Contrasting effects of precipitation manipulations in two Great Plains plant communities

Question: Anthropogenic climate change is altering temperature and precipitation in grasslands worldwide. As grasslands are primarily water-limited, these changes in climate will likely have dramatic impacts on ecosystem function and community structure, yet the magnitude of change and the types of...

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Bibliographic Details
Published in:Journal of vegetation science 2017-03, Vol.28 (2), p.238-249
Main Authors: Byrne, Kerry M., Adler, Peter B., Lauenroth, William K.
Format: Article
Language:English
Subjects:
Anthropogenic factors
Arid regions
Biodiversity
Bouteloua gracilis
Climate
Climate change
Community structure
Dominant species
Drought
Drought, Mixed grass prairie
Ecosystems
Forecasting
Functional groups
Grasslands
Human influences
Irrigation
Local communities
Plant communities
Plant functional groups
Plant populations
Plant species composition
Precipitation
Rain
Rainfall
Schizachyrium scoparium
Semiarid environments
Shelters
Shortgrass steppe
Species composition
Species diversity
Structure-function relationships
Temperature effects
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Summary:Question: Anthropogenic climate change is altering temperature and precipitation in grasslands worldwide. As grasslands are primarily water-limited, these changes in climate will likely have dramatic impacts on ecosystem function and community structure, yet the magnitude of change and the types of species favoured may differ among ecosystems or even among local communities within ecosystems. How much might plant community responses to altered precipitation vary at two sites within one grassland region? Location: Semi-arid and sub-humid natural grasslands in the US Great Plains. Methods: At two sites we used rainfall shelters and irrigation to create irrigation, drought and control treatments. We measured changes in species composition, richness, Shannon's diversity, evenness and cover by plant functional groups across 4 yr (2008-2011). Results: The semi-arid grassland community was relatively insensitive to precipitation manipulations, and in the few cases where there was a significant relationship between treatment precipitation and the response variable, the slope of the relationship was weak. In contrast, the sub-humid grassland community was very sensitive to changes in treatment precipitation throughout the experiment, and responded more strongly, and negatively, to drought compared to irrigation. Conclusions: The differing sensitivity of the dominant species to altered precipitation amount appears to largely determine the overall differences in community response at these sites. The variable responses we observed within a single grassland region highlight the challenge of forecasting community impacts of climate change.
ISSN:1100-9233
1654-1103
DOI:10.1111/jvs.12486