1. Razgour, O. et al. Considering adaptive genetic variation in climate change vulnerability assessment reduces species range loss projections. Proc. Natl Acad. Sci. USA 116, 10418–10423 (2019). This paper shows that genotypes that are adapted to warm–dry conditions can replace cold–wet-adapted genotypes as warming exceeds the tolerances of the latter.

2. Dauphin, B. et al. Disentangling the effects of geographic peripherality and habitat suitability on neutral and adaptive genetic variation in Swiss stone pine. Mol. Ecol. 29, 1972–1989 (2020). This paper shows that populations at niche margins hold increased adaptive genetic variation.

3. Bontrager, M. et al. Adaptation across geographic ranges is consistent with strong selection in marginal climates and legacies of range expansion. Evolution 75, 1316–1333 (2021). This paper shows that populations at warm niche margins are probably adapted to conditions near species tolerance limits.

4. Holliday, J. A., Suren, H. & Aitken, S. N. Divergent selection and heterogeneous migration rates across the range of Sitka spruce (Picea sitchensis). Proc. R. Soc. Lond. B 279, 1675–1683 (2012). This paper demonstrates how genetic variants at areas of marginal niche conditions can support adaptation in populations in core niche conditions.

5. Broennimann, O. et al. Distance to native climatic niche margins explains establishment success of alien mammals. Nat. Commun. 12, 2353 (2021). This paper shows that niche marginality is a measure of how close populations are to the estimated limits of their climatic niche.