Abstract
Plants can defend themselves against herbivores through activation of defensive pathways and attraction of third‐trophic‐level predators and parasites. Trophic cascades that mediate interactions in the phytobiome are part of a larger dynamic including the pathogens of the plant itself, which are known to greatly influence plant defenses. As such, we investigated the impact of a phloem‐limited bacterial pathogen, Candidatus Liberibacter asiaticus (CLas), in cultivated citrus rootstock on a well‐studied belowground tritrophic interaction involving the attraction of an entomopathogenic nematode (EPN), Steinernema diaprepesi, to their root‐feeding insect hosts, Diaprepes abbreviatus larvae. Using belowground olfactometers, we show how CLas infection interferes with this belowground interaction by similarly inducing the release of a C12 terpene, pregeijerene, and disconnecting the association of the terpene with insect presence. D. abbreviatus larvae that were not feeding but in the presence of a CLas‐infected plant were more likely to be infected by EPN than those near uninfected plants. Furthermore, nonfeeding larvae associated with CLas‐infected plants were just as likely to be infected by EPN as those near noninfected plants with D. abbreviatus larval damage. Larvae of two weevil species, D. abbreviatus and Pachnaeus litus, were also more attracted to plants with infection than to uninfected plants. D. abbreviatus larvae were most active when exposed to pregeijerene at a concentration of 0.1 μg/μl. We attribute this attraction to CLas‐infected plants to the same signal previously thought to be a herbivore‐induced plant volatile specifically induced by root‐feeding insects, pregeijerene, by assessing volatiles collected from the roots of infected plants and uninfected plants with and without feeding D. abbreviatus. Synthesis. Phytopathogens can influence the structuring of soil communities extending to the third trophic level. Field populations of EPN may be less effective at host‐finding using pregeijerene as a cue in citrus grove agroecosystems with high presence of CLas infection.
Highlights
Plants, as immobile organisms, are often exposed to multiple stressors
We hypothesized that Candidatus Liberibacter asiaticus (CLas) infection may impact belowground release of herbivore-induced plant volatiles (HIPVs) and investigated how this may impact entomopathogenic nematode (EPN) response to feeding D. abbreviates larvae in the citrus root zone
Nematode infection of D. abbreviatus larvae was similar in the presence of plants infected with CLas that received no additional feeding damage from D. abbreviatus and those that were uninfected by pathogen, but that were actively infested with larval D. abbreviatus; both of these treatments resulted in greater EPN infection of D. abbreviatus larvae than blank controls (χ2 = 15.16; df = 3; p = .0041; Figure 6b)
Summary
As immobile organisms, are often exposed to multiple stressors. Stressors can be herbivores, pathogens, parasites and abiotic conditions or some combination of those occurring either simultaneously or sequentially both above-and belowground. Changes in volatile profile due to insect feeding can influence plant-beneficial tritrophic interactions by attracting tertiary predators and parasites of insect herbivores which is known as indirect defense (Mumm & Dicke, 2010a; Price et al, 1980) This has been widely investigated in aboveground environments (e.g., De Moraes, Mescher, & Tumlinson, 2001; Meiners & Hilker, 1997) and more recently in belowground environments (Ali, Alborn, & Stelinski, 2010; Rasmann et al, 2005). The interest has been in exploiting the attraction of entomopathogenic nematodes (EPN) to damaged plants for location and infection of root-feeding herbivores This tritrophic interaction has been shown in multiple systems (Aratchige, Lesna, & Sabelis, 2004; van Tol et al, 2001). We hypothesized that CLas infection may impact belowground release of HIPVs and investigated how this may impact EPN response to feeding D. abbreviates larvae in the citrus root zone
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