Connecting plant‐soil feedbacks to long‐term stability in a desert grassland
Y. Anny Chung, Scott L. Collins, Jennifer A. Rudgers
Y. Anny Chung, Scott L. Collins, Jennifer A. Rudgers
Temporal fluctuations in plant species coexistence are key to
understanding ecosystem state transitions and long‐term maintenance of
species diversity. While plant microbiomes can alter plant competition
in short‐term experiments, their relevance to natural temporal patterns
in plant communities is unresolved. In a semiarid grassland, the
frequency and magnitude of change in plant species composition through
time varied from relatively static to highly dynamic among patches
across the landscape. We field‐tested whether these alternative
successional trajectories correlated with alternative plant‐soil
interactions. In temporally stable patches, we found negative plant‐soil
feedbacks, where plants grew worse with conspecific than heterospecific
soil biota – a mechanism that maintains stability in mathematical
models. In contrast, feedbacks in temporally dynamic patches were
neutral to positive. Importantly, the magnitude of feedbacks depended on
plant frequency, enabling plant species to increase in cover when rare,
which theory predicts will promote long‐term, stable coexistence. While
our study does not determine the direction of causality, our results
reveal a novel link between plant‐microbe interactions and temporal
stability of plant species coexistence and help to explain 20+ years of
plant abundance dynamics at the patch‐to‐landscape scales.
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