Data from: Mass ratio effects underlie ecosystem responses to environmental change
Description
Dominant species removal Data are from an experiment that examined the role of interspecific competition in the regulation of abundance and coexistence of the dominant grasses in tallgrass prairie using a removal experiment with Andropogon gerardii and Sorghastrum nutans, the two most abundant grasses in tallgrass prairie (Silletti et al. 2004) (https://doi.org/10.1139/b04-016). Included is metadata, aboveground net primary productivity data, and plant species composition data.,1. Random species loss has been shown experimentally to reduce ecosystem function, sometimes more than other anthropogenic environmental changes. Yet, controversy surrounds the importance of this finding for natural systems where species loss is non-random. 2. We compiled data from 16 multi-year experiments located at a single site in native tallgrass prairie. These experiments included responses to 11 anthropogenic environmental changes, as well as non-random biodiversity loss - either the removal of uncommon/rare plant species or the most common (dominant) species. 3. As predicted by the mass ratio hypothesis, loss of a dominant species had large impacts on productivity that were comparable to other anthropogenic drivers. In contrast, the loss of uncommon/rare species had small effects on productivity despite having the largest effects on species richness. 4. The anthropogenic drivers that had the largest effects on productivity – nitrogen, irrigation, and fire – experienced not only loss of species but also significant changes in the abundance and identity of dominant species. 5. Synthesis. These results suggest that mass ratio effects rather than species loss per se is an important determinant of ecosystem function with environmental change.,Aboveground net primary productivity and plant species composition data were collected in 1998 and 1999. Refer to Silletti et al. (2004) (https://doi.org/10.1139/b04-016) for detailed methodology.
Publication Date
1-1-2019
Publisher
DRYAD
DOI
10.5061/dryad.dv41ns1tn
Language
en
Document Type
Data Set
Recommended Citation
Silletti, Andrea M. (2019), "Data from: Mass ratio effects underlie ecosystem responses to environmental change", DRYAD, doi: 10.5061/dryad.dv41ns1tn
https://doi.org/10.5061/dryad.dv41ns1tn
Identifier
10.5061/dryad.dv41ns1tn
Embargo Date
1-1-2019
Version
3