Abstract
The necrophagous burying beetle Nicrophorus vespilloides reproduces on small carcasses that are buried underground to serve as food for their offspring. Cadavers that are too large to bury have previously been postulated to be important food sources for newly emerged beetles; however, the attractiveness of distinct successive stages of decomposition were not further specified. Therefore, we investigated the potential preference of newly emerged N. vespilloides females for odour bouquets of piglet cadavers at specific stages of decomposition. Analyses of walking tracks on a Kramer sphere revealed a significantly higher mean walking speed and, consequently, a higher mean total track length when beetles were confronted with odour plumes of the decomposition stages ‘post-bloating’, ‘advanced decay’ or ‘dry remains’ in comparison with the solvent control. Such a change of the walking speed of newly emerged N. vespilloides females indicates a higher motivation to locate such food sources. In contrast to less discriminating individuals this behaviour provides the advantage of not wasting time at unsuitable food sources. Furthermore, in the advanced decay stage, we registered a significantly higher preference of beetles for upwind directions to its specific odour plume when compared with the solvent control. Such a change to upwind walking behaviour increases the likelihood that a large cadaver will be quickly located. Our findings are of general importance for applied forensic entomology: newly emerged N. vespilloides females on large cadavers can and should be regarded as potential indicators of prolonged post mortem intervals as our results clearly show that they prefer emitted odour bouquets of later decomposition stages.
Highlights
During the decomposition process of a cadaver, the occurring volatile organic compounds (VOCs), which are linked in quality and quantity to specific stages of decay [1,2,3], are reliable cues for appropriate succession niches of cadaver-associated insects [4,5]
general linear model (GLM) tests of between-subjects effects showed that decomposition odour significantly affected Mean walking speed (MWS) (F5 = 3.993, P = 0.002), Mean angular velocity (MAV) (F5 = 2.292, P = 0.047), Total track length (TTL) (F5 = 3.993, P = 0.002) and Upwind length (UL) (F5 = 2.701, P = 0.021), whereas decomposition odour had no significant affect on the parameters Average length of the vector (ALV) (F5 = 0.427, P = 0.830), UF (F5 = 0.363, P = 0.873) and Time spent walking upwind (TSWU) (F5 = 1.196, P = 0.312)
MWS and TTL were significantly higher in the decomposition stages of post-bloating, advanced decay and dry remains in comparison with the pure solvent (Fig. 2A and Table 2)
Summary
During the decomposition process of a cadaver, the occurring volatile organic compounds (VOCs), which are linked in quality and quantity to specific stages of decay [1,2,3], are reliable cues for appropriate succession niches of cadaver-associated insects [4,5]. The blowflies Calliphora vicina and Lucilia caesar (Diptera: Calliphoridae) and the burying beetles Nicrophorus vespillo and N. vespilloides (Coleoptera: Silphidae), which are usually amongst the first insect visitors to a cadaver, can detect and orient towards sulfur-containing volatile organic compounds (S-VOCs), such as dimethyl sulfide, dimethyl disulfide and dimethyl trisulfide [5,6], which are produced by bacteria shortly after the death of an animal. In April, dense populations of this species emerge and the sexually immature females thereof immediately start with their egg-ripening feeding period as a prerequisite for their reproduction on small carcasses in May [8,11]. Burying beetles are able to detect a cadaver as early as 1 day post mortem over a distance of up to several kilometres [5,13]
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