The Epigenomic Frontier of Invasion Biology
A new multi-omics study reveals how the invasive sea squirt *Molgula manhattensis* adapts to new environments. By analyzing genetic and epigenetic (methylation) variation across populations along the Chinese coastline, researchers found strong north-south divergence linked to environmental factors. Crucially, a significant portion of the environmentally associated epigenetic variation was decoupled from the underlying genetic code, suggesting an independent layer of adaptive potential. Predictive modeling indicates that southern populations, with lower genomic and epigenomic “offsets” from future climate conditions, may pose a higher invasion risk.
Why it might matter to you: This research directly bridges genomics and epigenomics to address a core question in evolutionary genetics: how do organisms rapidly adapt? For professionals focused on genetic variation, heredity, and functional genomics, it demonstrates that epigenetic mechanisms can operate semi-independently from DNA sequence, adding complexity to models of adaptation and selection. This has implications for predicting the spread of invasive species and understanding how populations might respond to rapid environmental change, moving beyond purely sequence-based genetic forecasts.
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