Experimental flooding impacts soil biogeochemistry but not aboveground vegetation in a coastal forest

  1. Peter Regier
  2. Ben Bond-Lamberty
  3. Nicholas Ward
  4. Vanessa Bailey
  5. Roberta Peixoto Bittencourt
  6. Fausto Machado-Silva
  7. Nate Mcdowell
  8. Kendalynn Morris
  9. Allison Myers-Pigg
  10. Steph Pennington
  11. Mizanur Rahman
  12. Roy Rich
  13. Richard W. Smith
  14. Stephanie Wilson
  15. Stella C. Woodard
  16. Alice Stearns
  17. Donnie Day
  18. Kennedy Doro
  19. Efemena Emmanuel
  20. Olawale Ogunsola
  21. Kaizad Patel
  22. Pat Megonigal
0 evaluations Published on
Read the full article Related papers
This article on Sciety

Abstract

Rising sea levels and intensifying storms increase flooding pressure on coastal forests, triggering tree mortality, ecosystem transitions, and changes to the coastal carbon cycle. However, the mechanisms that drive coastal forest mortality remain elusive due to the complex interplay between belowground and aboveground processes during flooding disturbances and limitations of observations typically reported in coastal forest mortality studies. We used an ecosystem-scale manipulation to simulate hurricane-level flooding of a coastal forest. Monitoring real-time soil conditions and tree physiological responses, we observed consistent impacts on soil biogeochemistry aligned with belowground drivers of tree mortality, but no consistent responses in aboveground vegetation. Our findings provide unprecedented empirically based insight into the earliest stages of a hypothesized forest mortality spiral and offer critical benchmarks for predicting coastal forest resilience in the face of accelerating climate change.

Significance Statement

Changing sea levels and storms are causing more flooding in coastal forests. This flooding kills trees, changing how coastal ecosystems function, but we do not fully understand what factors determine whether forests survive flooding. We designed an ecosystem-scale experiment to answer this question, with controlled saltwater and freshwater floods equivalent to a hurricane in experimental forest plots. Flooding quickly changed soil conditions, but we have not yet observed consistent tree stress responses. Our study provides the most detailed measurements to date of how coastal forests respond to flooding in real time. These findings will help us better understand the early mechanisms and warning signs of forests threatened by flooding.

Related articles

Related articles are currently not available for this article.