02209nas a2200157 4500008004100000022001400041245009800055210006900153520166000222100001401882700002301896700002701919700002001946700001501966856007001981 2018 eng d a1045-224900aEquivalent effect of UV coloration and vibratory signal on mating success in a jumping spider0 aEquivalent effect of UV coloration and vibratory signal on matin3 a
Ultraviolet (UV; wavelengths: 280–400 nm) coloration has been shown to be an important visual signal but has not been studied in conjunction with other signals such as vibratory signals previously. Here, we investigated multimodal signaling function in the visual and substrate-borne vibratory modalities of the UV-ornamented jumping spider Cosmophasis umbratica, in which the importance of UV coloration in courtship displays has been demonstrated. We first described vibratory signals produced by courting males. We found that while vibratory signals mainly consist of palp drumming and abdomen thump, amplitude of abdomen thump shows a high variance and is positively correlated with body mass. This suggests that abdomen thump as a vibratory component may be condition-dependent. To examine whether the vibratory and UV signal function as backup to each other in a variable environment (efficacy-based backup hypothesis), we used a fully crossed 2 × 2 mating assay, a signal-isolation approach, to investigate how isolated and combined signals affect mate choice by females. Our results showed that both signals in isolation or in combination result in similar female responses (i.e., mating success, latency to copulation, female attention ratio). The presence of both vibratory and UV signals affects mating frequency, with no significant differences in mating frequency when vibratory and UV signals are presented in isolation or in combination. These results support the efficacy-based backup hypothesis. We therefore conclude that vibratory and UV signals have equivalent effects in predicting mating success in C. umbratica.
1 aZeng, Hua1 aWee, Samantha, S E1 aPainting, Christina, J1 aZhang, Shichang1 aLi, Daiqin uhttp://fdslive.oup.com/www.oup.com/pdf/production_in_progress.pdf