Plant responses to soil heterogeneity and global environmental change

1. Recent evidence suggests that soil nutrient heterogeneity, a ubiquitous feature of terrestrial ecosystems, modulates plant responses to ongoing global change (GC). However, we know little about the overall trends of such responses, the GC drivers involved and the plant attributes affected. 2. We...

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Bibliographic Details
Published in:The Journal of ecology 2012-11, Vol.100 (6), p.1303-1314
Main Authors: García-Palacios, Pablo, Maestre, Fernando T., Bardgett, Richard D., de Kroon, Hans
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Atmospheric models
Biological and medical sciences
Carbon dioxide
Carbon dioxide concentration
changes in rainfall regime
Climate change
Climatology. Bioclimatology. Climate change
CO 2
Community composition
community‐level studies
Controlled conditions
Earth, ocean, space
Ecological function
Ecology
ecosystem functioning
Ecosystems
Enrichment
Environmental changes
Essay review
Exact sciences and technology
External geophysics
Fundamental and applied biological sciences. Psychology
General aspects
global change
Heterogeneity
Human ecology
Meteorology
N enrichment
Nitrogen
Nitrogen enrichment
Nutrient status
Nutrient uptake
Plant communities
Plant ecology
Plant growth
Plant nutrition
plant performance
Plant roots
Plants
plant–soil (below‐ground) interactions
Precipitation
Rainfall
root foraging
Simulation
Soil
Soil ecology
Soil heterogeneity
soil nutrient heterogeneity
Soil nutrients
Soil plant interactions
Soils
Synthesis
Terrestrial ecosystems
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Summary:1. Recent evidence suggests that soil nutrient heterogeneity, a ubiquitous feature of terrestrial ecosystems, modulates plant responses to ongoing global change (GC). However, we know little about the overall trends of such responses, the GC drivers involved and the plant attributes affected. 2. We synthesized literature to answer the question: Does soil heterogeneity significantly affect plant responses to main GC drivers, such as elevated atmospheric carbon dioxide concentration (CO 2 ), nitrogen (N) enrichment and changes in rainfall regime? 3. Overall, most studies have addressed short-term effects of N enrichment on the performance of model plant communities using experiments conducted under controlled conditions. The role of soil heterogeneity as a modulator of plant responses to elevated CO 2 may depend on the plasticity in nutrient uptake patterns. Soil heterogeneity does interact with N enrichment to determine plant growth and nutrient status, but the outcome of this interaction has been found to be both synergistic and inhibitory. The very few studies published on interactive effects of soil heterogeneity and changes in rainfall regime prevented us from identifying any general pattern. 4. We identify the long-term consequences of soil heterogeneity on plant community dynamics in the field, and the ecosystem-level responses of the soil heterogeneity × GC driver interaction, as the main knowledge gaps in this area of research. 5. To fill these gaps and take soil heterogeneity and GC research a step forward, we propose the following research guidelines: (i) combining morphological and physiological plant responses to soil heterogeneity with field observations of community composition and predictions from simulation models and (ii) incorporating soil heterogeneity into a trait-based response-effect framework, where plant-resource-use traits are used as both response variables to this heterogeneity and GC, and predictors of ecosystem functioning. 6. Synthesis. There is enough evidence to affirm that soil heterogeneity modulates plant responses to elevated atmospheric CO 2 and N enrichment. Our synthesis indicates that we must explicitly consider soil heterogeneity to accurately predict plant responses to GC drivers.
ISSN:0022-0477
1365-2745
DOI:10.1111/j.1365-2745.2012.02014.x