Table 1.
Ontogeny of structural diversity of empirical attempts to assess relative vulnerabilities of species to climate change
| Model | Estimator of CE | SPSTs analyzed and empirical examples | Conclusion |
| V = CE | Ta | None [environmental niche modeling (13)] | Most species will have smaller ranges in the future and so are vulnerable to climate change |
| V = SPSTs | None | BMR (9) | Eurytherms are more resistant than stenotherms |
| V = SPSTs, Splasticity PSTs | None | CTmax, acclimation capacity of CTmax (10) | Restricted acclimation capacity of warm-climate species renders them more vulnerable compared with cool climate species |
| V = SPSTs, CE | Ta | CTmax, CTmin, Topt, Tb (14) | Tropical species more vulnerable than temperate species because they have lower TSMs or elevated metabolic costs |
| CTmax (6, 15–17) | |||
| BMR (18) | |||
| V = SPSTs, CE | Ta | CTmin, CTmax, thermal sensitivity of fitness (19) | Both temperate and tropical species are near thermal limits |
| V = SPSTs, SB, CE | Ta and Te | CTmax (3) | Both temperate and tropical species are near thermal limits and require behavioral moderation of exposure to persist |