Entomopathogenic nematodes from Mexico that can overcome the resistance mechanisms of the western corn rootworm

Pamela Bruno,Carla C M Arce,Christelle A M Robert,Raquel Campos-Herrera,Ted C J Turlings,Angela Köhler,Matthias Erb,Stefan Toepfer,Ricardo A R Machado,Gaétan Glauser,Julio Bernal

doi:10.1038/s41598-020-64945-x

Abstract

Natural enemies of herbivores are expected to adapt to the defence strategies of their preys or hosts. Such adaptations may also include their capacity to cope with plant metabolites that herbivores sequester as a defence. In this study, we evaluated the ability of Mexican entomopathogenic nematodes (EPN) to resist benzoxazinoids that are sequestered from maize roots by the western corn rootworm (WCR, Diabrotica virgifera virgifera; Coleoptera: Chrysomelidae), an important maize pest in America and Europe. From maize fields throughout Mexico, we retrieved 40 EPN isolates belonging to five different species, with a majority identified as Heterorhabditis bacteriophora. In the laboratory, all nematodes readily infected non-sequestering larvae of the banded cucumber beetle (D. balteata), while infectivity varied strongly for WCR larvae. While some H. bacteriophora isolates seemed negatively affected by benzoxazinoids, most showed to be resistant. Thus, EPN from Mexican maize fields can cope with these plant defence metabolites, but the results also indicate that WCR larvae possess other mechanisms that help to resist EPN. This work contributes to a better understanding of the capacity of herbivore natural enemies to resist plant defence metabolites. Furthermore, it identifies several benzoxazinoid-resistant EPN isolates that may be used to control this important maize pest.

Highlights

Natural enemies of herbivores are expected to adapt to the defence strategies of their preys or hosts
According to 18S, D2/D3 and concatenated 18S-D2/D3 rRNA gene sequences comparisons, the recovered entomopathogenic nematodes (EPN) belong to the species Heterorhabditis indica, H. atacamensis, H. mexicana, H
Using phylogenetic reconstructions based on rRNA gene sequences, they were identified as Heterorhabditis indica, H. atacamensis, H. mexicana, H. bacteriophora, and Steinernema riobrave

Summary

Introduction

Natural enemies of herbivores are expected to adapt to the defence strategies of their preys or hosts. This work contributes to a better understanding of the capacity of herbivore natural enemies to resist plant defence metabolites It identifies several benzoxazinoid-resistant EPN isolates that may be used to control this important maize pest. Recent research found that EPN strains collected from US maize fields in regions where WCR has been present for at least 50 years were more effective in infecting WCR than EPN from other regions[30] These EPN were less affected by benzoxazinoids sequestered by WCR, suggesting that EPN may be locally adapted to deal with the defence mechanisms of their insect hosts[30]. This latter result suggests that benzoxazinoid resistance in EPN may increase in the absence of a benzoxazinoid sequestering host, possibly via exposure to residual benzoxazinoid levels in the herbivores or the rhizosphere

Methods

Results

Conclusion