Reevaluating Spider Nutrition: The Essential Role of Arachidonic Acid in Captivity

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This review examines spider nutritional physiology in captive settings, focusing on how generalized feeding practices may fail to match taxon-specific metabolic demands and how this uncertainty limits links between nutrition and outcomes like growth, reproduction, and condition. Synthesizing literature on arachidonic acid (ARA) and lipid metabolism, it reports that ARA—an omega-6 fatty acid and precursor to eicosanoid signaling molecules—has metabolic roles relevant to reproduction, cuticular maintenance, and other physiological functions, while low availability has been associated in some captive contexts with stress responses, impaired development, and reduced fecundity. A major limitation noted is that corresponding eicosanoid mechanisms in spiders remain less defined, leaving gaps in causal understanding. This paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

This review examines spider nutritional physiology, which remains incompletely characterized despite spiders’ importance in ecosystems and experimental settings. In captivity (including research facilities, zoological institutions, and private collections), feeding practices are often generalized and may not address metabolic demands that vary across taxa. Consequently, links between nutrition and outcomes such as growth, reproduction, and condition in captive spiders remain insufficiently delineated. Recent work in arachnid physiology and lipid metabolism indicates that some husbandry practices warrant reevaluation. Arachidonic acid (ARA), an omega-6 fatty acid and precursor to eicosanoid signaling molecules, contributes to lipid-mediated pathways across animal taxa. In arthropods, eicosanoid pathways have documented roles in processes such as development and reproduction; corresponding mechanisms in spiders are less defined, leaving an important gap in arachnid nutrition research. This review synthesizes evidence on the metabolic roles, dietary sources, and physiological relevance of ARA in spider nutrition. Available findings link lipids such as ARA with reproduction, cuticular maintenance, and metabolic function; low availability has been associated with stress responses, impaired development, and reduced fecundity in some captive contexts (Ginjupalli et al., 2015; Kangpanich et al., 2016; Stanley & Kim, 2018). Integrating lipid analyses into captive management can support animal welfare, improve comparability across studies, and inform feeding practices for arachnids. DOI https://doi.org/10.32942/X2866F Subjects Life Sciences

Keywords

Arachidonic acid; Spider physiology; Nutritional biochemistry; Lipid metabolism; Captive husbandry; Eicosanoid signaling; Arachnid nutrition Dates Published: 2025-11-26 00:02 Last Updated: 2026-04-08 06:52 Older Versions License CC-BY Attribution-NonCommercial 4.0 International Additional Metadata Conflict of interest statement: None Data and Code Availability Statement: Not Applicable Language: English

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