Abstract
Standish, R.J., Gove, A.D., Grigg, A.H., & Daws, M.I. (2021) Beyond species richness and community composition: Using plant functional diversity to measure restoration success in jarrah forest. Applied Vegetation Science, 24(3), e12607. https://doi.org/10.1111/avsc.12607 Due to an error in the species richness variable in the space-for-time dataset, the first panel of Figures 3, 5 and 6, and Table 3, are incorrect. The corrections appear below. 3 FIGURE (Figure presented.) Correlations between age of restored jarrah forest and species richness for the space-for-time data set (n = 490). Lines and 95% confidence intervals (CIs) drawn for significant correlations (Table 3). 5 FIGURE (Figure presented.) Correlation between time since fire in restored jarrah forest and species richness for the space-for-time data set (n = 490). Lines and 95% confidence intervals (CIs) drawn for significant correlations (Table 3). 6 FIGURE (Figure presented.) Tukey-style box and whisker plots showing comparison of forest reference and restored jarrah forest at 25 years of age for species richness. Whiskers extend 1.5 times the interquartile range from the 25th and 75th percentiles; outliers are represented by dots; n = 131 and 39 data points respectively. Mean differences are statistically significant (Appendix S4). 3 TABLE Estimated model parameters for linear models of the space-for-time dataset. (Table presented.) These new results show a significant decline in species richness with both restoration age (Figure 3; Table 3) and with time since fire (Figure 5; Table 3). Additionally, species richness of restored jarrah forest at 25 years of age was significantly lower than that observed in reference forest (Figure 6). We apologise for this error.
