Incomplete control of the diamondback moth, Plutella xylostella, by the parasitoid Cotesia vestalis in a cabbage field under tropical conditions

• Published in: BioControl (Dordrecht, Netherlands) Vol. 59; no. 6; pp. 671 - 679
• Main Authors: Arvanitakis, Laurence, David, Jean-François, Bordat, Dominique
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer-Verlag 01.12.2014; Springer Netherlands; Springer Nature B.V
• Subjects: Abundance; Agriculture; Animal Biochemistry; Animal Ecology; Behavioral Sciences; Biological control; Biomedical and Life Sciences; Braconidae; Brassica; Brassica oleracea; Butterflies & moths; cabbage; Cotesia; Cotesia vestalis; Entomology; Host-parasite interactions; Hymenoptera; Insecticides; Insects; Laboratories; larvae; Lepidoptera; Life Sciences; moths; Oscillations; Parasitoids; Pest control; Plant Pathology; Plutella xylostella; Plutellidae; Population dynamics; probability; rain; Rainfall; Rainy season; Recolonization; seasonal variation; Seasonal variations; Time lag; Tropical environment; Tropical environments; wet season; Benin; Tropical agro-ecosystems; Host-parasitoid dynamics; Braconidae; Plutellidae
• ISSN: 1386-6141; 1573-8248
• DOI: 10.1007/s10526-014-9609-4

Immature Plutella xylostella (Lepidoptera: Plutellidae) and parasitoids were sampled for 39 months in an unsprayed cabbage field near Cotonou, Benin, to determine how and when host-parasitoid interactions influence the population dynamics of the moth in a tropical environment. Eighty-three samples were taken at approximately two-week intervals. There were no seasonal patterns in the abundance of immature moths, which was not correlated with weather variables, although heavy rainfall during the principal rainy season may have temporarily affected the population. The host-parasitoid system consisted almost exclusively of P. xylostella and its larval parasitoid Cotesia vestalis (Hymenoptera: Braconidae), both species occurring at similar levels of abundance (on average 7.5 ± 0.3 and 7.2 ± 0.3 individuals per plant, respectively). The tendency for host-parasitoid dynamics to cycle was apparent in the field. P. xylostella and C. vestalis showed coupled oscillations in abundance, with a time lag of about two weeks between host and parasitoid peaks. High parasitoid abundance resulted in significant decreases in moth abundance over several weeks. However, the parasitoid population in turn decreased, could not prevent the moth from rebounding, and there was no stable control of the pest. We conclude that under tropical conditions in which P. xylostella populations grow rapidly, combined with a high probability of recolonization from surrounding areas, biological control by a well-established specialist parasitoid reaches its limits and additional control measures are necessary.