AUTHOR=Sobhy Islam S. , Tamiru Amanuel , Chiriboga Morales Xavier , Nyagol Dickens , Cheruiyot Duncan , Chidawanyika Frank , Subramanian Sevgan , Midega Charles A. O. , Bruce Toby J. A. , Khan Zeyaur R. 

TITLE=Bioactive Volatiles From Push-Pull Companion Crops Repel Fall Armyworm and Attract Its Parasitoids

JOURNAL=Frontiers in Ecology and Evolution

VOLUME=10

YEAR=2022

URL=https://www.frontiersin.org/journals/ecology-and-evolution/articles/10.3389/fevo.2022.883020

DOI=10.3389/fevo.2022.883020

ISSN=2296-701X

ABSTRACT=<p>Fall armyworm, <italic>Spodoptera frugiperda</italic>, is a serious invasive pest in Africa but “Push-Pull” companion cropping can substantially reduce infestation. Here, we elucidate the underpinning chemical ecology mechanisms. We hypothesized that companion crop volatiles repel herbivores (push) while attracting natural enemies (pull). Headspace volatiles collected from companion plants (<italic>Desmodium intortum, Desmodium uncinatum</italic>, <italic>Brachiaria</italic> Mulato II) were used in bioassays and electrophysiological recordings with <italic>S. frugiperda</italic> and parasitoid wasps. Insect populations, plant damage and herbivore parasitism were assessed in field plots. Coupled GC-electroantennogram (GC-EAG) recordings showed robust responses to certain aromatic and terpenoid volatile compounds. In wind tunnel bioassays, maize volatiles mixed with <italic>Desmodium</italic> volatiles were less attractive to moths than maize alone. In oviposition bioassays, <italic>S. frugiperda</italic> laid significantly fewer eggs on maize when <italic>Desmodium</italic> volatiles were present. Conversely, in an olfactometer bioassay, parasitoid wasps were attracted to the scent of both <italic>Desmodium</italic> spp. (intercrop) and the <italic>Brachiaria</italic> border crop. Our data provide evidence of the mechanisms underpinning reduced <italic>S. frugiperda</italic> infestation in the Push-Pull companion cropping system, i.e., volatiles from companion crops repel <italic>S. frugiperda</italic> while attracting its parasitoid natural enemies. These findings explain why Push-Pull field plots had fewer <italic>S. frugiperda</italic> larvae and lower crop damage than monocropped maize.</p>