After K-Pg, some plankton populations crashed without bouncing back. Why can a species go extinct even with some survivors still alive?
Show answer & explanation
Answer: Too few left to recover
Too few left to recover ✓ — Right — sparse populations face an extra danger called an extinction threshold. Below a critical density, finding mates, maintaining genetic diversity, and resisting random die-offs all fail. K-Pg recovery models needed this concept because pure 'low biomass' models predict bounce-back; reality showed permanent loss for many species despite leftover individuals.
Light came back too slowly — Light returning slowly was a real K-Pg condition, but it doesn't explain why some species never recovered AFTER light returned. Permanent extinction needs a mechanism that bites even in good times — and sparse populations stay vulnerable long after the original cause is gone.
Predators ate every survivor — Predators eating every survivor is rare in plankton dynamics. The food chain collapsed broadly — most predators were starving too. What actually kills small surviving populations is demographic randomness, not targeted hunting; the extinction is statistical, not by tooth.
More Paleontology questions
- After K-Pg impact darkness, what did ocean recovery lean on before normal food webs?
- Why might larger diatoms outlive smaller chalky nannoplankton in K-Pg seas?
- K-Pg shelled plankton died off in days. Why does darkness explain it better than acid dissolving shells?
- Why could tropical plankton lose more than polar plankton after global impact darkness?
- In asteroid darkness, why did some algae survive by becoming less plant-like?
- Why did freshwater animals survive the K-Pg impact winter better than land animals?
