Decline in plant species richness with a chronic decrease of precipitation: The mediating role of the dominant species
Data files
Jan 09, 2025 version files 53.32 KB
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README.md
2.38 KB
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SEM_Appendix_241217.Rmd
22.81 KB
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SEM_ExDRain_2013_2021.xlsx
28.13 KB
Abstract
Despite the increased frequency and severity of droughts in many regions and declining biodiversity, existing experimental evidence for changes in plant species richness associated with altered water availability is limited. The growing extent of drylands highlights the need to predict precipitation-related changes in species richness, which requires a better understanding of the mechanisms. We carried out a field experiment applying a single extreme drought event and combined it with subsequent chronic alteration of summer precipitation for seven years in a water-limited temperate grassland. We assessed how altered precipitation regimes and a previous extreme drought affect species richness. We compared a simple analysis assuming only the net effect of precipitation on species richness to a complex approach by structural equation modelling that included both the direct effects of precipitation and indirect effects through the biomass of dominant grass species. Using simple analysis, we found significant positive and nonsignificant precipitation–species richness relationships in the presence and absence of extreme drought, respectively. The complex analysis disentangled direct and indirect pathways between precipitation and species richness. The indirect pathway acted only in the absence of drought. In this case, increasing precipitation increased the biomass of dominant species, which, in turn, decreased species richness, acting as a mediator variable. The direct relationship was positive, independent of the presence of drought.
Synthesis: Consistent with the global relationship between water availability and species richness, we experimentally showed that decreasing precipitation decreases species richness. Furthermore, we found that increasing precipitation may also decrease plant species richness via an indirect pathway acting through the biomass of the dominant species. Our results highlight that species richness can become more sensitive to changes in precipitation after extreme drought events that eliminate or set back dominant species.
README: Decline in plant species richness with a chronic decrease of precipitation: The mediating role of the dominant species
https://doi.org/10.5061/dryad.qnk98sfsw
Description of the data and file structure
The data were collected in the ExDRain (https://kiskun.lter.hu/en/node/837) field climate change experiment between 2013 and 2021. As described in the "comments" sheet of the "SEM_ExDRain_2013_2021.xlsx" file, the data table includes time, treatment, blockID, species richness, precipitation, and biomass data.
Files and variables
File: SEM_Appendix_241217.Rmd
Description: Statistical codes and explanations of the statistical methods used. This file works using SEM_ExDRain_2013_2021.xlsx as a data source.
File: SEM_ExDRain_2013_2021.xlsx
Description:
Variables
year | sampling year |
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block | A numeric identifier without a unit that indicates from which of the six replicates the data originates |
extreme | This identifier specifies whether the data are from an extreme treated (X) or control (C) plot |
recurrent | This identifier indicates the level of chronic precipitation change management: W - Water addition, C - Control, M - Moderate drought, S - Severe drought. |
BiomassD | Biomass of the dominant species (g*m-2) |
SR | Species richness (number of plant species per plot) |
precip | Precipitation (mm) |
Code/software
We conducted all analyses in the R environment, codes are included in SEM_Appendix_241217.Rmd