Abstract
Competitive interaction between sister species can be affected by reproductive interference (RI) depending on the ability of males to discriminate conspecific from heterospecific mates. We study such interactions in Tetranychus evansi and T. urticae. These spider mites co-occur on solanaceous plants in Southern Europe, and cause important yield losses in tomato crops. Previous studies using Spanish populations found that T. evansi outcompetes T. urticae, and that this is due to unidirectional RI of T. evansi males with T. urticae females. The unidirectional RI is attributed to differences in male mate preference for conspecific females between the two species. Also, differences in the propensity of interspecific web sharing in females plays a role. To investigate proximate mechanisms of this RI, here we study the role of female pheromones on male mate preference and female web sharing. We extracted pheromones from females of the two species, and investigated if males and females were arrested by the pheromone extractions in various concentrations. We observed that T. urticae males were more sensitive to the pheromone extractions and able to discriminate conspecific from heterospecific ones. Tetranychus evansi males, on the other hand, were less sensitive. Females from both species were arrested by conspecific pheromone extraction in lower concentrations. In conclusion, heterospecific mating by T. evansi males, which results in RI, can be explained by their lack of discrimination between female pheromones of the two species. Differences in the propensity of interspecific web sharing in females might not be explained by the pheromones that we investigated.
Highlights
Related species typically compete for space and resources whenever they co-occur
The difference in mate preference between T. evansi and T. urticae males may be a key factor in their competitive interaction because it causes unidirectional reproductive interference (RI)
We investigated the role of female pheromones on male mate preference and female web sharing to understand the proximate mechanism of RI between Spanish T. evansi and T. urticae found in previous study (Sato et al 2014a, 2016b)
Summary
Related species typically compete for space and resources whenever they co-occur. Resource competition is often considered as the mechanism leading to spatial and temporal segregation among closely related species. Such segregation is found in arthropod herbivores, competitive exclusion for resources may play a minor role in arthropod herbivores due to the high abundance of plants (Kuno 1992). An important mechanism explaining their spatial and temporal segregation may be reproductive interference (RI), a negative sexual interaction between species (Kuno 1992; Burdfield-Steel and Shuker 2011; Ruokolainen and Hanski 2016, but see Shuker and Burdfield‐ Steel 2017). To determine the cause of RI, it is important to know what kind of cues males use for searching and accepting females and how precisely males can detect appropriate females
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