Effect of pollen consumption on development and intraguild predation of two predatory Coccinellidae

[Display omitted] •Consume pollen alone reduce the fitness of H. axyridis and P. japonica.•Propylea japonica that eat only pollen could not reproduce.•Adding pollen as additional food reduce the overall IGP between larvae of H. axyridis and P. japonica. Many omnivorous predaceous coccinellids consum...

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Bibliographic Details
Published in:Journal of Asia-Pacific entomology 2024, 27(4), , pp.1-9
Main Authors: Xia, Peng-Liang, Wang, Xiu-Fang, Feng, Yi, Huang, Yong, Ji, Fei, Cui, Wen-Xiao, Qiao, Bao-Ming
Format: Article
Language:English
Subjects:
Conservation biological control
Harmonia axyridis
Predator
Propylea japonica
농학
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Summary:[Display omitted] •Consume pollen alone reduce the fitness of H. axyridis and P. japonica.•Propylea japonica that eat only pollen could not reproduce.•Adding pollen as additional food reduce the overall IGP between larvae of H. axyridis and P. japonica. Many omnivorous predaceous coccinellids consume both pests like aphids and a range of plant-derived foods including pollen. It is critical to understand how plant-derived food like pollen could affect the fitness and interspecific interactions of predaceous coccinellids. This study investigated the effect of pollen consumption on the development, reproduction and intraguild predation (IGP) of two naturally co-existing aphidophagous ladybirds, Harmonia axyridis and Propylea japonica. Both species were provided with three diets including a moist canola pollen, the aphid Myzus persicae, or moist canola pollen together with aphids. The 1st instar larval of both H. axyridis and P. japonica could not survive and develop to the next larval stage when supplied with water alone. When fed on pollen only, 53 % of the H. axyridis larvae and 25 % of the P. japonica larvae successfully developed to adult. Both species exhibited an elongated development time, shorter larval body length and lower adult body weight than when offered with aphids and the mixed diet. In addition, P. japonica could not reproduce when fed on pollen alone. Interestingly, when pollen was provided as additional food, the overall IGP between larvae of H. axyridis and P. japonica was significantly reduced compared with water control or aphid as food alone. The results of this study indicated that pollen not only supports the survival of H. axyridis and P. japonica when prey is scarce, but also could benefit the co-existence of these species. For future study, it is necessary to investigate how pollinivory could benefit the fitness and biological control potential of H. axyridis and P. japonica under field conditions.
ISSN:1226-8615
1876-7790
DOI:10.1016/j.aspen.2024.102320