The browser you are using is not supported by this website. All versions of Internet Explorer are no longer supported, either by us or Microsoft (read more here: https://www.microsoft.com/en-us/microsoft-365/windows/end-of-ie-support).

Please use a modern browser to fully experience our website, such as the newest versions of Edge, Chrome, Firefox or Safari etc.

Veronica Hederström. Photo.

Veronica Hederström

Researcher

Veronica Hederström. Photo.

The role of pollinators, pests and different yield components for organic and conventional white clover seed yields

Author

  • Ola Lundin
  • Glenn P. Svensson
  • Mattias C. Larsson
  • Göran Birgersson
  • Veronica Hederström
  • Åsa Lankinen
  • Olle Anderbrant
  • Maj Rundlöf

Summary, in English

A high and stable seed production of both organic and conventional white clover (Trifolium repens L.) is needed to meet market requirements. Seed yields of white clover are, however, known to vary greatly, and organic yields are often considerably lower than conventional yields. Our aim in this study was to estimate the roles of pollinators, pests and different yield components for organic and conventional white clover seed yields. We surveyed pollinators (honey bees, bumble bees and solitary bees), reared the main insect pests (Protapion fulvipes Geoffroy and Hypera spp. weevils) from flowers and measured the yield components (inflorescences per area, flowers per inflorescence, seeds per flower and weight per seed) in organic, conventional untreated and conventional insecticide treated plots in 27 white clover seed fields over two years in southernmost Sweden. Unexpectedly, densities of bees other than honey bees were higher in insecticide treated plots compared to organic plots, but pollinator densities were not related to seed set. The lower pollinator visitation in organic plots might have been caused by pest damage to the flowers, as P. fulvipes and Hypera spp. weevils were more common in organic plots than in conventional insecticide treated plots. The abundances of both P. fulvipes and Hypera spp. weevils were negatively related to seed set, with P. fulvipes being most damaging for seed set. Seed yield was considerably lower (42%) in organic plots compared to conventional insecticide treated plots, and this was driven by a lower (36%) seed set. Taken together, our results indicate that pollinator densities are not limiting yields in either conventional or organic white clover seed production, whereas P. fulvipes crop damage is an important factor limiting organic yields via negative effects on seed set. Research efforts to raise white clover seed yield with minimized environmental impacts should include a focus on integrated pest management of P. fulvipes, including the development of control methods accepted in organic farming.

Department/s

  • Pheromone Group
  • BECC: Biodiversity and Ecosystem services in a Changing Climate
  • Department of Biology
  • Biodiversity and Conservation Science

Publishing year

2017-08-15

Language

English

Pages

1-8

Publication/Series

Field Crops Research

Volume

210

Document type

Journal article

Publisher

Elsevier

Topic

  • Horticulture

Keywords

  • Apis mellifera
  • Integrated pest management
  • Protapion fulvipes
  • Trifolium repens

Status

Published

Project

  • Biological control of insect pests in clover seed crops

Research group

  • Pheromone Group
  • Biodiversity and Conservation Science

ISBN/ISSN/Other

  • ISSN: 0378-4290