Abstract
AbstractUncovering the predation habits of small arthropods such as mites can be a major challenge, as direct observations are not always feasible in natura. Therefore, PCR‐based analyses of gut content, or body content when gut dissection is not applicable, are being increasingly used to detect remains of prey items. Here, we present an integrative approach to investigate predation of eggs of the viburnum leaf beetle Pyrrhalta viburni, an invasive pest in North America, by the oribatid mite species Trichoribates trimaculatus, to assess the potential of this mite as a biological control agent. We combined (1) manipulative laboratory experiments exposing beetle eggs to mites under controlled conditions and (2) body content molecular analyses using quantitative PCR (qPCR) to detect traces of consumed P. viburni egg DNA in mites. To account for risks of false‐negative and false‐positive results, mainly due to detectability problems, body surface contamination, and non‐specific DNA amplification, we developed a stepwise procedure to analyze qPCR results. Egg integrity and survivorship were unaffected by mites in all experiments. However, traces of P. viburni DNA were detected in the body of mites exposed to P. viburni eggs, suggesting that they consumed either fragments of the chorion or fragments of the egg cap secreted by P. viburni females to protect the eggs, which was shown to contain P. viburni DNA. In conclusion, T. trimaculatus does not directly impact P. viburni eggs and should therefore not be considered as a biocontrol agent. The fact that mites did not directly predate eggs but contained traces of P. viburni DNA shows that detection of an organism's DNA within a presumed predator does not necessarily equal predation and that results of molecular analyses should be interpreted with caution in studies attempting to reconstruct trophic interactions.
Highlights
Understanding predation and complex trophic interactions in natura is critical for community ecologists and for scientists working in the fields of pest management and biological control (Gariepy et al 2007, Eitzinger et al 2019)
P. viburni egg masses were collected in natura on Viburnum tinus L. shrubs naturally infested by P. viburni (Montpellier area, France), and T. trimaculatus adults were collected on V. tinus shrubs present in the same area during the days preceding each experiment (Fig. 1)
Fungal growth was strongly reduced in presence of mites in experiment 2, and algal growth was strongly enhanced after exposure to mites in experiment 3 (Fig. 3). These results suggest that T. trimaculatus may directly consume and/or prevent the growth of fungi associated with P. viburni eggs
Summary
Understanding predation and complex trophic interactions in natura is critical for community ecologists and for scientists working in the fields of pest management and biological control (Gariepy et al 2007, Eitzinger et al 2019). Significant advances in molecular detection of prey DNA in the digestive system, guts, regurgitates, or whole body of predators have revolutionized community ecology studies and have been applied in a wide range of terrestrial and aquatic systems (Sheppard and Harwood 2005, King et al 2008). Conventional PCR methods have been extensively applied to determine the presence of prey DNA within the bodies of putative predators, to measure the frequency of predation events, and to assess the impact of predators on prey populations (Symondson 2002, Cuthbertson et al 2003, Gariepy et al 2007, 2018, Gagnon et al 2011, RiveraRivera et al 2012). Its high performance could be seen as a double-edged sword, because it requires performing preliminary laboratory qPCR assays to optimize the method and to assess the occurrence of prey consumption with reliability (Weber and Lundgren 2009, Prischmann-Voldseth and Lundgren 2011, Perez-Sayas et al 2015)
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