Zusammenfassung der Projektergebnisse

Most weeds in arable fields are annuals that depend on seeds for survival over winter and for continued presence over years. Removing newly produced seeds would interrupt this cycle and constitutes an interesting alternative way of controlling weeds. Many animals in arable fields, such as carabid beetles, field crickets, and granivorous species of birds and mice, feed on weed seeds on the soil surface (seed predation). This way, seed-eating animals can remove considerable amounts of weed seeds. However, it is unclear whether this results in lower weed densities in subsequent years. For example, seed losses could be compensated by reduced seedling survival or enhanced seed production by the remaining weeds. Furthermore, there are usually large amounts of seeds already in the soil (seed bank), buffering any seed losses. In the current project, we investigated whether seed losses caused by seed-eating animals help controlling weed populations in agroecosystems by investigating the ability of weed populations to compensate for losses of newly produced seeds, or to buffer losses via the seed bank. We used a method that looked at each step in the life-cycle of a weed separately and another that investigated the overall effect of seed losses in one go. We found that the weed Echinochloa crus-galli (‘Hühnerhirse’, barnyard grass) in continuous maize fields could compensate via enhanced seedling survival, but not via reduced dormancy of seed mortality in the soil. Overall, barnyard grass in maize appeared considerably ‘seed limited’; i.e. most weed seeds that were added to the fields developed successfully into weed plants. They were much more seed-limited than plant populations in natural ecosystems. Seed banks mostly did not prevent successful establishment of weed plants, but delayed it. Therefore, weed populations were poorly able to compensate for or buffer seed losses caused by seed-eating animals. In conclusion, this project shows that the effect of seed predation is genuine, contributes to weed control and seed predation should be qualified an ecosystem service that is worthwhile preserving and enhancing. Observed levels of seed predation, between 38 and 70%, indicate that it already contributes to a significant reduction in weed population growth. These results are relevant to all farmers. The largest threat is losing residential granivores, and the ecosystem service they provide, due to ignorance and inexpert management. Followup research should therefore focus on the factors that limit the size, activity and composition of granivorous populations in arable fields.

Projektbezogene Publikationen (Auswahl)

• 2014. Testing for the weed control potential of seed predators in agroecosystems. Landscape Management for Functional Biodiversity. Proceedings of the meeting at Poznan, Poland, 21 - 23 May, 2014. IOBC/WPRS Bulletin 100, 143-146
  Westerman, P.R., Pannwitt, H., Selig, C., Mol,F. de & Gerowitt, B.
  
• 2014. The impact of post-dispersal seed predation on the weed population dynamics of Echinochloa crus-galli in maize monoculture. Proceedings 5th Workshop of EWRS Working Group Weed and Biodiversity. Pisa, Italy, 17-19 Nov. 2014, p. 25
  Pannwitt, H., Selig, C. & Westerman, P.R.
  
• 2015. Density-dependent seed predation in maize monoculture. 17th European Weed Research Society Symposium, ‘Weed management in changing environments’. Montpellier, France, 23-26 June 2015, p. 127
  Pannwitt, H., Selig, C., Westerman, P.R & Gerowitt, B.
  
• 2015. Estimation of the degree of seed limitation in a weed population in maize and the importance of weed seed predation. 17th European Weed Research Society Symposium, ‘Weed management in changing environments’. Montpellier, France, 23-26 June 2015, p. 140
  Selig, C., Pannwitt, H., Westerman, P.R. & Gerowitt, B.
  
• 2016. Determining the degree of seed limitation in an annual weed on maize fields. Abstract of 46th annual meeting of the Ecological Society of Germany, Austria and Switzerland, Marburg, Germany, 5-9 September 2016, p. 349-350
  Selig, C., Westerman, P.R. & De Mol, F.
  
• 2017. Biological control of weed patches by seed predators; responses to seed density and exposure time. Biological Control 108, 1-8
  Pannwitt, H., Westerman, P.R., de Mol, F., Selig, C. & Gerowitt, B.
  (Siehe online unter https://doi.org/10.1016/j.biocontrol.2017.01.016)