Organic farming affects the biological control of hemipteran pests and yields in spring barley independent of landscape complexity

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Organic farming affects the biological control of hemipteran pests and yields in spring barley independent of landscape complexity. / Birkhofer, K.; Arvidsson, F.; Ehlers, D. et al.
In: Landscape Ecology, Vol. 31, No. 3, 01.03.2016, p. 567-579.

Research output: Journal contributionsJournal articlesResearchpeer-review

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Birkhofer K, Arvidsson F, Ehlers D, Mader VL, Bengtsson J, Smith HG. Organic farming affects the biological control of hemipteran pests and yields in spring barley independent of landscape complexity. Landscape Ecology. 2016 Mar 1;31(3):567-579. doi: 10.1007/s10980-015-0263-8

Bibtex

@article{207f3d9e17ff4acf8e1c14e4e769c254,
title = "Organic farming affects the biological control of hemipteran pests and yields in spring barley independent of landscape complexity",
abstract = "Context: Hemipteran pests cause significant yield losses in European cereal fields. It has been suggested that local management interventions to promote natural enemies are most successful in simple landscapes that are dominated by large arable fields. Objectives: We study how farming category (conventional, new and old organic fields) and landscape complexity affect pests, natural enemies and biological control services in spring barley. We further analyse if yields are related to pest infestation or biological control services. Methods: The amount of pasture and the length of field borders were used to define landscape complexity around barley fields in Southern Sweden. Arthropods were sampled with an insect suction sampler and predation and parasitism services were estimated by field observations and inspections of pest individuals. Results: Pest infestation was affected by landscape complexity, with higher aphid, but lower leafhopper numbers in more complex landscapes. Aphid predation was higher under organic farming and affected by effects on predator abundance and community composition independent of landscape complexity. Auchenorrhyncha parasitism was neither significantly affected by landscape complexity nor by farming category. Higher aphid predation rates and lower aphid densities were characteristic for organically managed fields with higher barley yields. Conclusions: Our results suggest that it is possible to increase both aphid biological control services and barley yield via local management effects on predator communities independent of landscape complexity. However, the success of such management practices is highly dependent on the pest and natural enemy taxa and the nature of the trophic interaction.",
keywords = "Sustainability Science, Aphididae, Araneae, Auchenorrhyncha, Dryinidae, Ecosystem service, Yield",
author = "K. Birkhofer and F. Arvidsson and D. Ehlers and Mader, {V. L.} and J. Bengtsson and Smith, {H. G.}",
year = "2016",
month = mar,
day = "1",
doi = "10.1007/s10980-015-0263-8",
language = "English",
volume = "31",
pages = "567--579",
journal = "Landscape Ecology",
issn = "0921-2973",
publisher = "SPB Academic Publishing",
number = "3",

}

RIS

TY - JOUR

T1 - Organic farming affects the biological control of hemipteran pests and yields in spring barley independent of landscape complexity

AU - Birkhofer, K.

AU - Arvidsson, F.

AU - Ehlers, D.

AU - Mader, V. L.

AU - Bengtsson, J.

AU - Smith, H. G.

PY - 2016/3/1

Y1 - 2016/3/1

N2 - Context: Hemipteran pests cause significant yield losses in European cereal fields. It has been suggested that local management interventions to promote natural enemies are most successful in simple landscapes that are dominated by large arable fields. Objectives: We study how farming category (conventional, new and old organic fields) and landscape complexity affect pests, natural enemies and biological control services in spring barley. We further analyse if yields are related to pest infestation or biological control services. Methods: The amount of pasture and the length of field borders were used to define landscape complexity around barley fields in Southern Sweden. Arthropods were sampled with an insect suction sampler and predation and parasitism services were estimated by field observations and inspections of pest individuals. Results: Pest infestation was affected by landscape complexity, with higher aphid, but lower leafhopper numbers in more complex landscapes. Aphid predation was higher under organic farming and affected by effects on predator abundance and community composition independent of landscape complexity. Auchenorrhyncha parasitism was neither significantly affected by landscape complexity nor by farming category. Higher aphid predation rates and lower aphid densities were characteristic for organically managed fields with higher barley yields. Conclusions: Our results suggest that it is possible to increase both aphid biological control services and barley yield via local management effects on predator communities independent of landscape complexity. However, the success of such management practices is highly dependent on the pest and natural enemy taxa and the nature of the trophic interaction.

AB - Context: Hemipteran pests cause significant yield losses in European cereal fields. It has been suggested that local management interventions to promote natural enemies are most successful in simple landscapes that are dominated by large arable fields. Objectives: We study how farming category (conventional, new and old organic fields) and landscape complexity affect pests, natural enemies and biological control services in spring barley. We further analyse if yields are related to pest infestation or biological control services. Methods: The amount of pasture and the length of field borders were used to define landscape complexity around barley fields in Southern Sweden. Arthropods were sampled with an insect suction sampler and predation and parasitism services were estimated by field observations and inspections of pest individuals. Results: Pest infestation was affected by landscape complexity, with higher aphid, but lower leafhopper numbers in more complex landscapes. Aphid predation was higher under organic farming and affected by effects on predator abundance and community composition independent of landscape complexity. Auchenorrhyncha parasitism was neither significantly affected by landscape complexity nor by farming category. Higher aphid predation rates and lower aphid densities were characteristic for organically managed fields with higher barley yields. Conclusions: Our results suggest that it is possible to increase both aphid biological control services and barley yield via local management effects on predator communities independent of landscape complexity. However, the success of such management practices is highly dependent on the pest and natural enemy taxa and the nature of the trophic interaction.

KW - Sustainability Science

KW - Aphididae

KW - Araneae

KW - Auchenorrhyncha

KW - Dryinidae

KW - Ecosystem service

KW - Yield

UR - http://www.scopus.com/inward/record.url?scp=84957433644&partnerID=8YFLogxK

U2 - 10.1007/s10980-015-0263-8

DO - 10.1007/s10980-015-0263-8

M3 - Journal articles

VL - 31

SP - 567

EP - 579

JO - Landscape Ecology

JF - Landscape Ecology

SN - 0921-2973

IS - 3

ER -