21
Issue number7
Early online date20 Feb 2018
Publication statusPublished - 1 Nov 2018
Externally publishedYes

Abstract

Soil organic matter (SOM) is declining in most agricultural ecosystems, impacting multiple ecosystem services including erosion and flood prevention, climate and greenhouse gas regulation as well as other services that underpin crop production, such as nutrient cycling and pest control. Ecological intensification aims to enhance crop productivity by including regulating and supporting ecosystem service management into agricultural practices. We investigate the potential for increased SOM to support the ecological intensification of arable systems by reducing the need for nitrogen fertiliser application and pest control. Using a large-scale European field trial implemented across 84 fields in 5 countries, we tested whether increased SOM (using soil organic carbon as a proxy) helps recover yield in the absence of conventional nitrogen fertiliser and whether this also supports crops less favourable to key aphid pests. Greater SOM increased yield by 10%, but did not offset nitrogen fertiliser application entirely, which improved yield by 30%. Crop pest responses depended on species: Metopolophium dirhodum were more abundant in fertilised plots with high crop biomass, and although population growth rates of Sitobion avenae were enhanced by nitrogen fertiliser application in a cage trial, field populations were not affected. We conclude that under increased SOM and reduced fertiliser application, pest pressure can be reduced, while partially compensating for yield deficits linked to fertiliser reduction. If the benefits of reduced fertiliser application and increased SOM are considered in a wider environmental context, then a yield cost may become acceptable. Maintaining or increasing SOM is critical for achieving ecological intensification of European cereal production.

Keywords

    aphids, arable farming, ecological intensification, fertiliser, soil organic matter

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

Enhancing Soil Organic Matter as a Route to the Ecological Intensification of European Arable Systems. / Garratt, M.P.D.; Bommarco, R.; Kleijn, D. et al.
In: ECOSYSTEMS, Vol. 21, No. 7, 01.11.2018, p. 1404-1415.

Research output: Contribution to journalArticleResearchpeer review

Garratt, MPD, Bommarco, R, Kleijn, D, Martin, E, Mortimer, SR, Redlich, S, Senapathi, D, Steffan-Dewenter, I, Świtek, S, Takács, V, van Gils, S, van der Putten, WH & Potts, SG 2018, 'Enhancing Soil Organic Matter as a Route to the Ecological Intensification of European Arable Systems', ECOSYSTEMS, vol. 21, no. 7, pp. 1404-1415. https://doi.org/10.1007/s10021-018-0228-2, https://doi.org/10.1007/s10021-018-0228-2
Garratt, M. P. D., Bommarco, R., Kleijn, D., Martin, E., Mortimer, S. R., Redlich, S., Senapathi, D., Steffan-Dewenter, I., Świtek, S., Takács, V., van Gils, S., van der Putten, W. H., & Potts, S. G. (2018). Enhancing Soil Organic Matter as a Route to the Ecological Intensification of European Arable Systems. ECOSYSTEMS, 21(7), 1404-1415. https://doi.org/10.1007/s10021-018-0228-2, https://doi.org/10.1007/s10021-018-0228-2
Garratt MPD, Bommarco R, Kleijn D, Martin E, Mortimer SR, Redlich S et al. Enhancing Soil Organic Matter as a Route to the Ecological Intensification of European Arable Systems. ECOSYSTEMS. 2018 Nov 1;21(7):1404-1415. Epub 2018 Feb 20. doi: 10.1007/s10021-018-0228-2, 10.1007/s10021-018-0228-2
Garratt, M.P.D. ; Bommarco, R. ; Kleijn, D. et al. / Enhancing Soil Organic Matter as a Route to the Ecological Intensification of European Arable Systems. In: ECOSYSTEMS. 2018 ; Vol. 21, No. 7. pp. 1404-1415.
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title = "Enhancing Soil Organic Matter as a Route to the Ecological Intensification of European Arable Systems",
abstract = "Soil organic matter (SOM) is declining in most agricultural ecosystems, impacting multiple ecosystem services including erosion and flood prevention, climate and greenhouse gas regulation as well as other services that underpin crop production, such as nutrient cycling and pest control. Ecological intensification aims to enhance crop productivity by including regulating and supporting ecosystem service management into agricultural practices. We investigate the potential for increased SOM to support the ecological intensification of arable systems by reducing the need for nitrogen fertiliser application and pest control. Using a large-scale European field trial implemented across 84 fields in 5 countries, we tested whether increased SOM (using soil organic carbon as a proxy) helps recover yield in the absence of conventional nitrogen fertiliser and whether this also supports crops less favourable to key aphid pests. Greater SOM increased yield by 10%, but did not offset nitrogen fertiliser application entirely, which improved yield by 30%. Crop pest responses depended on species: Metopolophium dirhodum were more abundant in fertilised plots with high crop biomass, and although population growth rates of Sitobion avenae were enhanced by nitrogen fertiliser application in a cage trial, field populations were not affected. We conclude that under increased SOM and reduced fertiliser application, pest pressure can be reduced, while partially compensating for yield deficits linked to fertiliser reduction. If the benefits of reduced fertiliser application and increased SOM are considered in a wider environmental context, then a yield cost may become acceptable. Maintaining or increasing SOM is critical for achieving ecological intensification of European cereal production.",
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AU - Garratt, M.P.D.

AU - Bommarco, R.

AU - Kleijn, D.

AU - Martin, E.

AU - Mortimer, S. R.

AU - Redlich, S.

AU - Senapathi, D.

AU - Steffan-Dewenter, I.

AU - Świtek, S.

AU - Takács, V.

AU - van Gils, S.

AU - van der Putten, W. H.

AU - Potts, S. G.

N1 - Funding information: We would like to thank all the farmers who allowed us to carry out the study on their land, and we would also like to thank all the research technicians who were involved in data collection. This work was funded via the EU FP7 project LIBERATION (Grant 311781).

PY - 2018/11/1

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N2 - Soil organic matter (SOM) is declining in most agricultural ecosystems, impacting multiple ecosystem services including erosion and flood prevention, climate and greenhouse gas regulation as well as other services that underpin crop production, such as nutrient cycling and pest control. Ecological intensification aims to enhance crop productivity by including regulating and supporting ecosystem service management into agricultural practices. We investigate the potential for increased SOM to support the ecological intensification of arable systems by reducing the need for nitrogen fertiliser application and pest control. Using a large-scale European field trial implemented across 84 fields in 5 countries, we tested whether increased SOM (using soil organic carbon as a proxy) helps recover yield in the absence of conventional nitrogen fertiliser and whether this also supports crops less favourable to key aphid pests. Greater SOM increased yield by 10%, but did not offset nitrogen fertiliser application entirely, which improved yield by 30%. Crop pest responses depended on species: Metopolophium dirhodum were more abundant in fertilised plots with high crop biomass, and although population growth rates of Sitobion avenae were enhanced by nitrogen fertiliser application in a cage trial, field populations were not affected. We conclude that under increased SOM and reduced fertiliser application, pest pressure can be reduced, while partially compensating for yield deficits linked to fertiliser reduction. If the benefits of reduced fertiliser application and increased SOM are considered in a wider environmental context, then a yield cost may become acceptable. Maintaining or increasing SOM is critical for achieving ecological intensification of European cereal production.

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