Increased mortality of tropical tree seedlings during the extreme 2015-16 El Nino

As extreme climate events are predicted to become more frequent because of global climate change, understanding their impacts on natural systems is crucial. Tropical forests are vulnerable to droughts associated with extreme El Nino events. However, little is known about how tropical seedling communities respond to El Nino-related droughts, even though patterns of seedling survival shape future forest structure and diversity. Using long-term data from eight tropical moist forests spanning a rainfall gradient in central Panama, we show that community-wide seedling mortality increased by 11% during the extreme 2015-16 El Nino, with mortality increasing most in drought-sensitive species and in wetter forests. These results indicate that severe El Nino-related droughts influence understory dynamics in tropical forests, with effects varying both within and across sites. Our findings suggest that predicted increases in the frequency of extreme El Nino events will alter tropical plant communities through their effects on early life stages.

Automated summary

Global climate change is leading to more frequent extreme climate events, impacting tropical forest ecosystems. Research shows that extreme El Nino events result in increased seedling mortality in tropical forests, especially in drought-sensitive species and wetter forests.