Description of a new species of Zodarion Walckenaer (Araneae: Zodariidae) from Turkey

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  Description of a new species of Zodarion Walckenaer (Araneae: Zodariidae) from Turkey Introduction Zodariidae Thorell, commonly known as ant-eating spiders, is one of the most diverse spider families, comprising over 1300 species across 90 genera (World Spider Catalog  Citation 2026 ). Members of the family are distributed worldwide, mostly in tropical and subtropical regions (World Spider Catalog  Citation 2026 ). Within this large family, the genus Zodarion Walckenaer, is represented by 176 species (World Spider Catalog  Citation 2026 ). Currently, 157 Zodarion species are known from Europe (Nentwig et al .  Citation 2026 ). In Turkey, the family Zodariidae comprises 37 species in four genera. Most of them, 34 species, belong to the genus Zodarion (Danışman et al. ,  Citation 2025 ). Within the genus, eight species of the ‘ germanicum ’ species group are found in Turkey: Zodarion abantense Wunderlich, Z. bigaense Bosmans, Özkütük, Varlı, and Kunt, ...

It's Complicated: How Sex, Family, and Season Affect Growth of a Sexually Size Dimorphic Spider

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It's Complicated: How Sex, Family, and Season Affect Growth of a Sexually Size Dimorphic Spider

ABSTRACT

Female-biased sexual size dimorphism (SSD), where females are larger than males, is widespread. While ultimate explanations for SSD are well established, the proximate developmental mechanisms remain poorly understood. Studying sex-specific growth trajectories to identify common versus sex-specific growth periods is therefore key to uncovering when and how SSD emerges. Theory predicts that female-biased SSD may arise if females hatch larger, grow more rapidly, grow longer, or combine these pathways. We studied sex-specific growth trajectories in the African hermit spider, Nephilingis cruentata, where adult females are on average 75 times heavier and take 2.3 times longer until adulthood than males. We tracked sex-specific carapace-width growth for 916 individuals from 153 families, which allowed us to test and account for the importance of family effects on sex-specific growth. After initial growth trajectories common to both sexes, trajectories diverged after ∼80–90 days, coinciding with the male subadult stage onset. At this point, male growth decelerated and terminated at sexual maturity, whereas female growth accelerated until their subadult stage at ∼200 days. Thereafter, the female growth rate also decelerated and terminated at sexual maturity. Thus, females attain their larger size through both an extended growth period and a more rapid growth rate, which initiates in female mid-development. Whereas we detected seasonal effects on growth that were similar in both sexes, among-family variation showed sex-specific signatures. Our results pinpoint a key developmental window of growth trajectory divergence between sexes, providing a target for investigation of the mechanisms underlying SSD and emphasizing the importance of family effects.

Prezelj, T., P. V.Debes, R.Golobinek, and S.Kralj-Fišer. 2026. “It's Complicated: How Sex, Family, and Season Affect Growth of a Sexually Size Dimorphic Spider.” Integrative Zoology. https://doi.org/10.1111/1749-4877.70124