Highlights
- A multi-omics study on sexual dimorphism of macroalgae under OA.
- Male S. thunbergii adopted a growth-oriented strategy under OA.
- Female S. thunbergii showed a defense-oriented survival strategy under OA.
- Fundamental trade-off between growth and defense underlay sex-specific responses.
Abstract
Ocean acidification (OA), driven by increasing atmospheric CO2 concentrations, poses significant threats to the ecologically important intertidal macroalgae. Multiple previous studies have indicated species-specific responses to OA, the sex-specific physiological-biochemical responses and underlying molecular mechanisms in dioecious macroalgae remain poorly understood. In this study, we investigated the responses of male and female Sargassum thunbergii to acidification treatment (2000 ppm CO2) by integrating physiological-biochemical, transcriptomic, and metabolomic analyses. Both sexes maintained photosynthetic performance, with increased maximum relative electron transport rates (rETRmax). Males exhibited a growth-oriented strategy, characterized by higher accumulation of storage compounds like triglycerides and up-regulation of genes related to the photosynthesis and biosynthesis pathways. In contrast, females displayed a survival-oriented strategy, with reduced carbon storage, increased soluble protein and phenolic substance contents, and up-regulation of genes related to defense- and stress-response pathways. These findings provided physiological-biochemical and molecular evidence for a growth and defense trade-off between male and female S. thunbergii under acidification treatment. Our study provided the mechanistic insights into the sex-specific responses of marine macroalgae to global climate change and highlighted the importance of accounting for sexual dimorphism in predicting the ecological resilience of intertidal macroalgae populations under future ocean conditions.
Li D., Wang Y., Zhao Y. & Tang X., 2026. Sex-specific physiological-biochemical and multi-omics responses of Sargassum thunbergii to ocean acidification. Algal Research 95: 104615. doi: 10.1016/j.algal.2026.104615. Article (restricted access).
