TY - DATA T1 - Data underlying the publication: Diverse cropping systems lead to higher larval mortality of the cabbage root fly (Delia radicum) PY - 2023/11/03 AU - Peter Karssemeijer AU - Luuk Croijmans AU - Karthick Gajendiran AU - Rieta Gols AU - Dirk F. van Apeldoorn AU - J.J.A. (Joop) van Loon AU - Marcel Dicke AU - Erik H. Poelman UR - DO - 10.4121/728a07f5-d9b0-468e-81c2-674a622221e7.v1 KW - root herbivory KW - crop diversification KW - aboveground-belowground interactions KW - strip cropping KW - white cabbage (Brassica oleracea) KW - cabbage root fly (Delia radicum) N2 -
This data belongs to the paper published in Journal of Pest Science, with the title: Diverse cropping systems lead to higher larval mortality of the cabbage root fly (Delia radicum). See the published paper and the readme files for information on methods, techniques and other relevant information.
Abstract:
We studied how different diversified cropping systems affected the oviposition and abundance of the specialist cabbage root fly Delia radicum, the most important root herbivore in Brassica crops. The cropping systems included a monoculture, pixel cropping, and four variations of strip cropping with varying intra- and interspecific crop diversity, fertilization and spatial configuration. Furthermore, we assessed whether there was a link between D. radicum and other macroinvertebrates associated with the same plants. Cabbage root fly oviposition was higher in strip cropping designs compared to the monoculture and was highest in the most diversified strip cropping design. Despite the large number of eggs, there were no consistent differences in the number of larvae and pupae between the cropping systems, indicative of high mortality of D. radicum eggs and early instars especially in the strip cropping designs. D. radicum larval and pupal abundance positively correlated with soil-dwelling predators and detritivores and negatively correlated with other belowground herbivores. We found no correlations between the presence of aboveground insect herbivores and the number of D. radicum on the roots. Our findings indicate that root herbivore presence is determined by a complex interplay of many factors, spatial configuration of host plants, and other organisms residing near the roots.