Conura, the largest genus of Chalcididae (Hymenoptera: Chalcidoidea), is mostly distributed in the New World where 295 of the 301 described species occur. Chalcididae are in some cases hyperparasitoids of insects. In this study, we report the unusual association of the hyperparasitoid Conura baturitei sp. nov. with spider species of the genus Theridion Walckenaer (Theridiidae) through Zatypota riverai Gauld (Ichneumonidae, Pimplinae, Polysphincta genus-group), a primary ectoparasitoid of spiders. The new species is described and illustrated, and the host-parasitoid-hyperparasitoid interaction is discussed.
Numerous phenological studies on spiders belonging to the families Oxyopidae, Thomisidae, Lycosidae, Selenopidae (e.g. Selenops cocheleti) and Salticidae (e.g. Psecas chapoda and Psecas viridipurpureus) have been conducted in the neotropical region. However, studies that simultaneously compare population dynamics and age structure in populations of sympatric species are limited, especially in Oxyopidae. The population dynamics and phenology of two congeneric lynx spider (Peucetia rubrolineata and Peucetia flava) were examined in southeastern Brazil. Several characteristics of the age structure were compared between the two spider species. The variation in the total abundance of individuals and age structure and their relationship with climatic variables were similar between the two spiders. Adults of these spiders were present mainly in spring, indicating an annual reproductive cycle and a 'stenochronous spring' phenological pattern. The recruitment of spiders occurred in summer for P. rubrolineata and P. flava, followed by successive phenological peaks at all stages of development. Rainfall and temperature had a positive correlation to population flux in the two spider species studied. Despite the significant climatic effects observed in the Serra do Japi, the phenological pattern of the population in this study was not always repeated in other species of spiders (e.g. Selenops cocheleti).
ARTICLE HISTORY
Host manipulation has already been documented in several distinct host-parasite associations, covering all major phyla of living organisms. While in animals we know that several species have the ability to manipulate their hosts for the benefit of the parasite, in arthropopathogenic fungi there is very little knowledge about possible behavioral manipulation. We report for the first time the interaction between the araneopathogenic fungus Gibellula sp. Cavara and the spider Macrophyes pacoti Brescovit, Oliveira, Sobczak & Sobczak, 2019 (Anyphaenidae) in addition to investigating the potential change in behavior of spiders infected by the parasitic fungus. We also investigated whether the rainfall regime influences the abundance of infected spiders and the parasitism rate by the araneopathogenic fungus. Our results corroborated our hypothesis that the fungus induces vertical segregation in the spider population, inducing infected spiders to be at higher heights than uninfected ones. Dead infected spiders were found in a stretched position that probably helps in fixing the carcass on the leaves by increasing the contact surface between the host and the substrate. Our results also confirm the positive relationship between the rainy season and the greater number of parasitic spiders and the parasitism rate.
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