Litcius/Paper detail

Scale-dependent changes in ecosystem temporal stability over six decades of succession

Yani Meng, Shaopeng Li, Shaopeng Wang, Scott J. Meiners, Lin Jiang

2023Science Advances38 citationsDOIOpen Access PDF

Abstract

A widely assumed, but largely untested, tenet in ecology is that ecosystem stability tends to increase over succession. We rigorously test this idea using 60-year continuous data of old field succession across 480 plots nested within 10 fields. We found that ecosystem temporal stability increased over succession at the larger field scale (γ stability) but not at the local plot scale (α stability). Increased spatial asynchrony among plots within fields increased γ stability, while temporal increases in species stability and decreases in species asynchrony offset each other, resulting in no increase in α stability at the local scale. Furthermore, we found a notable positive diversity-stability relationship at the larger but not local scale, with the increased γ stability at the larger scale associated with increasing functional diversity later in succession. Our results emphasize the importance of spatial scale in assessing ecosystem stability over time and how it relates to biodiversity.

Topics & Concepts

Ecological successionEcologyEcosystemStability (learning theory)Environmental scienceEcological stabilitySpatial ecologySecondary successionScale (ratio)BiodiversityGeographyBiologyComputer scienceCartographyMachine learningAnimal Ecology and Behavior StudiesPlant and animal studiesEcology and Vegetation Dynamics Studies
Scale-dependent changes in ecosystem temporal stability over six decades of succession | Litcius