Beschreibung:
<jats:title>Abstract</jats:title><jats:p>Secondary compounds play multiple ecological roles. In this study, we present novel experimental evidence of differential tolerance to freezing temperatures among chemotypes of a chemically polymorphic plant, <jats:italic>Thymus vulgaris</jats:italic>. Non‐phenolic chemotypes showed a significantly better survival and re‐growth after early‐winter freezing (−10° in early December) than phenolic chemotypes. Comparison of temperature data (1971–2002) at a phenolic and non‐phenolic site showed that whereas early‐winter freezing occurred in 6 years in the non‐phenolic site they never occurred at the phenolic site. Observations of trichome morphology (where the essential oil is stocked) with and without intense freezing indicate that non‐phenolic chemotypes may escape any negative effects of freezing by releasing their essential oil into the atmosphere during severe freezing. The correlation between tolerance of freezing and local temperature regimes strongly suggests that differential freezing resistance is a key ingredient of the distribution of thyme chemotypes in space.</jats:p>