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Climate and local environment structure asynchrony and the stability of primary production in grasslands

April 1, 2020

Climate variability threatens to destabilize production in many ecosystems. Asynchronous species dynamics may buffer against such variability when a decrease in performance by some species is offset by an increase in performance of others. However, high climatic variability can eliminate species through stochastic extinctions or cause similar stress responses among species that reduce buffering. Local conditions, such as soil nutrients, can also alter production stability directly or by influencing asynchrony. We test these hypotheses using a globally distributed sampling experiment.

Grasslands in North America, Europe and Australia.

Time period
Annual surveys over 5 year intervals occurring between 2007 and 2014.

Major taxa studied
Herbaceous plants.

We sampled annually the per species cover and aboveground community biomass [net primary productivity (NPP)], plus soil chemical properties, in 29 grasslands. We tested how soil conditions, combined with variability in precipitation and temperature, affect species richness, asynchrony and temporal stability of primary productivity. We used bivariate relationships and structural equation modelling to examine proximate and ultimate relationships.

Climate variability strongly predicted asynchrony, whereas NPP stability was more related to soil conditions. Species richness was structured by both climate variability and soils and, in turn, increased asynchrony. Variability in temperature and precipitation caused a unimodal asynchrony response, with asynchrony being lowest at low and high climate variability. Climate impacted stability indirectly, through its effect on asynchrony, with stability increasing at higher asynchrony owing to lower inter‐annual variability in NPP. Soil conditions had no detectable effect on asynchrony but increased stability by increasing the mean NPP, especially when soil organic matter was high.

Main conclusions
We found globally consistent evidence that climate modulates species asynchrony but that the direct effect on stability is low relative to local soil conditions. Nonetheless, our observed unimodal responses to variability in temperature and precipitation suggest asynchrony thresholds, beyond which there are detectable destabilizing impacts of climate on primary productivity.

Citation Information

Publication Year 2020
Title Climate and local environment structure asynchrony and the stability of primary production in grasslands
DOI 10.1111/geb.13094
Authors B. Gilbert, A.S. MacDougall, T. Kadoya, M. Akasaka, J. R. Bennett, E.M. Lind, H. Flores-Moreno, J. Firn, Y. Hautier, E.T. Borer, E.W. Seabloom, P.B. Adler, E.E. Cleland, James Grace, W.S. Harpole, E.H. Esch, J.L. Moore, J. Knops, R. McCulley, B. Mortensen, J. Bakker, P.A. Fay
Publication Type Article
Publication Subtype Journal Article
Series Title Global Ecology and Biogeography
Series Number
Index ID 70209472
Record Source USGS Publications Warehouse
USGS Organization Wetland and Aquatic Research Center